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1,644 results on '"Materials science"'

1. Sound-absorbing aerated concrete based on China fly ash

Author: Wenxu Xiao
Subjects: construction, materials science, structure, insulation, noise, composite, sound level, man, aerated concrete, cellular concrete, Transportation engineering, TA1001-1280
Abstract: Introduction. The development of aerated concrete with a high content of open pores, using polymineral binders with reduced cement content and significant utilization of local technogenic resources (in particular, enriched waste from thermal power plants) is relevant for the modern construction industry. To systematize modern methods for studying the characteristics of sound insulation and sound protection of buildings, it is necessary to take into account the diversity of international building codes. The aim of the work is to develop a scientifically based technological solution that provides effective aerated concrete based on fly ash from China with improved sound-absorbing characteristics.Main part. In this paper, a methodological basis, which provides for the comprehensive use of fundamental approaches in building materials science, was used. Integrated design to develop composite materials of a given quality at the nano-, micro- and macrolevels was used. The physical and mechanical properties of raw materials and the required characteristics of the developed materials using physicochemical methods of analysis, including laser granulometry, X-ray phase analysis, scanning electron microscopy, thermal methods, etc were studied. The experimental studies in the laboratories of V.G. Shukhov BSTU, as well as Chinese universities were carried out.Conclusions. In this work, scientific approaches for the design and synthesis of aerated concrete with improved acoustic characteristics in various regions of the country, taking into account local raw materials were formulated. Further research can be aimed at expanding the range of lightweight materials for building envelopes in order to ensure a safe human environment. This can be achieved by synthesizing multicomponent composite binders that affect the formation of nano-, micro- and macrostructures of materials.
Published: 2023
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2. Capabilities for Complex Forensic Study of Objects of Phaleristics

Author: G. G. Bocharov
Subjects: medals, orders, traceology, forensic examination, materials science, metal science, phaleristics, complex research, Social pathology. Social and public welfare. Criminology, HV1-9960
Abstract: The article addresses the methods used by traditional forensic examinations to study objects of phaleristics (orders and medals). The author justifies the necessity of a complex study of objects of phaleristics to ensure the completeness and validity of expert conclusions. Based on the examples from expert practice, the author also demonstrates the sequence of the actions of experts from different specialties in a complex investigation.Finally, the article provides the procedural characteristic of a comprehensive expert study.
Published: 2022
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3. Carburization-based optimization of AISI 8620 steel using rice husks and charcoal as carburizers

Author: Okwesileze I. A., Okafor O. C., Ekengwu I. E., and Uyaelumuo E. I.
Subjects: materials science, carburization, rice husks, charcoal, steel, optimization, Engineering (General). Civil engineering (General), TA1-2040
Abstract: This study was centered on improving the mechanical properties of AISI 8620 steel using the carburization technique. The failure in service conditions of many steel components such as cams, gears, and shafts necessitated the research as it demands that they possess both high wear-resistant surfaces and tough shock-resistant cores. Standard test samples prepared from the steel material were subjected to a pack carburization process using rice husk and charcoal as carburizers, and the energizer – calcium trioxocarbonate (IV) at temperatures of 800, 850, 900, and 950 °C, and held for 60, 90, and 120 minutes. The samples were quenched in water and tempered at 500°C for 60 minutes. After the pack hardening process, the test samples were subjected to tensile, impact, and hardness tests. From the data obtained, ultimate tensile strength (UTS), Hardness, Young’s Modulus, engineering strain, and impact strength were calculated. The case and core hardness of the carburized samples were noted, and an optical microscope was used to observe the microstructural features of the case-hardened, quenched, and tempered samples. The responses (mechanical properties of steel) were optimized using response surface methodology to obtain the optimum carburizing conditions-temperature and holding time. Results showed that the sample’s microhardness core and microhardness case increased from 253 to 327 HV and from 243 to 339 HV as the holding time increased from 60 to 120 minutes, indicating an appreciable increase in the mechanical property of the samples. The optimum carburizing conditions were at a temperature of 885 °C and a holding time of 120 minutes. Hence, the carburization of AISI 8620 steel using rice husk and charcoal as carburizers improved the steel material’s case, core, and mechanical properties.
Published: 2022
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4. ПОРІВНЯЛЬНА ОЦІНКА ПОШКОДЖУЮЧОЇ ДІЇ НАНОЧАСТИНОК НА ОСНОВІ ДІОКСИДУ ТИТАНУ НА СТАТЕВІ КЛІТИНИ КНУРІВ В ЕКСПЕРИМЕНТІ IN VITRO.

Author: Яворовський, О. П., Зазуляк, Т. С., Остапів, Д. Д., Рябовол, В. М., and Демецька, О. В.
Subjects: *TITANIUM dioxide nanoparticles, *SUCCINATE dehydrogenase, *GERM cells, *CYTOCHROME oxidase, *MATERIALS science
Abstract: Modern titanium dioxide nanomaterials, in particular modified with nanosilver, have antiviral, antibacterial, antifungal activity, cytotoxic effects in vitro experiments and can affect germ cells of warm-blooded laboratory animals. The research aims to study the effect of different types of titanium dioxide nanoparticles on the physiological and biochemical characteristics of wild boargerm cells in vitro. When applying the maximum dose (LD50) of the studied nanopowders in all samples, sperm survival was probably lower than in the control: by 41.9% (р<0.001) ‒ under the action of TiO2 nanoparticles (hereinafter NPs) (Frantsevich Institute for Problems of Materials Science of NAS of Ukraine, hereinafter IPM), by 28.0% (р<0.05) ‒ under the action of TiO2 NPs (Acros Organics), by 53.5% (р<0.001) ‒ under the action of 4% Ag-TiO2 NPs (IPM) and by 55.9% (р<0.001) ‒ are the action of NPs 8% Ag-TiO2 (IPM). Nanopowders of different based on titanium dioxide manufacturers, characterized by similar morphological characteristics and varying degrees of nanosilver addition (Ag content from 0 to 8%), starting from a dose of 1/10 LD50, can have a damaging effect on the germ cells of wild boars, which is manifested by a decrease in the respiratory activity of sperm and cytochrome oxidase activity, by increasing succinate dehydrogenase activity. The most sensitive marker was the sperm survival rate, the value of which significantly decreased under the action of 8% Ag-TiO2 nanoparticles (IPM) at a dose of 1/100 LD50, which is a consequence of disruption of the activity of mitochondrial enzymes and, accordingly, resynthesis of ATP. Our results confirm and extend the data on the nature of the damaging effect of titanium dioxide-based nanoparticles on germ cells of warm-blooded animals due to oxidative stress. The obtained experimental data will be taken into account in the hygienic regulation of the investigated nanopowders. [ABSTRACT FROM AUTHOR]
Published: 2022
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5. Современные инновации, системы и технологии

Subjects: technological innovation, information processing, optimization and simulation, materials science, engineering, control systems, Technology (General), T1-995
Published: 2022

6. Investigation on the Rheological Properties of Polydimethylsiloxane

Author: Javanbakht T.
Subjects: rheology, polymer, mechanical properties, materials science, industrial growth, Engineering (General). Civil engineering (General), TA1-2040
Abstract: This paper focuses on studying the rheological properties of polydimethylsiloxane (PDMS). This polymer has been used to fabricate membranes and filters in engineering. The analysis of the rheological properties of this polymer is required for a further investigation of its mechanical behavior. In this study, the rheological behavior of PDMS is reported at different temperatures. This polymer showed steady shear viscosity during a short duration. However, this behavior changed with time and increased more with increasing temperature. The impact of the temperature increase was also observed when the shear viscosity of PDMS increased with shear strain. The increase of torque with shear strain and time was observed at different temperatures. Shear stress increased linearly with the shear rate at 20 °C and 40 °C. As expected, the deformation of the polymer required less shear stress with the increase of temperature. However, the change of shear stress with the shear rate at 60 °C was not linear, and the slope of the curve increased more at high shear rates. The results of this investigation can provide the required information for a better fabrication of membranes and filters with this polymer.
Published: 2022
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7. Scientific school of plasma nanotechnologies and plasma power engineering in Mining University

Author: Popova, Anna Nikolaevna, Klimenkov, Boris D., and Grabovskiy, Artem Y.
Subjects: scientific discovery, scientific school, plasma physics, plasma nanotechnologies, materials science, electrical engineering, metallurgy, chemical physics, metrology, instrumentation, interdisciplinary interaction, Physics, QC1-999
Abstract: Abstract. The article is written for the 55th Anniversary of St. Petersburg Mining University Plasma School. Purpose. It is needed to highlight the history of teaching and research physical branches at the Mining University, as well as reflect plasma nanotechnologies and plasma power engineering current trends in the work of the scientific school. Methods. Search and systematization of bibliographic material, reflecting the role of well-known domestic and foreign science figures at the Plasma School, formed on the basis of the Mining University General and Technical Physics Department. Results. As a result of the bibliographic and historical material study, a connection between famous scientists of the XIX–XXI centuries (such as A. I. Sadovsky, B. P. Weinberg, V. F. Mitkevich, M. A. Chatelain, A. A. Petrovsky, N. S. Kurnakov, A. F. Ioffe, G. A. Mesyatz, F. G. Rutberg, V. E. Fortov, Eu. S. Polzik) with the SPMU General and Technical Physics Department activities was established. The history, the relevance and world significance of the scientific direction, which arose in 1965 simultaneously with the problem laboratory creation and continues to develop at the Mining University, is argued. Prominent specialists in the low-temperature plasma physics field stood at the origins of the plasma nanotechnology and power engineering scientific school, among whom the founder of the scientific school, D.Sc. Professor L. A. Sena. The scientific school head currently is the head of the SPMU General and Technical Physics Department, D.Sc. Professor A. S. Mustafaev. Information on the Plasma School development, its scientific contacts, breakthrough scientific discoveries, the latest tendencies in the plasma nanotechnologies and plasma power engineering field, new applied areas arising in solving fundamental problems is presented. Conclusion. For the first time, the historical roots, formation and development stages of the plasma nanotechnologies and plasma power engineering scientific school at the Mining University are presented to a wide range of readers. New interdisciplinary scientific directions that have arisen in the last two decades are highlighted.
Published: 2021
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8. Geonics (geomimetics) and search for optimal solutions in building materials science

Author: V. S. Lesovik, A. А. Sheremet, I. L. Chulkova, and A. E. Zhuravleva
Subjects: transdisciplinary research, cybernetics, geonics, geomimetics, architectural geonics, materials science, construction, composite materials, Transportation engineering, TA1001-1280
Abstract: Introduction. Methodological approaches and validation of the emergence of a new transdisciplinary area -geonics, which is considered as the art of applying knowledge of the inorganic world, are presented.Materials and methods. The concept of technogenic metasomatism as a stage in the evolution of building materials, characterized by the adaptation of the composite to changing conditions is formulated. The Law of affinity of structures, which consists in the selection of raw materials for a composite with similar physical and mechanical characteristics, is described.Results. The examples of non-traditional raw materials use in the areas of construction materials science (intelligent composites, restoration mixtures) and architecture (the building of the Belarusian Potash Company in Belarus, the 'Reflection of the mineral’ building in Japan, the design concept of the monument to the Kursk magnetic anomaly) are presented.Discussion and conclusions. It is proved that the development of a transdisciplinary approach to geonics will improve the comfort of human stay in the environment.
Published: 2021
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9. 纳米碳材料/热塑性树脂层间增韧热固性树脂基复合材料研究进展.

Author: 姚佳伟, 冯瑞瑄, 牛一凡, and 牛康民
Subjects: THERMOPLASTIC composites, MATERIALS science, CARBON fibers, NANOSTRUCTURED materials, FIBROUS composites, PROBLEM solving, THERMOPLASTICS
Abstract: Copyright of Acta Materiae Compositae Sinica is the property of Acta Materiea Compositae Sinica Editorial Department and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)
Published: 2022
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10. Ползуновский вестник

Subjects: metallurgy, food technology, materials science, chemical technology, Technology
Published: 2022

11. Металлофизика и новейшие технологии

Subjects: metal physics, materials science, metals and alloys, solids and compounds, metallic properties, Physics, QC1-999
Published: 2020

12. TOWARDS THE CONCEPT OF GLOBULAR PEARLITE

Author: A. G. Anisovich, M. K. Stepankova, and A. A. Andrushevich
Subjects: materials science, globular pearlite, ferrite-carbide-mixture, construction materials technology, Mining engineering. Metallurgy, TN1-997
Abstract: Explanatory imprecisions of concept of globular pearlite and ferrite-carbide-mixture are considered. The need of concept binding of globular pearlite to specific grain with 0.8% carbon content is explained with the assistance of exemplary data obtained at the present metallographic equipment. The question of educational material presentation concerning the process of teaching of discipline «Materials and construction materials technology» is discussed in relation to the educational process of technical universities, in particular, the Belarusian State Agrarian Technical University.
Published: 2017

13. MODERN EDUCATIONAL APPROACHES TO STUDYING OF MATERIALS SCIENCE

Author: A. A. Andrushevich and A. G. Anisovich
Subjects: materials science, education techniques, engineering, Mining engineering. Metallurgy, TN1-997
Abstract: Modern educational approaches to studying of discipline «Materials science and technologies of constructional materials» in educational activity of technical colleges during training engineers are considered.
Published: 2016

14. Конденсированные среды и межфазные границы

Subjects: heterostructures, electrochemical processes, interphases, nanoindustry, materials science, Chemistry, QD1-999
Published: 2019

15. Social Development & Security

Subjects: security, economy, technologies, finances, cybersecurity, materials science, Social insurance. Social security. Pension, HD7088-7252
Published: 2019

16. Study of the physical and biological properties of nanocomposite materials obtained with laser radiation

Author: U. E. Kurilova and A. Yu. Gerasimenko
Subjects: Medicine (General), Nanocomposite, Materials science, atomic force microscopy, Biocompatibility, carbon nanotubes, connective tissue defects, serum albumin, Carbon nanotube, Matrix (biology), scaffold, Microstructure, law.invention, R5-920, Tissue engineering, law, tissue engineering, fibroblasts, Monolayer, Ultimate tensile strength, laser structuring, Composite material
Abstract: The new method of the formation of nanocomposite materials based on carbon nanotubes for the regeneration of connective tissues has been developed.Aim. Study of the structure, mechanical characteristics and biocompatibility of the obtained materials.Materials and methods. The experimental samples of nanocomposite materials were based on multi-walled and singlewalled carbon nanotubes, the matrix was bovine serum albumin. A layer of liquid dispersion of the components on a silicon substrate or in a container was irradiated with laser radiation to form the solid nanocomposite material. The microstructure of the obtained samples was analyzed with X-ray microtomography, the tensile strength was investigated using a testing machine. Fibroblast cells were incubated with experimental samples for 3, 24, 48, and 72 h and then fixed with glutaraldehyde. Cell growth during incubation with samples was studied using optical and atomic force microscopy.Results. It was found that a slight decrease in tensile strength and increase in the degree of deformation were observed with an increase in the concentration of carbon nanotubes. At the same time, the mechanical parameters of the samples corresponded to the requirements for materials for the restoration of connective tissue defects. Microscopic studies indicate good adhesion of cells to the nanocomposite material, no toxic effect of the samples on the cells was found. After 3 hours of incubation, the cells had their original rounded shape, after 24 hours of incubation cells began to proliferate on the sample's surface and were spindle-shaped. After 48 and 72 hours, the cells practically formed a monolayer on the surface of the samples.Conclusion. The results of the study show that the structural and mechanical parameters of the developed nanocomposite materials meet the requirements of biomedicine. It was also shown that nanocomposite materials do not suppress cell growth and can serve as a scaffold for the regeneration of damaged tissues.
Published: 2021

17. Microfocus X-ray Tubes

Author: V. B. Bessonov
Subjects: Materials science, nondestructive testing, TK7800-8360, business.industry, X-ray, x-ray radiation, demountable tube, Optics, liquid anode, Electronics, business, soldered tube, x-ray tubes, microfocus radiography
Abstract: Introduction. X-ray inspection plays a unique role among all nondestructive testing methods for products and materials due to sufficiently high resolution and high penetrability. The present study is designed to consider the key features of microfocus X-ray sources, their areas of application, and main technical characteristics.Aim. The paper aims to systematize information and review modern X-ray radiation sources for the implementation of microfocus radiography.Materials and methods. The main designs of microfocus X-ray tubes (soldered and demountable) were considered relying on the experience of the St Petersburg State Electrotechnical University in developing and operating such equipment, as well as the experience and open-access publications of foreign researchers and developers. Data collected by leading research teams over the last ten years were analyzed.Results. The paper presents design features for each main type of microfocus X-ray tubes – soldered and demountable. All key structural elements are considered: an anode assembly, a cathode assembly, and a focusing system. The influence of anode target material on the X-ray tube radiation spectrum is shown. An original design of a liquid-anode microfocus X-ray tube is described to demonstrate its key features and advantages. In addition, the paper gives an overview of cathodes used in microfocus X-ray tubes (tungsten cathode and lanthanum hexaboride cathode), as well as providing a detailed description of calculations performed for focusing systems. Finally, the designs of modern X-ray tubes are presented.Conclusion. Modern X-ray tubes are high-tech products that allow for high-resolution research of various objects. The main advantage of testing performed with the use of X-ray tubes consists in high resolution (micron and submicron). The X-ray images of test objects used to determine their spatial resolution are given, which clearly illustrate the vast possibilities of this technology. In addition, ways to improve microfocus X-ray tubes are briefly discussed. The considered materials can be useful in selecting a nondestructive testing tool, as well as in developing and creating X-ray systems on the basis of microfocus X-ray tubes.
Published: 2021

18. Development of the Composition and Technology for Obtaining Paclitaxel Nanoscale Formulation Consisting of a Conjugate of Polymer Particles with a Protein Vector Molecule

Author: M. B. Sokol, N. G. Yabbarov, E. D. Nikolskaya, V. Yu. Balabanyan, M. V. Chirkina, and M. R. Mollaeva
Subjects: Materials science, Pharmaceutical Science, A protein, Composition (combinatorics), Polymer particle, chemistry.chemical_compound, paclitaxel, alpha-fetoprotein, Chemical engineering, Paclitaxel, chemistry, Drug Discovery, Molecule, Development (differential geometry), nanoparticles, plga, HD9665-9675, controlled release, Nanoscopic scale, Pharmaceutical industry, Conjugate
Abstract: Introduction. The use of the anticancer drug paclitaxel is limited due to its high toxicity and lipophilicity. A new polymer composition of paclitaxel has been proposed, which provides targeted transport of the drug into tumor cells and improves its safety.Aim. Method development for preparation of a novel paclitaxel formulation consisting of a conjugate of PLGA nanoparticles with the third domain of alpha-fetoprotein.Materials and methods. The object of this study is paclitaxel-loaded nanoparticles based on a copolymer of lactic and glycolic acids, the surface of which is modified with a vector molecule - the recombinant third domain of alpha-fetoprotein. Nanoparticles were obtained by single emulsification method and precipitation. Conjugation with a protein molecule was performed by the carbodiimide method. The analysis of the obtained nanoparticles was carried out using dynamic and electrophoretic light scattering, high performance liquid chromatography, dialysis membrane method.Results and discussion. Synthesis of paclitaxel-loaded nanoparticles based on a copolymer of lactic and glycolic acids and its conjugation optimization under varying a wide range of conditions have been carried out. The resulting conjugate had an average diameter of 280 ± 12 nm. The conjugation efficiency was 95 %. The release of paclitaxel from the polymer matrix in the release medium was 65 % in 220 h.Conclusions. A method of obtaining and substantiating the composition of the original nanosized form of paclitaxel is proposed. The possibility of prolonged release of paclitaxel from the polymer matrix has been shown.
Published: 2021

19. Electrochemical deposition of tin-copper alloy coatings

Author: D. Y. Gulpa, A. A. Khmyl, N. V. Dezhkunov, L. K. Kushner, and I. I. Kuzmar
Subjects: ultrasonic vibrations, Materials science, TK7800-8360, Metallurgy, chemistry.chemical_element, Electrochemistry, equipment and supplies, chemistry, tin-copper alloy, Copper alloy, Electronics, Tin, Deposition (chemistry), electrochemical coatings
Abstract: Solderable tin-base alloy coatings are widely used when assembling electronic products. The reorientation of production to lead-free technologies sets the task of developing new technological processes for the formation of coatings for electrical contacts with stable electrical properties, high soldering ability, which lasts for a long time. The features of the process of electrodeposition of coatings with a tin-copper alloy were experimentally investigated and the regularities of the influence of the electrolyte composition, current density, and ultrasound intensity on the cathode current efficiency of the alloy, the deposition rate, elemental composition, structure and functional properties of the precipitation were established. For sonochemical treatment an experimental setup developed at Research Laboratory 5.2 of BSUIR, which makes it possible to vary the intensity of ultrasonic vibrations in the range of 0.058– 1.7 W/cm2 , was used. It has been established that the use of ultrasound changes the formation mechanism of the electrochemical alloy, reduces cathodic polarization, increases the value of the limiting current and makes it possible to control the composition and structure of the precipitates. With an increase in the intensity from 0.12 to 0.95 W/cm2 the amount of copper in the coating increases by 4.5 times. The spreading coefficient of the solder is 92.59–98.44 %.
Published: 2021

20. Optimization of the parameters of truss beams with two posts

Author: A. K. Yusupov, H. M. Musеlеmov, and T. O. Ustarhanov
Subjects: truss beam, Technology, Materials science, algorithm, elastic-yielding support, business.industry, Truss, differential equations, optimal parameters, Structural engineering, bending moment, Physics::Accelerator Physics, business
Abstract: Based on the theoretical results obtained in the article [17], here the analysis of the influence of various design parameters on the own weight and cost of metal of truss beams with two posts is carried out. An optimal parameter has been obtained that makes it possible to reduce the calculated bending moment in the cross section of a truss beam with two struts.Method. By equalizing the bending moments in various design sections of the truss beam, the internal force factors are reduced. The corresponding equation for optimizing the parameters of the beam has been drawn up and a formula has been obtained to determine the optimal parameter of the structure as a whole.Result. Using the example of numerical calculations, a decrease in the calculated bending moment by 14% compared to truss beams without optimization is shown.Conclusion. The proposed method and algorithm testify to the efficiency and rationality of the obtained optimal parameter of the structure as a whole.
Published: 2021

21. Investigation of the Physical and Chemical Characteristics of the Zeolites of the Kholinsky Deposit

Author: K. K. Razmakhnin, N. B. Demina, E. T. Zhilyakova, and A. V. Bondarev
Subjects: Clinoptilolite, Materials science, clinoptilolite, Pharmaceutical Science, Sorption, sorbent, Molecular sieve, Adsorption, Chemical engineering, Specific surface area, Drug Discovery, medicinal mineral raw materials, zeolite, molecular model, HD9665-9675, Mesoporous material, Zeolite, Porosity, Pharmaceutical industry
Abstract: Introduction. The mineral resource base of Russia has effective sorption substances that meet pharmaceutical requirements. Promising mineral raw materials are Zeolites, which combine the properties of an adsorbent and a "molecular sieve" due to the porous structure. In addition to the enterosorption direction, natural Zeolites are a source of macro-and microelements, which determines their use as biologically active food additives.Aim. Study of the physical and chemical characteristics of the Zeolites of the Kholinsky deposit.Materials and methods. The zeolite mineral raw materials of the Kholinsky deposit were used as objects of research. Optical microscopy was performed using a Leica DM direct microscope (Microsystems, Germany). Energy dispersion analysis was performed using an electron scanning microscope JSM-5300 (Jeol Ltd, Japan). The sorption characteristics were studied using the ASAP 2400 device (Micromeritics, USA) according to the method. The construction of a virtual three-dimensional molecular model of the Zeolite was carried out using the program Java Applet Jmol.Results and discussion. The physicochemical properties of Zeolites are investigated. It is established that morphologically the particles of the zeolite phase have a size of 5-30 microns, they are evenly distributed over the entire area of the site and represent the first structural level. Particles of the zeolite phase with a size of 5-6 microns form the second structural level due to Clinoptilolite crystals, microcracks and microgeodes. Based on the energy-dispersion spectral analysis, an increased content of the elements K, Na was revealed, which indicates the alkaline composition of the cation exchange complex. The studied Zeolite samples have micropores (volume 0.0031 cm3/g), mesopores (volume 0.0675 cm3/g), and a specific surface area of 29.1840 m2/g. A virtual three-dimensional molecular model of the Zeolite of the Kholinsky deposit has been developed. According to the molecular model, the sorption characteristics of the Kholinsky deposit Zeolite were: specific surface area - 1096.31 m2/g (1916.34 m2/cm3), the average diameter of the spherical molecule for adsorption in the pores is 5.97 A.Conclusion. The analysis of the sorption characteristics of the Zeolite revealed the following features: the pores occupy half the volume of the entire Zeolite, which are available for the sorption of water and low-molecular substances. Each pore in three mutually perpendicular directions communicates with the neighboring ones through "windows". A system of intracrystalline pores and cavities is formed, in which the occlusion and adsorption of molecules of the appropriate size easily occurs.
Published: 2021

22. Possibilities of medical relaxation of the internal anal sphincter for anal fissures

Author: E. M. Bogdanova, N. R. Torchua, M. A. Markina, and M. V. Abritsova
Subjects: Materials science, Nuclear magnetic resonance, RD1-811, anal fissure, diltiazem, Relaxation (physics), Surgery, botulinum toxin, relifipine, internal sphincter spasms sphincterotomy, nitroglycerin, nifidipine, Internal anal sphincter
Abstract: An anal fissure is a longitudinal tear defect in the skin of the anal canal distal to the dentate line. Anal fissure is a socially significant disease that worsens the quality of life of patients. The spasm of the internal sphincter is a guiding pathogenetic mechanism in the development of chronic anal fissures. It leads to circulatory disorder in the anoderm and non-healing wounds. Treatment of chronic anal fissure, as a rule, is based on a decrease in the tone of the internal anal sphincter and in the modern arsenal of coloproctologists there are both surgical and pharmacological ways to eliminate spasm. Lateral internal sphincterotomy is still the gold standard for the definitive treatment of anal fissure, but anal incontinence is a serious complication of the procedure. This article presents an overview of the available modern means for drug relaxation of the internal anal sphincter and the authors' experience in using the first fixed-dose combination of 0.3% nifedipine and 2.0% lidocaine topical gel authorized for use in Russia in patients with the chief complaint of pain during and after a bowel movement that requires the use of analgesics. A spontaneous wave activity in the resting phase, which indicated the presence of anal sphincter spasm, was recorded in all patients. According to our observation, the complete healing of the anal fissure and the anal sphincter relaxation was instrumentally confirmed in 70% of patients.
Published: 2021

23. Treatment of Nevus Spilus with dual-wavelength copper vapor laser

Author: L. D. Shakina, Sergey B. Topchiy, Yury N. Andrusenko, and Igor V. Ponomarev
Subjects: Copper vapor laser, nevus spilus, Materials science, laser surgery, business.industry, pigmented, copper vapor laser, Dermatology, Infectious Diseases, RL1-803, medicine, Optoelectronics, Dual wavelength, medicine.symptom, business, Nevus spilus, nevus
Abstract: Introduction. Speckled lentiginous nevus or Nevus Spilus (NS) is a congenital or acquired melanocytic nevus. NS appears as dark hyperpigmented macules or papules interspersed in the lentigo-like hyperpigmentation patch. Surgical methods for removing NS, primarily on the skin with a thin dermis, are associated with the risk of disruption of its structure or scarring. The use of single wavelength laser irradiation allowed achieving pronounced bleaching of the NS area with such side effects as scars, post-inflammatory hyperpigmentation, and relapses in some cases. Side effects could occur due to the lack of complete blood flow in the microvascular bed near the NS. The study aimed to evaluate the efficacy of NS treatment with a dual-wavelength copper vapor laser (CVL). Description of patients and the method of the treatment. Two fair-skinned adult female patients with NS, of medium size and different location, asked to restore the natural colour of the skin in order to get rid of cosmetic defects. NS treatment was carried out using CVL (Yakhroma-Med model, P.N.Lebedev Physical Institute of the Russian Academy of Sciences) during six procedures, an interval of 46weeks. For treatment, we used two-wavelength CVL radiation with average power in the range of 0.60.8W with a power ratio of 3:2 at wavelengths of 511 nm and 578 nm; exposure time: 0.20.3 s. The diameter of the light spot on the skin accounted for 1 mm. Both patients were satisfied with the result of the treatment due to the noticeable blanching of the pigmented skin area after the NS removal. During the following two years, no dark spots or scarring was observed at the NS removal site. Conclusion. Treatment of medium-sized NS using two-wavelength CVL radiation made it possible toeliminate the cosmetic defect without side effects.
Published: 2021

24. Optimization of Coating Process from Cermet Powders by Plasma Spraying in Air

Author: V. A. Okovity, F. I. Panteleenko, V. V. Okovity, and V. M. Astashinsky
Subjects: metal ceramics, Technology, Materials science, gas-thermally sprayed composite coatings, Metallurgy, Composite number, plasma spraying, solid inclusions, Sintering, powder materials, General Medicine, Cermet, Plasma, Tribology, wear resistance, structural elements, Phase (matter), visual_art, morphology, visual_art.visual_art_medium, Ceramic, tribological conjugation wear processes, Hardening (computing)
Abstract: The paper presents studies on the optimization of the process of applying coatings from cermet powders with different solid phase contents by plasma spraying in air to restore and harden parts of machines and mechanisms operating under adverse conditions. Such conditions are usually created in heavily loaded tribojoints when the mechanisms operate at a low speed of relative movement of surfaces during friction. At the same time, the destruction of the working surfaces is mainly due to the process of microcontact setting and subsequent detachment of the formed particles at their contact points. The application of special protective coatings with the required properties is possible with the manufacture of high-quality starting powder materials and optimization of the technology for their application. Such powders and powder compositions can be obtained by the method of agglomeration of a fine powder mixture with its subsequent high-temperature sintering. To identify the hardening mechanism of composite coatings made of cermet by gas-thermal spraying, important stages are the optimization of the deposition process parameters and the study of the properties of plasma coatings obtained in this case. When optimizing the technological parameters of plasma spraying of coatings, the utilization rate of the sprayed powder material has been taken into account as the main indicator of the process efficiency, the structure of the obtained layers, and the morphology of individual particles deposited on the polished surface. The paper provides data on the structural elements of sprayed materials for wear-resistant coatings obtained by plasma spraying at optimal conditions. Taking into account the processes that occur during the wear of tribological conjugations, the data indicate the existing prerequisites for the wear resistance of the studied composite coatings made of metal ceramics. Special wear-resistant coatings made of materials with a soft matrix hardened by solid inclusions Al2O3–TiO2–Ni–Cr–Al–Y are widely used in various industries. Based on the detailed analysis of the features of cermet plasma coatings, it can be stated that such powder compositions (complex oxides-metal component) are often used as wear-resistant plasma coatings. The research results can be taken into account in cases of application of wear-resistant plasma coatings made of metal-ceramics and compositions based on them, containing solid phases in the form of oxides, as well as the manufacture of a whole range of parts operating under conditions of intense wear.
Published: 2021

25. Simulation of forward current-voltage characteristics for Schottky diodes with MOS trenches

Author: J. A. Solovjov
Subjects: trench mos structure, Materials science, Equivalent series resistance, Silicon, schottky diode, TK7800-8360, business.industry, Oxide, chemistry.chemical_element, Schottky diode, Electron, current voltage characteristic, simulation, chemistry.chemical_compound, Semiconductor, chemistry, Trench, Optoelectronics, Electronics, business, Voltage
Abstract: Present work is devoted to the development of a mathematical model for the forward current-voltage characteristic of Schottky diodes with a metal – oxide – semiconductor (MOS) trench structure, which takes into account the accumulation of the main carriers in silicon near the walls of the trenches at a forward bias. The proposed model considers the decrease of the series resistance of the Schottky diode drift region with an increase in the voltage at the rectifying contact due to the enrichment of silicon with electrons near the walls of the trenches. The proposed model is compared with the experimental results for Schottky diodes with a metal – oxide – semiconductor trench structure with a nominal reverse voltage of 45.0 V and a nominal forward current of 50.0 A. It is shown that the error in calculating the direct voltage value for the new model does not exceed 1.2 % in the range of direct currents from 20.0 to 50.0 A, which is 4.6–9.7 times less than the calculation error for the classical model. The results obtained can be used to develop the structure and geometry of Schottky diodes with a metal – oxide – semiconductor trench structure with required electrical parameters.
Published: 2021

26. Оценка офтальмотоксического воздействия квантовых точек и биоконъюгатов на их основе в аспекте перспектив лечения резистентных эндофтальмитов. Экспериментальное исследование (1-й этап)

Author: Ponomarev, V. O., Kazaykin, V. N., Lizunov, A. V., Vokhmintsev, A. S., Vainshtein, I. A., and Dezhurov, S. V.
Subjects: Materials science, EYE TOXICITY, quantum dots, QUANTUM DOTS, ANIMAL MODEL, SYNTHESIS, SURFACE PROPERTY, toxicogology, Vitreous cavity, BIOCONJUGATES, QUANTUM DOT, Endophthalmitis, Animal model, COMPUTER ASSISTED TOMOGRAPHY, intravitreal injections, medicine, CEFTAZIDIME, ANTIBIOTIC RESISTANCE, NONHUMAN, ARTICLE, Electronic properties, Alternative methods, VITREOUS BODY, INTRAVITREAL INJECTIONS, CRYSTAL, HUMAN, RE1-994, medicine.disease, TOXICOGOLOGY, VANCOMYCIN, bioconjugates, Ophthalmology, endophthalmitis, Quantum dot, ELECTRORETINOGRAPHY, VOLUME, Colloidal quantum dots, ENDOPHTHALMITIS, electroretinography, Biomedical engineering, TITRIMETRY
Abstract: Endophthalmitis remains one of the most formidable complications of surgery in ophthalmology, leading to significant functional and anatomical changes. The "gold" standard of treatment for this pathology is the installation of intravenous injections of antibacterial drugs, but taking into account the number and type of pathogens, the growth of antibiotic resistance, the search for alternative methods of treatment of endophthalmitis remains relevant. Colloidal quantum dots, which are nanoscale semiconductor crystals with simulated optical and electronic properties due to changes in their volume, composition, and surface connections, are of interest for research in this direction. This article presents the process of synthesis of CT and bioconjugates based on them in order to assess ophthalmotoxicity with the prospect of further use in the treatment of endophthalmitis. The study was divided into 4 stages, starting with the determination of the required technical specification in order to select the appropriate type of quantum dots taking into account the physical and chemical characteristics (Stage 1), the synthesis of quantum dots (Stage 2), the preparation and titration of a solution of quantum dots of various concentrations for implantation in the vitreous cavity (Stage 3). The final stage was to evaluate the toxic effect of the quantum dot solution in its pure form, as well as in combination with antibiotics (ceftazidime and vancomycin) when administered intravitreally on an animal model. As a result of the study, quantum dots were synthesized and a solution based on them was obtained for introduction into the vitreous cavity. Based on the testing of the animal model (rabbits), a safe dose of the solution was determined, as well as the possibility of its use in combination with antibiotics. © 2021 Ophthalmology Publishing Group. All rights reserved.
Published: 2021

27. Optimized technology of YAG-laser vitreolysis of occurrence of the vitreous body

Author: S.V. Balalin, V.P. Fokin, Y.Y. Khzardzhan, and A.S. Balalin
Subjects: vitreous body opacities, Materials science, genetic structures, business.industry, RE1-994, Laser, eye diseases, law.invention, Ophthalmology, Optics, law, sense organs, efficiency of yag-laser vitreolysis, photo-optical method, business
Abstract: Introduction. Vitreous opacities are quite common, occurring in 76% of cases and significantly reducing quality of life in 33% of them. YAG-laser vitreolysis is considered as an alternative treatment option for patients with floating vitreous opacities. Purpose. To develop an optimized YAG-laser vitreolysis technology based on the assessment of the acoustic density of the vitreous opacities. Material and methods. The results of YAG-laser vitreolysis of vitreous opacities in 318 patients (318 eyes) were analyzed. A photo-optical method has been developed for visualizing opacities of the vitreous body, registering the area of opacities and the dimming intensity index. A method has been developed for the personalized selection of laser energy taking into account the acoustic density of the vitreous opacities. Results. After performing multi-stage laser treatment, a significant decrease in the area of opacities and the dimming intensity index, an increase in the threshold of retinal photosensitivity according to microperimetry data and a decrease in the acoustic density of opacities were noted. Conclusions. Application of optimized YAG-laser vitreolysis technology for vitreous opacities allows to achieve the best values of clinical and functional parameters (p
Published: 2021

28. Сomposition, structure and functional properties of silver-tungsten composition electrochemistry coatings formed with the help of ultrasound

Author: N. V. Bogush, A. A. Khmyl, L. K. Kushner, and N. V. Dezhkunov
Subjects: ultrasonic vibrations, Thin layers, Materials science, corrosion resistance, contact electrical resistance, TK7800-8360, Composite number, chemistry.chemical_element, Electrolyte, Tungsten, wear resistance, Corrosion, chemistry.chemical_compound, chemistry, Plating, microhardness, Sodium tungstate, silver, Composite material, Electronics, Electroplating
Abstract: Influence of electrolyte composition and deposition parameters on the composition, structure, physicalmechanical and functional properties of composite silver-tungsten coatings was studied. It was shown that addition of sodium tungstate in electrolyte and application of ultrasound at the electroplating leads to formation of silver layers that contains tungsten oxides and demonstrates lower crystalline nucleus. Application of ultrasound vibration at the electrochemical deposition increases ability for plating process control and allows to optimize electrophysical and functional properties of composite electrochemical coatings, to make dense fine crystalline thin layers. Obtained layers demonstrate increased microhardness (by 10–50 %), wear resistance (1,5–2 times), corrosion resistance and improved contact electrical resistance. It is shown that application of ultrasound effect to electrodeposition allows increased level of permissible current density and provides.
Published: 2021

29. Evaporation of a liquid sessile droplet subjected to forced convection

Author: A. Е. Korenchenko and A. A. Zhukova
Subjects: Convection, Materials science, Buoyancy, Marangoni effect, Information theory, Drop (liquid), diffusion, Evaporation, mathematical modeling, Mechanics, engineering.material, Forced convection, evaporation, Surface tension, Physics::Fluid Dynamics, sessile droplet, engineering, General Earth and Planetary Sciences, Diffusion (business), Q350-390, Physics::Atmospheric and Oceanic Physics, forced convection, General Environmental Science
Abstract: Experiments on measuring the rate of evaporation of liquid sessile droplets into air show that the rate of evaporation increases in the presence of forced convection flows. However, data on the effect of convection on evaporation are often contradictory and should be clarified. The paper presents a numerical analysis of evaporation from the surface of a water droplet subjected to forced convection in the gas phase. The drop is located on a smooth horizontal isothermal substrate; the mode with constant contact angle is considered. The shape of the drop has axial symmetry, the same for the velocities and pressure. Forced convection compatible with the symmetry conditions are represented by flows directed downward along the axis of the system and diverging along the sides near the drop and the substrate. The mathematical model is constructed for evaporation controlled by diffusion in the gas phase and takes into account surface tension, gravity, and viscosity in both media, buoyancy and Marangoni convection. The results indicate the existence of the mutual influence of liquid and gaseous media. Thus, a drop vibrates under the influence of movements in the atmosphere, which generates a density wave in the gas: the drop «sounds». The magnitude of the velocity in a liquid is 50 times less than the characteristic velocity in air. It is found that the evaporation rate does not change in the presence of forced convection flows, which contradicts most of the experimental works. The reason for the discrepancies is supposed to be the appearance of nonequilibrium conditions at the boundary of the condensed phase: under these conditions, the evaporation regime ceases to be diffusional.
Published: 2021

30. Comparative Evaluation of effect of resin protective coatings on the surface hardness and shear punch strength of different GlCs - An InVitro Study

Author: M. Agarwal, M. P. Singh, N. Mishra, S. S. Thakur, K. Magwa, and A. Khullar
Subjects: Shear (sheet metal), Materials science, aesthetic, restorative material, Dentistry, surface hardness, RK1-715, shear strength, Composite material, Hardness, gic, Comparative evaluation
Abstract: G-Coat Plus is a nano-filled, self-adhesive light cured protective coating that strengthens, protects and enhances glass ionomer restorations. The effect of G- Coat plus on different GICs have not been studied comprehensively. Hence the study was conducted to compare the effect of resin coating on surface hardness and Shear punch strength of newer modified GIC.Materials and methods: 120 samples of three GICs i.e. Fuji IX Extra, Fuji IX Fast, Fuji II LC were prepared using specialized metal moulds. Specimens of Fuji II LC were light cured for 20 seconds. Coated and uncoated samples were tested for surface hardness and 30 samples were tested for shear punch strength. P < 0.05 was considered as significant. Results: Shear Punch Strength after G-Coat plus coating was significantly higher for Fuji IX Extra followed by Fuji II LC. Surface Hardness after G- Coat plus coating was significantly higher for Fuji IX Extra followed by Fuji IX Fast and Fuji II LC.Conclusion: Surface coating by a resin agent significantly increases the surface hardness and shear strength of the GIC. Considering the above stated findings, they can be incorporated into daily clinical practice to enhance the strength and longevity of GIC.
Published: 2021

31. Оptimization of the chrome plating bath operation during the restoration of vehicle parts

Author: A. N. Kotomchin
Subjects: inorganic chemicals, cathode, Materials science, anode, TA1001-1280, Chrome plating, chrome plating, amount of electricity, Metallurgy, stability, scattering capacity, trivalent chromium, Transportation engineering, visual_art, visual_art.visual_art_medium, otorhinolaryngologic diseases, durability
Abstract: Introduction. In the process of chrome plating of car parts, there is a change in the composition of the chrome plating bath, which affects the stability of the ongoing processes – the performance and quality of the chrome coating. Therefore, it is necessary to constantly monitor the chrome plating bath for the presence of foreign elements that can be formed during the operation of the bath during the reaction of the solution with the anode or cathode.Materials and methods. During the research, the necessary equipment was used, which made it possible to determine with sufficient accuracy the content of trivalent chromium and its effect on the electrolysis process – the performance and quality of chrome coatings. A well-known technique was used to determine the quality and performance.Results. When conducting studies of the obtained cold self-regulating chromium plating electrolyte, it was found that trivalent chromium has a significant effect on the stability of the chromium plating bath. The content of which can vary within 2...25 g/l during operation. As a result, it was found that the optimal amount of trivalent chromium is its content in the chromium plating bath from 2 to 15 g/l. With a lower or higher content, the electrolysis performance and the quality of the chrome coating decrease. It was also found that in order to maintain the optimal amount of trivalent chromium and increase the time for stable operation of the chromium bath, it is necessary to observe the ratio of the area of the anode and cathode (the coated surface of the part), the value of which is within 3...4.Discussion and conclusion. As a result of the conducted research, it will make it possible, under certain conditions, to carry out the process of chromium deposition from a cold self-regulating electrolyte, which will allow for stable chromium deposition at high productivity and the necessary quality of the coatings obtained. The main condition is to control and maintain the amount of trivalent chromium in the chromium plating electrolyte in the bath.
Published: 2021

32. Reconstruction of the hardware design for isopropylbenzene production for the production of ethylbenzene

Author: S. V. Popov, N. Y. Krymkin, O. V. Khabibrakhmanov, and E. N. Papulovskikh
Subjects: Fractional distillation, Materials science, business.industry, Geography, Planning and Development, Management, Monitoring, Policy and Law, TP368-456, Column (database), Ethylbenzene, Food processing and manufacture, law.invention, chemistry.chemical_compound, chemistry, law, Fractionating column, Scientific method, Non-random two-liquid model, isopropylbenzene, ethylbenzene, alkylation reaction mass, distillation column, honeywell unisim design, Process engineering, business, Benzene, Distillation
Abstract: The hardware design of the rectification unit for the production of isopropylbenzene in the presence of the AlCl3 catalyst is considered, the use of which has a number of problems associated with its corrosiveness, rapid deactivation, the complexity of regeneration, etc. One of the possible solutions to the listed technological disadvantages is the use of heterogeneous zeolite-containing catalysts. In this case, during the reconstruction of the existing production of isopropylbenzene in the technological scheme of separation of alkylate, three rectification columns are released, which are expediently used to separate the alkylate of ethylbenzene production. To study the possibility of using the discharging distillation columns, a computational experiment was carried out using the Honeywell UniSim Design modeling system, in which a model of the alkylate separation unit for ethylbenzene production was formed. The NRTL method was used as a mathematical package for calculating the thermodynamic properties of the mixture components. As a result of modeling the operation of the alkylate separation unit for each distillation column, the optimal operating process parameters were obtained: pressure of the top and bottom of the column, reflux ratio, temperature profile along the height of the column. The calculated material balance of the technological scheme shows that in the first distillation column, complete separation of benzene from the alkylation reaction mass is achieved, the second column ensures the production of commercial ethylbenzene, and in the third column, a fairly clear separation of diethylbenzene from the remaining components of the mixture is obtained. The performed computational experiment showed that for the organization of the stable operation of the technological scheme for the separation of alkylate in the production of ethylbenzene, it is possible to use all the considered distillation columns without changing their design parameters at a load on the reaction mass of alkylation of about 60 t / h.
Published: 2021

33. On the equilibrium and stability of a fluidized bed as a thermodynamic system

Author: S. A. Tolstov, Y. I. Shishatskii, A. A. Derkanosova, and A. A. Ryndin
Subjects: Exothermic reaction, Materials science, Thermodynamic equilibrium, Geography, Planning and Development, Flow (psychology), Non-equilibrium thermodynamics, Mechanics, Management, Monitoring, Policy and Law, fluidized bed, research, results, equilibrium, stability, TP368-456, Food processing and manufacture, Flow velocity, Fluidized bed, Free surface, Fluidization
Abstract: The transfer of the dispersed layer into a fluidized state makes it possible to intensify the drying process. The small size of the particles leads to an increase in the surface of their contact with the coolant at a relatively low hydrodynamic resistance. Other positive qualities of fluidization are listed, which is very important when carrying out exothermic processes. We studied the behavior of the fluidized bed during the drying process. The curve of fluidization of beet chips is shown. The suspended state of the material began when the forces of the hydrodynamic layer were equal to the weight of all its particles per unit area of the cross-section of the working chamber. The region of existence of the fluidized bed is marked. In this area, the flow was relatively equilibrium (fluidized). On the surface of the layer, small waves were observed with different frequencies and amplitudes of oscillations, as well as with spontaneous fluctuations. This mode of operation was achieved as a result of the study of the structures of the support - gas distribution grid and the drying chamber. The flow velocity profile in the working chamber is investigated. An efficient equalization of velocities with the help of flat stamped grids has been established. The results were confirmed by the spectra of the flow in the drying chamber. Oscillations on the free surface of a fluidized bed are considered. The Euler equation was written, which made it possible, as a result of various transformations, to obtain a formula for calculating the oscillation frequency of the fluidized bed. The studies carried out made it possible to establish the regimes of pseudo-fluidization, to a certain extent minimizing the heterogeneity of the layer, which is of significant practical importance. However, the operating parameters need to be adjusted depending on the type of material to be dried and other indicators. The research results do not obscure the general provisions of nonequilibrium thermodynamics. The fluidized bed cannot be in an equilibrium state, since the transfer of substances is obvious: energy, mass and momentum. It is correct to regard the fluidized bed as unstable. Small and spontaneous fluctuations always exist in the layer. The absence of conditions for their decay becomes a condition for the instability of the process.
Published: 2021

34. Use of a 4-circle goniometer for neutron and X-ray diffractometer in the study of single crystals

Author: V. A. Sarin
Subjects: Diffraction, Materials science, business.industry, the coordinates of atoms, Detector, Neutron diffraction, thermal vibrations, standard samples, Diamond, engineering.material, Neutron radiation, crystal lattice parameters, Chemistry, Optics, neutron diffraction, Goniometer, engineering, Neutron, install neutron diffraction, business, QD1-999, Diffractometer, a goniometer
Abstract: Objectives. This study described the 4-circle goniometer Syntex P1N and its possible applications in X-ray and neutron structure analysis of single crystals.Methods. The 4-circle goniometer Syntex P1N, due to its high-precision mechanical characteristics and individual components from domestic equipment (sets of DRON type X-ray diffractometers), formed the basis for developing an instrument complex for X-ray and neutron-structure studies.Results. The neutron diffractometer was upgraded based on the Syntex P1N goniometer. Therefore, the 10BF3-based end neutron counter, included in the diffractometer kit, was replaced by the 3He-based domestic side counter, SNM-16. Such a significant reduction in the linear dimensions of the detector allowed us to expand the range of measured angles of 2θ from 90° to 140° and increase the accuracy of the measured interplanar distances accordingly. The goniometer was adjusted relative to the primary neutron beam by placing it on a specially designed plate. Highly accurate measured parameters of the unit cell and the intensity of the reflexes were achieved by optimizing the installation geometry and the protection of the goniometer and detector. Based on the Syntex P1N goniometer, an instrument complex for X-ray diffraction studies has also been developed. Both the developed X-ray and the upgraded neutronography facilities were used to perform experiments to measure the unit cell parameters, the coordinates of atoms, and the parameters of their thermal vibrations on several crystals of domestic synthetic samples: diamond C, silicon Si, halite, or rock salt NaCl, and corundum α-Al2O3. An excellent correlation was achieved by comparing the data obtained with the corresponding chemical crystals’ parameters and reference samples recommended by the International Union of Crystallographers.Conclusions. This paper described a neutron installation and a Syntex P1N neutron diffractometer for the study of single crystals. Based on the latter, an instrument complex for X-ray diffraction studies has also been developed. Experiments on standard samples have shown a high level of accuracy in measuring the lattice parameters, the coordinates of atoms, and the parameters of their thermal vibrations on both the X-ray and neutron diffractometers.
Published: 2021

35. Application of a computational and experimental method of analysis the complexly stressed state of rubber membranes for effective solutions for their production

Author: D. V. Kudelin and T. N. Nesiolovskaya
Subjects: Materials science, rubber membrane, analysis method, heterogeneous complex stress state, indentation, Geography, Planning and Development, Uniaxial tension, Method of analysis, Management, Monitoring, Policy and Law, TP368-456, Durability, Finite element method, Food processing and manufacture, body regions, Membrane, Natural rubber, visual_art, visual_art.visual_art_medium, Stressed state, Standard test, Composite material
Abstract: The competitiveness of rubber membranes determined by their durability, quality, reliability, including the time required to create. During operation, the membranes undergo complex deformations, as a result of which a large number of potential destruction zones of a different nature arise, which can lead to the failure of the product. The standard test methods used in the development of formulations for membranes involve testing the material under uniaxial tension conditions in most cases and do not take into account the actual loading conditions of the product during operation, which significantly increases the development time of new formulations for membranes. The paper presents and applies in practice a computational and experimental method of analysis the complexly stressed state of rubber membranes, including carrying out simple laboratory tests in a heterogeneous complexly stressed state, which is realized during the operation of rubber membranes, and analyzing the stress-strain state by the finite element method. An inhomogeneous complexly stressed state was realized by forcing the rubber membrane with a spherical indenter. The application of a computational-experimental method for analyzing the complexly stressed state of rubber membranes is considered on the example of a rubber corrugated membrane of an automatic valve of a bag filter purge system. An assessment of the physical and mechanical properties of rubbers in a heterogeneous complexly stressed state was carried out, as well as an analysis of the stress-strain state of the membrane when it was loaded with a spherical indenter, which made it possible to identify the most dangerous zones of the section. The complex use of this method made it possible to improve the resource of this corrugated membrane by thirty five percent in comparison with the standard, while reducing the creation time.
Published: 2021

36. Effect of the Dewaxol 7801 depressant-dispersant additive on summer diesel fuel

Author: E. L. Iovleva
Subjects: chemistry.chemical_classification, Materials science, medicine.drug_class, Winter diesel fuel, Geography, Planning and Development, Ethylene-vinyl acetate, Fuel pump, Management, Monitoring, Policy and Law, TP368-456, Dispersant, Food processing and manufacture, Diesel fuel, chemistry.chemical_compound, Hydrocarbon, Volume (thermodynamics), chemistry, Chemical engineering, medicine, Depressant, depressant-dispersant additive, diesel fuel, low-temperature properties, limiting temperature, filterability
Abstract: Obtaining winter diesel fuel is an expensive and complex process, in which paraffinic hydrocarbons are removed from the fuel. Today, the consumption of winter diesel fuel in Russia has reached its maximum, and the volume produced is not enough to meet the needs of the Russian market. Therefore, obtaining winter diesel fuel from summer grades, by adding a depressant additive, remains relevant. The most common depressants are ethylene vinyl acetate copolymers. The effectiveness of depressant-dispersant additives depends on the fractional and group hydrocarbon composition of diesel fuel. Also, the physicochemical characteristics of the paraffins contained in the fuel play an important roleDuring long-term storage of fuel, depressants do not prevent fuel stratification. Therefore, together with a depressant additive, a paraffin dispersant is used, the composition of such additives includes mainly amides and imides of mono- and dicarboxylic acids. Dewaxol 7801 depressant and dispersant additive is a specially selected composition based on surfactants and copolymers in a hydrocarbon solvent. The use of this additive makes it possible to improve the low-temperature performance of diesel fuel without affecting other properties. From the low-temperature properties of diesel fuel, we have chosen the limiting filterability temperature, since it is this temperature that characterizes the real working conditions. When the maximum filterability temperature is reached, the n-paraffin crystals reach sizes exceeding the pore diameters of the filters, the fuel is not pumped through the fine filters of the high-pressure fuel pump, and the fluidity of the fuel deteriorates. The article shows the effect of Dewaxol 7801, a depressant-dispersant additive, on summer diesel fuel, in various concentrations and when the fuel is heated from 40 to 60 degrees in steps of 10 degrees.
Published: 2021

37. Stress-strain state of a combined toroidal baromembrane apparatus

Author: S. I. Lazarev, О. V. Lomakina, V. Е. Bulanov, and I. V. Khorokhorina
Subjects: Optimal design, toroidal plates, Toroid, Materials science, strength characteristics, 020209 energy, Method engineering, Mechanical impact, Shell (structure), Process (computing), Mechanical engineering, Rigidity (psychology), 02 engineering and technology, General Medicine, 010502 geochemistry & geophysics, 01 natural sciences, design scheme, Development (topology), 0202 electrical engineering, electronic engineering, information engineering, TA401-492, stress-strain state, membrane apparatus, Materials of engineering and construction. Mechanics of materials, 0105 earth and related environmental sciences
Abstract: Introduction. Currently, the purification of wastewater and technological solutions by membrane methods is considered a promising way to neutralize liquid waste. Therefore, the task of developing an engineering method for calculating baromembrane devices is a challenge. Studies on methods involving calculation of design and process variables, membrane equipment design, research of technological features of membrane devices, selection of design schemes, as well as methods of strength and rigidity analysis, are investigated. Materials and Methods. Basic elements of the body of the combined membrane apparatus are considered, a design scheme is proposed, and a method for calculating the strength and rigidity of the main load-bearing element, the cover, is described. Results. The methods determine the required dimensions of shells and plates for the development of a combined membrane apparatus, and evaluate the strength properties of the devices of this class. The construction elements of the apparatus (primarily, the load-bearing covers) must meet not only the requirements of efficiency and quality of separation and cleaning of solutions, but also the conditions for safe operation. Therefore, the design of the device covers should be based on the optimal design dimensions (thicknesses of round plates, toroidal shells, and support rings). To test the method, the stress-strain state of the membrane apparatus structure was calculated for strength and rigidity. As an example, we consider one cover presented in the form of an open toroidal shell. The evaluation of the application of this technique, taking into account the fact that the shell is mated with a round plate in the inner diameter, and with a ring in the outer diameter, has provided the determination of the required parameters. Discussion and Conclusions. The obtained method of analytical description of the mechanical impact on the elements of the combined apparatus and the example of calculating the toroidal shell and plate, enables to evaluate the stressstrain state of the structure for strength and rigidity. The results of the calculation of covers made of various materials at different pressures are presented. Loading the combined apparatus with transmembrane pressure made it possible to determine the required dimensions of the shells and plates for its design and development.
Published: 2021

38. Classification of energy impacts by their effect on the structure and properties of reinforced reactoplasts

Author: I. V. Cheremukhina
Subjects: chemistry.chemical_classification, Work (thermodynamics), Materials science, Geography, Planning and Development, Izod impact strength test, Activation energy, Epoxy, Polymer, Management, Monitoring, Policy and Law, TP368-456, Food processing and manufacture, Stress (mechanics), chemistry, visual_art, visual_art.visual_art_medium, Composite material, energy effects, physical modification, permanent magnetic field, ultrasonic exposure, ultraviolet radiation, oligomeric molecules, reinforced polymer composite materials, epoxy binder, Curing (chemistry), Hardening (computing)
Abstract: The use of various physical influences is an economical and highly effective direction for regulating and improving the characteristics of the modified reinforced polymer composite materials developed in this work. The methods of energy effects studied in this work were used at the stage of impregnation of technical threads of various chemical nature with an oligomeric binder and a hardener (when preparing prepregs by the traditional method) or with a binder solution and a curing system (when preparing prepregs by the method of layered application of components) Based on the conducted research, a classification of the applied methods of physical modification according to the principle of the influence of energy fields is proposed. The studied methods of energy effects are divided into orienting and energetically energizing effects. The first group includes treatments with constant magnetic (PMP) or electric fields (PEP), and constant mechanical loads. The second group includes energy effects that have a wave nature (energetically energizing), and vibration, ultrasonic effects, and ultraviolet radiation are attributed to them. Modification methods of the first group contribute to a decrease in the mobility of binder molecules during curing, while the formation of branches of polymer chains occurs during the curing process, which leads to a predominant increase in the destructive stress during static bending. Energetically energizing effects contribute to the relative acceleration of the process of linear growth of polymer chains during curing, which is accompanied by the formation of a more sparsely cross-linked mesh structure, which leads to a predominant increase in impact strength. Of the two competing processes in the curing of epoxy oligomers, this one requires a higher activation energy, which is confirmed by the results of studies. Analyzing the results obtained, it can be concluded that the modification methods used in the work allow not only to obtain polymer composite materials with high strength characteristics, but also to directly adjust the properties of composites depending on the requirements for the products. Orienting modification methods lead to hardening of the resulting polymer composite material with a predominant increase in the destructive stress during static bending from 20 to 47%. When using energetically energizing influences in the technology of producing reinforced reactoplasts, the impact strength increases mainly from 19 to 40%.
Published: 2021

39. Energy intensity of hydrocarbons in liquid and solid states

Author: A. V. Blokhin, G. J. Кабо, L. A. Kabo, and L. S. Karpushenkava
Subjects: chemistry.chemical_classification, Work (thermodynamics), Materials science, energy intensity, volumetric enthalpy of combustion, Analytical chemistry, Jet fuel, Combustion, polycyclic hydrocarbons, additive calculations, Chemistry, Molar volume, Hydrocarbon, chemistry, mass enthalpy of combustion, Energy intensity, Polycyclic Hydrocarbons, Physics::Chemical Physics, QD1-999, Intensity (heat transfer), hydrocarbon fuel
Abstract: Objectives. The increased use of unmanned aerial vehicles necessitates the search for jet fuels based on hydrocarbon materials with high energy intensity and physical density. The purpose of the work was to analyze the influence of various factors on the mass energy intensity of hydrocarbons. This analysis is required to substantiate the algorithm for locating energy-intensive CnHm structures.Methods. Combustion energy was calculated using additive procedures. The calculations were performed using Microsoft Excel.Results. During the analysis of the mass energy intensity of CnHm hydrocarbons, the m/n ratio was discovered to be the decisive factor for achieving high values of the mass energy intensity of hydrocarbons. The energy intensity decreases when moving from alicyclic to cyclic hydrocarbons, and this decrease is not compensated by the production of strain energy. An additive scheme that allows the molar volume of hydrocarbons to be predicted with sufficient accuracy is proposed for calculating the volumetric enthalpies of combustion.Conclusions. According to the thermodynamic analysis, n-alkanes have the highest mass energy intensities. The technology for extracting n-alkanes from oil fractions is well developed, and a decrease in the hydrogen content in the fuel results in a decrease in the mass energy intensity. It appears improbable that the mass and volumetric energy intensities of hydrocarbons seem will reach their maximum values simultaneously. Hydrocarbons that have a high m/n value, 2, 3, 4, 5, 6-membered rings, and phenyl fragments may have relatively high mass and volumetric energy intensities at the same time.
Published: 2021

40. Investigation of thermo- and electrophysical properties of dried crushed sea buckthorn cake

Author: V. Y. Ovsyannikov, N. N. Lobacheva, V. V. Toroptsev, S. A. Trunov, and M. A. Lobacheva
Subjects: Materials science, Atmospheric pressure, Moisture, Geography, Planning and Development, Humidity, Management, Monitoring, Policy and Law, Atmospheric temperature range, TP368-456, Thermal diffusivity, Heat capacity, Food processing and manufacture, Thermal conductivity, sea buckthorn, cake, heat capacity, thermal conductivity coefficient, thermal diffusivity, dielectric loss coefficient, Composite material, Sea buckthorn oil
Abstract: The development of resource-saving technologies for obtaining pure sea buckthorn oil and its compositions with other vegetable oils from dried crushed sea buckthorn cake is an urgent task. Sea buckthorn oil and its mixtures are obtained by extraction and simultaneous heat exposure, electrophysical methods of the process intensifying being considered in this case. Currently, there are no reliable data on the thermo- and electrophysical properties of dried crushed sea buckthorn cake at atmospheric pressure in the literature. Therefore, experimental studies of the thermo- and electrophysical properties of dried crushed sea buckthorn cake in a wide range of changes in state parameters are of great importance for solving theoretical and practical problems. The nature of the change in the specific heat, thermal conductivity and thermal diffusivity in the temperature range 20 ... 80 ° C and humidity 7.0 ... 17.5% was determined to be linear. In this case, the specific heat and the coefficient of thermal conductivity increase with increasing temperature while the coefficient of thermal diffusivity decreases. The nonlinear dependence of the dielectric loss coefficient on moisture was found to be due to a variety of forms of moisture binding in the sea buckthorn cake particles. It is obvious that with an increase in the cake temperature and humidity, the dielectric loss coefficient monotonically nonlinearly increases in the range of 0.46 ... 9.72. Empirical equations that make it possible to reliably determine the value of the specific mass heat capacity, thermal conductivity coefficients, thermal diffusivity and dielectric losses of dried crushed sea buckthorn cake from temperature and humidity in the range of 7.0 ... 17% with respect to absolutely dry matter were obtained as a result of studies of thermo- and electrophysical properties..
Published: 2021

41. Influence of rheological characteristics on the quality of 3D printing of food pastes

Author: S. A. Bredihin, S. T. Antipov, V. N. Andreev, and A. N. Martekha
Subjects: food.ingredient, Materials science, Starch, Geography, Planning and Development, Management, Monitoring, Policy and Law, Flow stress, TP368-456, Food processing and manufacture, Tomato puree, Shear rate, chemistry.chemical_compound, Viscosity, food, Rheology, chemistry, Extrusion, Composite material, Potato starch, rheology, 3d printing, optimization, extrusion, food pastes
Abstract: In extrusion 3D printing, the rheological properties of food are critical to achieving quality printing. The aim of this study is to investigate potential correlations between the printability of food pastes and rheological characteristics. Potato and tomato puree were used as a model system. The rheological properties of mashed potatoes with the addition of potato starch and their behavior during 3D printing have been investigated. A correlation has been established between the formulation and manufacturability in 3D printing. Potato mass without starch had a low yield point, which affected the deformation and subsidence of the mass later. At the same time, the addition of 2% starch showed excellent extrudability and printability, that is, the ability to flow. Under these conditions, the printed objects had a smooth shape, good resolution, and could withstand shape over time. The object with the addition of 4% starch represented good shape retention but poor extrudability due to its high consistency index and toughness. The results obtained using tomato puree showed a linear correlation between ingredient flow stress, zero shear viscosity and corresponding print stability. The extrusion pressure required to extrude tomato paste increases linearly with increasing flow voltage. Modules of viscosity, elasticity, and zero shear rate turned out to be not linearly correlated with the extrusion force, which can be explained by the fact that these parameters reflect the rheological properties of the non-deforming state of the material, in contrast to the flow stresses.
Published: 2021

42. A Ku-Band Foldable Reflectarray Based on a Maltese-Cross Microstrip Element

Author: S. V. Polenga, R. O. Ryazantsev, A. D. Poligina, R. M. Krylov, E. A. Litinskaya, and Yu. P. Salomatov
Subjects: Materials science, Anechoic chamber, TK7800-8360, business.industry, Frequency band, Phase (waves), Reflector (antenna), floquet cell, reflectarray, Microstrip, Finite element method, microstrip element, Optics, Communications satellite, Maltese cross, Electronics, business
Abstract: Introduction. Reflectarrays have a number of design and functional advantages over their closest analogue - reflector antennas (RA). Although microstrip elements are the most preferred reflectarray elements, single-layer microstrip elements do not allow accurate phase control due to the limited phase adjustment range and a high phase slope. The use of multilayer elements significantly complicates the antenna design and increases its cost. The development of a single-layer element that allows more than 360° phase adjustment and a low phase curve slope is urgent.Aim. To develop a single-layer microstrip phase-correcting element with a phase adjustment range of more than 360° and to design a reflectarray on its basis for operation in satellite communication networks.Materials and methods. Numerical studies were carried out using finite element analysis and the finite-difference time-domain method. Radiation patterns were measured using the near-field scanning method in an anechoic chamber.Results. A phase-correcting element based on a single-layer Maltese cross-shaped microstrip element with close to linear dependence of element size on the phase of the reradiated wave and more than 360° phase adjustment range was developed. On the basis of the investigated element, a foldable reflectarray was designed. The reflector consists of four subarrays, which provide its compact folding for transportation. The results of experimental studies confirmed a high efficiency of the reflectarray, the gain of which is 1.5 dB lower than that of an identical overall dimensions RA in a 7 % operating frequency band. The operating frequency band of the reflectarray in 1 dB gain zone was 11 %.Conclusion. On the basis of a Maltese cross microstrip element, it is possible to implement a single-layer reflectarray with a more than 10 % frequency band. The developed prototype showed the possibility of creating highly efficient foldable reflectarrays for operation in satellite communication and television terminals.
Published: 2021

43. Features of diffusion processes in the preparation of prepregs by the method of layered application of components

Author: I. V. Cheremukhina
Subjects: chemistry.chemical_classification, diffusion, prepreg, macroheterogeneous system, protective polymer, prepreg viability, composite materials, Materials science, Diffusion, Geography, Planning and Development, Thermosetting polymer, Molding (process), Polymer, Management, Monitoring, Policy and Law, Atmospheric temperature range, TP368-456, Food processing and manufacture, Stress (mechanics), chemistry, Volume (thermodynamics), Composite material, Curing (chemistry)
Abstract: The modern production of products made of composite materials based on thermosetting binders is mainly based on the use of pre – impregnated reinforcing technical threads-prepregs. The binder used for such semi-finished products must meet two important technological requirements: have a low reactivity (high viability) when stored in the temperature range from -5 to +25 ° C and the ability to adjust the curing time at the molding temperatures of the product. To eliminate the disadvantages of the traditional method of obtaining polymer composite materials, to improve their strength characteristics and reduce the cost of the resulting reinforced composites, it is proposed to use the method of layered application of components. The essence of the method consists in layer-by-layer impregnation of the fibrous filler with a binder solution, and then a developed curing system consisting of an amine hardener that prevents the interaction of the hardener with the resin under storage conditions and protective polymer emulsions. The binder-filler system is activated only at an elevated temperature under curing conditions. It is established that the optimal parameters for processing by direct pressing of the pre-pegs components obtained by the method of layer deposition are a pressure of 15 MPa and a temperature of160-170 ?С with a pressure exposure of 15 minutes. If you get products by winding, then for such products, heat treatment for 6 hours at a temperature of 120 ?С is optimal. In the conditions of forming products, that is, at an elevated temperature and at an increased pressure, the mutual diffusion of components occurs due to the movement of oncoming flows. Oligomeric molecules from the resin volume diffuse from the inner layer to the outer one, and the components of the curing system meet them from the outer layer to the inner one. The method of layered application of components makes it possible to create a macroheterogenic system of interpenetrating polymer meshes in the contact area of sequentially applied layers. The result of the research is an increase in the shelf life, the viability of prepregs (up to 10 days) and an improvement in the complex of physical and mechanical properties of composites: the destructive stress during static bending increases to 60 %, during dynamic bending (impact) - up to 50 %. The use of carboxymethylcellulose as a protective polymer provides higher indicators of the studied properties than when using butadiene styrene latex as a protective polymer..
Published: 2021

44. Сomposite binders for 3d additive technologies

Author: L. Kh. Zagorodnuk, Saad Khalil Shadid Al Mamuri, M.Yu. Elistratkin, and D. S. Podgornyi
Subjects: Materials science, TA1001-1280, business.industry, dry building mixtures, Plastics extrusion, Composite number, active additives, 3D printing, Raw material, 3d construction printing, law.invention, composite binders, Transportation engineering, Portland cement, Rheology, law, Hardening (metallurgy), Extrusion, rheology, business, Process engineering, 3d additive technologies
Abstract: Introduction. In recent years, there has been an active development of 3D additive technologies. This trend could not but affect the construction industry. However, printing using plastics and other organic compounds differs significantly in its technological features from printing with building compounds. Concrete and mortars used in layer-by-layer printing must have a number of technological properties, such as sufficient viscosity for extrusion by an extruder, low mobility to maintain geometry after laying, high setting speed and strength after hardening. Currently, there are a number of compositions that meet these requirements, however, they, as a rule, are not distinguished by high strength and require a wide raw material base, which may not be available in field printing conditions. As a result, it is necessary to expand the range of building materials for 3D printing, suitable for the above criteria, as well as satisfying economic indicators.Materials and methods. Research has been carried out using physical and mechanical tests, X-ray phase analysis and electron microscopy on the effect of finely ground mineral additives on the microstructure and hardening processes of composite binders with various dosages of functional additives.Results. The results of studies on the production of composite binders for 3D additive technologies using Portland cement and man-made waste - waste of wet magnetic separation of the Stary Oskol electrometallurgical plant, modified with additives accelerators (Technonikol Master) and plasticizers (Polyplast PK-R) using mathematical planning and construction of mathematical models for composite binders with different hardening times are pesented.Conclusion. The efficiency of using the obtained composite binder has been proven, the use of which provides an increase in rheological properties, and also makes it possible to save expensive portland cement.
Published: 2021

45. EFFECT OF SOLID DISPERSIONS ON THE SOLUBILITY OF METRONIDAZOLE

Author: I. I. Krasnyuk (Jr.), S. R. Naryshkin, I. I. Krasnyuk, A. V. Belyatskaya, O. I. Stepanova, I. S. Bobrov, V. G. Yankova, J. V. Rau, and A. N. Vorobiev
Subjects: Pharmacology, solid dispersion, Molar mass, Materials science, solubility, Pharmaceutical Science, Pharmacy, RM1-950, Dosage form, Solvent, Crystallinity, Colloid, metronidazole, polyethylene glycol, Pharmacology (medical), Therapeutics. Pharmacology, Solubility, Dissolution, Solid solution, Nuclear chemistry
Abstract: The aim of the work is to study the effect of solid dispersions using polyethylene glycols of various molecular weights on the solubility of metronidazole in water. Metronidazole is an antimicrobial and antiprotozoal drug. Its low solubility in water limits the use of metronidazole, causing technological difficulties and reducing its bioavailability. The solubility and release of the active substance from dosage forms can be increased using the solid dispersion methods. Solid dispersions are bi- or multicomponent systems consisting of an active substance and a carrier (a highly dispersed solid phase of the active substance or molecular-dispersed solid solutions) with a partial formation of complexes of variable compositions with the carrier material.Materials and methods. The substance of metronidazole used in the experiment, was manufactured by Hubei Hongyuan Pharmaceutical Technology Co., Ltd. (China). To obtain solid dispersions, polyethylene glycols of various molar masses – 1500, 2000 and 3000 g/mol – were used. The solid dispersions were prepared by “the solvent removal method”: metronidazole and the polymer were dissolved in a minimum volume of 96% ethyl alcohol (puriss. p.a./analytical grade) at 65±2°C, and then the solvent was evaporated under vacuum to the constant weight. A vacuum pump and a water bath were used at the temperature of 40±2°C. The dissolution of the samples was studied using a magnetic stirrer with heating, and a thermostatting device. The concentration of metronidazole was determined on a spectrophotometer using quartz cuvettes at the wavelength of 318±2 nm. To filter the solutions, syringe nozzles were used, the pores were 0.45 μm, the filter was nylon. Microcrystalloscopy was performed using a microscope with a digital camera. The optical properties of the solutions were investigated using a quartz cuvette and a mirror camera (the image exposure – 20 sec).Results. Obtaining solid dispersions increases the completeness and rate of the metronidazole dissolution. The solubility of metronidazole from solid dispersions increases by 14–17% in comparison with the original substance. The complex of physical-chemical methods of the analysis, including UV spectrophotometry, microcrystalloscopy and the study of the optical properties of the obtained solutions, makes it possible to suggest the following. The increase in the solubility of metronidazole from solid dispersions is explained by the loss of crystallinity and the formation of a solid solution of the active substance and the solubilizing effect of the polymer with the formation of colloidal solutions of metronidazole at subsequent dissolution of the solid dispersion in water.Conclusion. The preparation of solid dispersions with polyethylene glycols improves the dissolution of metronidazole in water. The results obtained are planned to be used in the development of rapidly dissolving solid dosage forms of metronidazole with an accelerated release and an increased bioavailability.
Published: 2021

46. Rationale for the post-harvest processing of leaf mass of agricultural crops using microwave radiation

Author: L. P. Pestova, E. I. Vinevsky, and A. V. Chernov
Subjects: Materials science, midrib, Moisture, plantain, Leaf mass, plate, TOPS, convective drying, TP368-456, Food processing and manufacture, tops, Horticulture, microwave radiation, Drying time, Leaf blade, natural method, leaves, beets, Control sample, Microwave, Agricultural crops, artificial method
Abstract: Post-harvest processing of the leaf mass of various agricultural crops has general patterns. The peculiarity of the structure of the leaves is that the amount of water contained in the leaf blade and in the midrib is approximately the same, but the area of the evaporating surface of the midrib is 10–15 times less than the area of the evaporating surface of the leaf plate. Therefore, the difference in drying modes for these parts of the leaves justifies the need for different physical methods of influencing them. The aim of the research was to substantiate experimentally the general principles of moisture removal from the leaf mass of various agricultural crops using microwave radiation. Processing in the microwave field was carried out for 1,0; 1,5; 2,0; 2,5 minutes. The treated leaf layers were dried naturally. Leaves dried by convection under natural and artificial conditions, only without microwave treatment, served as a control sample. For the post-harvest processing of plantain leaves, a combined drying method is recommended, where in the first phase the leaves are treated with microwave radiation for 2,0–2,5 minutes, depending on the thickness of the leaf layer, and then in the second phase under natural conditions for 8 hours. Microwave – processing followed by convective drying in natural conditions is considered the most compromise method for drying beet tops leaves both in terms of drying time and in terms of the energy intensity of the process. On the basis on the results of the research, the application of the most rational processes of post-harvest processing of leaf mass of agricultural crops was substantiated, which consists in their processing by microwave radiation, followed by convective drying in a natural way.
Published: 2021

47. Scaling of the Granulation Process in the Conditions of GMP Training Center and Assessment of Possible Risks

Author: O. N. Abrosimova and M. A. Burakova
Subjects: Materials science, Shear force, scaling, Mixing (process engineering), Pharmaceutical Science, Pelletizing, granulate, Microcrystalline cellulose, Granulation, chemistry.chemical_compound, Impeller, transfer of technology, ishikawa diagram, chemistry, granulation in a mixer-granulator, Drug Discovery, Pulverizer, Composite material, HD9665-9675, Scaling, Pharmaceutical industry
Abstract: Introduction. The stage of wet granulation is often used in the technology of solids. The method of wet granulation in a mixer-granulator with high shear force can be regarded as the most complicated method of its implementation from the engineering and technological point of view. The mixer-granulator has two mixers located in mutually perpendicular planes. Using an impeller, dry components are mixed, and the chopper, turning on when spraying a humidifier, ensures the formation of granules. By setting different chopper rotational speed, granules of different sizes can be obtained. This granulator has the following advantages: it provides a high product yield (≥ 99 %), takes up small workspaces, and the closed design ensures environmental protection.Aim. The aim of the research is to scale the granulation process, on the example of the solids production technology, using the wet granulation stage - in a mixer-granulator with high shear force.Materials and methods. Dry extract «N» and auxiliary substances were used as a pharmaceutical substance: lactose monohydrate, microcrystalline cellulose (MCC) (MICROCEL® MC-102), potato starch, povidone (Plasdone™ K-29/32), calcium stearate. Granulate under scaling conditions was produced in a mixer-granulator with high shear force. Technological properties of dry extract «N» and granulate were determined by the methods described in National pharmacopeia XIV.Results and discussion. On the basis of experimental studies, it was found that the resulting granulate, both when obtained under laboratory conditions and under scaling conditions, has good flowability, and also has a homogeneous fractional composition. The presence of a grinder in the mixer-granulator made it possible to obtain a more uniform fractional composition of the granulate. A 10-fold increase in loading did not affect the composition of the granulate. When scaling the pelletizing process, a risk analysis was carried out, factors influencing the technological process were identified and structured. It turned out that the most important stages are mixing and the actual granulation. To obtain a homogeneous mixture, additional equipment was used - a mixer.Conclusion. As a result of scaling up the granulation process, the parameters of wet granulation in the mixer-granulator (optimal loading, impeller and grinder rotation frequency), technological properties of the resulting granulate, and risks affecting the technological process were selected. were evaluated and a causal diagram (Ishikawa diagram) was drawn.
Published: 2021

48. Stress-deformed state of a three-layer structure taking into account the hypothesis of cubic displacement pattern over the thickness of a filler

Author: Kh. M. Gapparov, O. M. Ustarkhanov, and Kh. M. Muselemov
Subjects: Filler (packaging), Technology, Materials science, equilibrium equations, filler, 0211 other engineering and technologies, Structure (category theory), three-layer structure, 02 engineering and technology, General Medicine, State (functional analysis), stress-deformed state, 010501 environmental sciences, 01 natural sciences, Stress (mechanics), hypothesis, 021108 energy, Composite material, Displacement (fluid), Layer (electronics), bearing layer, 0105 earth and related environmental sciences
Abstract: Objective.In most cases, when determining the stress-deformed state of three-layerstructures, it is assumed that bearing layers obey the Kirchhoff-Love hypothesis, while a filler obey theNeit (vanderNeit), or “broken line”, hypothesis. But in many cases, the results of our research showthat this is not always accurate.Methods.It is proposed to solve the three-dimensional problem of determining the stress-deformed state of a three-layer structure using cubic functions of the law of aggregate deformation distribution along the normal line, obtained on the basis of the law of deformation compatibility at “filler – bearing layer” boundaries and the construction of boundary conditions in joint zones.Results.Equilibrium equations of a three-layer beam obtained on the basis of thishypothesis are shown in Table 1. The given partial differential equations are of the 12th order and wetransformed them into homogeneous equations of the 1st order to simplify the solution. This solution isimplemented using the mathematical modelling software package Mаple 5.4.Conclusion.The work ofthe filler in the direction of OX axis has a certain value, which affects the overall stress state of thethree-layer structure (in existing hypotheses, it is zero).
Published: 2021

49. Modification and validation of the test procedure for determination of sub-visible particulate matter in parenteral solutions, using the Coulter method

Author: A. A. Voropaev, O. V. Fadeikina, D. S. Davydov, and A. A. Movsesyants
Subjects: Range (particle radiation), coulter method, Materials science, Aperture, Analytical chemistry, Linearity, electrical sensing zone method, Repeatability, Dosage form, sub-visible particulate matter, Coulter counter, Automotive Engineering, Particle, Medicine, parenteral solutions, Parenteral solutions, TP248.13-248.65, Biotechnology
Abstract: The State Pharmacopoeia of the Russian Federation, 14th edition provides for determination of sub-visible particles (less than 100 µm in size) in parenteral dosage forms using the Coulter method, in addition to the light obscuration particle count test and microscopy. However, the proposed 100 µm aperture tube does not enable assessment of the whole range of sub-visible particle sizes. Therefore, research is needed to find optimal test conditions for determination of sub-visible particulate matter by the Coulter method. The aim of the study: modification of the Coulter-based procedure using a 200 µm aperture tube, and performance of validation studies. Materials and methods: Multisizer 4e Coulter counter, suspensions of reference latex particles (10 µm, 20 µm, and 43 µm), and a particulate count reference standard containing 0.998 × 106 particles/mL were used in the study. The following parameters were assessed during validation: accuracy, repeatability, linearity. Results: the study confirmed the feasibility of using the modified Coulter-based procedure with a 200 µm aperture tube. The following values were obtained during validation of the modified test procedure: accuracy was 5.3% (deviation from the mean value) as compared to the particulate count reference standard, and 4.2% as compared to the light obscuration method. Repeatability was 1% (relative standard deviation) for the particle concentration of approximately 10000 per 1 mL, and 7.6% for the particle concentration of approximately 300 per 1 mL. The study demonstrated the linearity of the procedure, the linear correlation coefficient was more than 0.99. Conclusions: the studied validation parameters of the modified test procedure were shown to comply with the acceptance criteria. The modified test procedure will enable assessment of the whole range of sub-visible particle sizes when testing parenteral solutions for particulate contamination: sub-visible particles.
Published: 2021

50. Convective Heat Exchange of Single-Row Bundles from Tubes with Rolled Aluminum Fins of Various Height at a Low Values of the Reynolds Number

Author: A. B. Sukhotski and Е. S. Danil’chik
Subjects: Fin, Materials science, 020209 energy, Energy Engineering and Power Technology, exhaust shaft, dimensional and metalintensive characteristics, 02 engineering and technology, 01 natural sciences, 010305 fluids & plasmas, symbols.namesake, the criteria equation of a heat transfer, 0103 physical sciences, Heat exchanger, 0202 electrical engineering, electronic engineering, information engineering, Effective height, Tube (container), Composite material, Renewable Energy, Sustainability and the Environment, Reynolds number, Hydraulic engineering, single-row tube heat exchanger, Engineering (General). Civil engineering (General), nusselts number, Nuclear Energy and Engineering, Bundle, Heat transfer, symbols, bimetallic finned tube, TA1-2040, TC1-978, Intensity (heat transfer), low reynolds numbers
Abstract: The experimental study of the heat flow intensity of a single-row horizontal air-cooled tubular bundle of heat exchanger with spiral aluminum rolling fins at low Reynolds numbers (Re < 2000) is performed. The geometrical dimensions of the bimetallic finned tubes of the bundle, the following: the outer diameter of the fins d = 56.0 mm; the diameter of the tube at the base d0 = 26.8 mm; fin height h = 14.6 mm; pitch of fins s = 2.5 mm; the average fin thickness Δ = 0.5 mm; the coefficient of finned tubes φ = 19.3; heat transfer length l = 300 mm. The outer diameter of the load-bearing steel tube dн = 25 mm; wall thickness d = 2 mm. The research was carried out by the method of full thermal modeling at a specially designed experimental stand with electric heating of tubes and an exhaust shaft installed above the bundle. The air flow rate through the bundle was regulated by changing the height and cross-sectional area of the exhaust shaft. Calibration experiments were carried out and confirmed the reliability of the data obtained. Then the fins were sanded so to form new types of tubes, which were arranged in a single-row six-tube bundle with a constant relative cross-step σ1 = S1/d = 1.14 = const, and the thermal studies were repeated. As a result, a generalized criterion equation for heat transfer of a finned horizontal single-row bundle at small Reynolds numbers for various heights of the tube finning h = 0-14.6 mm was obtained. The effective height of the tube finning (h = 8 mm) for a single-row horizontal bundle was determined by dimensional and metal-intensive criteria.
Published: 2021

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