Search

Your search keyword '"Olga Kononova"' showing total 26 results
Start Over Author "Olga Kononova" Language english
26 results on '"Olga Kononova"'

3. The fauna of aquatic invertebrates in the river impacted by wastewaters from the pulp and paper industry (Komi Republic)

Author

Maria Baturina, Olga Kononova, Elena Fefilova, and Olga Loskutova

Subjects
sampling event, benthos and plankton invertebrates, Biology (General), QH301-705.5
Abstract

Invertebrates are important elements of aquatic ecosystems and play a crucial role in the transformation of matter and energy in continental water bodies. Communities of aquatic invertebrates are characterised by high sensitivity to pollution by nutrients and toxic substances and acidification of water bodies; they serve as good bioindicators of the quality of the aquatic environment and impacts on hydroecosystems. All hydrobionts participate in the processes of self-purification of water bodies.The presented dataset provides information on the aquatic invertebrate community of a large northern river. During 2018-2020, we collected data on changes in the quantitative indicators of the development of benthic and planktonic communities, as well as the species diversity of their fauna. The dataset combines information about the occurrence and abundance of benthic and planktonic invertebrates and summarises data of aquatic invertebrate species found in the Vychegda River in the zone of influence from the pulp and paper mill.The presented dataset is part of a monitoring programme of the river ecosystems in the production area of Mondi Syktyvkar JSC (the European North-East of Russia, Komi Republic). The dataset describes the structure of benthic invertebrate and plankton communities in the Northern Dvina River Basin. The data on the finding and abundance of large taxa of aquatic invertebrates and species of some groups: Oligochaeta, Cladocera, Copepoda, Rotifera, Ephemeroptera, Plecoptera and Trichoptera are presented. In total, the resource includes 8720 findings of invertebrates, of which 6041 are for zoobenthos organisms and 2679 for zooplankton organisms.

Published
2021
Full Text
View/download PDF

4. Experimental Study and Modelling on the Structural Response of Fiber Reinforced Concrete Beams

Author

Vitalijs Lusis, Krishna Kiran Annamaneni, Olga Kononova, Aleksandrs Korjakins, Inga Lasenko, Rengasamy Kannathasan Karunamoorthy, and Andrejs Krasnikovs

Subjects
reinforced concrete, mechanical properties, steel fiber, polypropylene fiber, bending strength, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999
Abstract

In many structural applications, concretes reinforced with short metal or synthetic fibers (fiber-reinforced concrete (FRC)) have a number of advantages over traditional concretes reinforced with steel rebars reinforcement, such as easier and more economical production, wear resistance, impact resistance, integrity, etc. In the present study, several concrete mixes were developed and prismatic FRC specimens were fabricated. Their structural behaviors were studied using bending tests until prisms were fractured. Two types of fibers, namely, steel and polypropylene (PP) and three different concrete matrixes were investigated, testing in total 12 FRC prismatic specimens. Every group of FRC had the same concrete matrix, but different internal fiber architecture. All specimens were tested by Four-Point Bending (4PBT). The analysis was carried out with a goal to determine the workability and flexural tensile strength of all FRC groups, comparing these parameters with fracture modelling results. Single crack formation and opening model were established. Crack is crossing whole stretched part of the prism’s orthogonal crossection. Crack is opening, fibers are bridging the crack and are pulling out. Load bearing curves in the model were compared with experimentally obtained.

Published
2022
Full Text
View/download PDF

5. Data on taxa composition of freshwater zooplankton and meiobenthos across Arctic regions of Russia

Author

Elena Fefilova, Olga Dubovskaya, Olga Kononova, Larisa Frolova, Ekaterina Abramova, and Gulnara Nigamatzyanova

Subjects
Arctic, Fresh waters, Rotifers, Cladocerans, Copepods, Zooplankton, Computer applications to medicine. Medical informatics, R858-859.7, Science (General), Q1-390
Abstract

We present the presence/absence species list (Table 1) of rotifer, cladoceran, and copepod (Calanoida, Harpacticoida, and Cyclopoida) fauna from seven Arctic regions of Russia (the Kola Peninsula, the Pechora River Delta, the Bolshezemelskaya tundra, the Polar Ural, the Putorana Plateau, the Lena River Delta, and the Indigirka River Basin) based on our own and literature data. Our own records were obtained by analyzing samples of zooplankton, meiobenthos, and two cores of bottom sediments (from the Kola Peninsula and the Bolshezemelskaya tundra lakes) that we collected once in July or August in 1992, 1995–2017. To supplement the list, we used relevant literature with periods of research from the 1960s to the 2010s. The list is almost identical to “Dataset 2: Zooplankton and Meiofauna across Arctic Regions of Russia”, which was analyzed but not published in [1]. The detailed analysis of this list revealed the specific composition of the aquatic fauna associated with the climatic and geographical factors [1]. The data provide information on the current state of biodiversity and species richness in Arctic fresh waters and can serve as the basis for monitoring these environments and predicting how they are likely to change in the future.

Published
2021
Full Text
View/download PDF

6. Opportunities and challenges of text mining in materials research

Author

Olga Kononova, Tanjin He, Haoyan Huo, Amalie Trewartha, Elsa A. Olivetti, and Gerbrand Ceder

Subjects
Data Analysis, Computing Methodology, Computational Materials Science, Materials Design, Science
Abstract

Summary: Research publications are the major repository of scientific knowledge. However, their unstructured and highly heterogenous format creates a significant obstacle to large-scale analysis of the information contained within. Recent progress in natural language processing (NLP) has provided a variety of tools for high-quality information extraction from unstructured text. These tools are primarily trained on non-technical text and struggle to produce accurate results when applied to scientific text, involving specific technical terminology. During the last years, significant efforts in information retrieval have been made for biomedical and biochemical publications. For materials science, text mining (TM) methodology is still at the dawn of its development. In this review, we survey the recent progress in creating and applying TM and NLP approaches to materials science field. This review is directed at the broad class of researchers aiming to learn the fundamentals of TM as applied to the materials science publications.

Published
2021
Full Text
View/download PDF

7. COMMUNITIES OF AQUATIC INVERTEBRATES IN THE OLDEST STORAGE RESERVOIR IN THE KOMI REPUBLIC

Author

Olga Kononova and Maria Baturina

Subjects
zooplankton, zoobenthos, human impact, water level, small storage reservoirs, Science
Abstract

The species composition and structure of zooplankton and zoobenthos were studied in the Komi Republic’s oldest small storage reservoir, which has operated continuouslysince 1758. Over the period from 2007 to 2017, 85 species and forms of zooplankton and 21 taxonomic groups of benthic invertebrates were identified. At the initial stage of the research, as the water level in the reservoir was stable and the growth of aquatic macrophytes was minor, the reservoir’s planktic and benthic communities was stable in the species composition and quantities. Lowering of the water level promoted the reservoir’swater trophicity, triggered a rise in the taxonomic abundance and quantities of zooplankton and zoobenthos, a change of the communities’ leading groups, and a reduction in the composition of the dominant complexes. When the water level was boosted up after the restoration of the Kazhimsky hydroelectric installations was over, a vast shore area wasflooded, modifying the reservoir’s ecological status. Changes in aquatic invertebrate communities included a decrease in the quantitative indicators of development, a reduction in the number of taxa and species diversity, alteration of the dominant complexes.

Published
2020
Full Text
View/download PDF

8. INVERTEBRATE COMMUNITIES IN HYDROGEN SULFIDE SPRINGS IN THE HIGH NORTH (USA RIVER CATCHMENT, RUSSIA)

Author

Olga Loskutova, Olga Kononova, Tatjana Kondratjeva, Elena Fefilova, Maria Baturina, Aleksey Kudrin, and Yulia Rafikova

Subjects
hydrochemistry, zoobenthos, zooplankton, biodiversity, adaptation, sulfide waters, extreme environments, northernmost taiga, Science
Abstract

In late July 2018, we studied the chemical composition of the water and benthic communities in two hydrogen sulfide springs in the catchment of the Iska-Shor Creek (lefthand tributary of the Usa River), as well as zoobenthos and plankton in the Usa River around the creek’s mouth. Compared to the reference site, water in the springs contained manyfold higher concentrations of chlorine, sodium, calcium, sulfate ions, and differed in the content of organic matter, heavy metals, and several micro elements. Water temperature did not exceed +6 °С. Zoobenthos abundance and biomass was low, comprising31 taxa of invertebrates. Chironomid larvae and harpacticoids prevailed. Chironomids were the most diverse group in the creek – 20 taxa, of which 17 were found directly in the springs. Tanytarsus verralli Goetghebuer, 1928 was the most numerous species. Apart from chironomids, we found nematodes, ostracods, cladocerans, first instar larvae of mayflies, stoneflies and caddisflies, and others Dipteran families. The diversityof planktic and benthic invertebrates, and the set of dominant species showed little variation among the sites surveyed in the Usa River. The dominants in terms of abundance in the river’s benthic fauna were chironomid species from the subfamily Chironomini: Tanytarsus verralli, Cladotanytarsus (Cladotanytarsus) mancus (Walker, 1856), and Polypedilum (Pentapedilum) exsectum (Kieffer 1916). The share of roundworms decreased and the share of cyclops and water mites increased in the zoobenthos of the river downstream from the mouth of the creek. Among zooplankton dominants, the abundance of Euchlanis dilatata Ehrenberg, 1832 decreased and the share of Cladocera from the genus Bosmina increased downstream the river. Inside the area directly affected bythe mineral water springs, we found a high abundance of euplanktic rotifers Asplanchna priodonta Gosse, 1850 and copepods Mesocyclops leuckarti (Claus, 1857), as well asan increased abundance of juvenile Cyclopoida. The studies have expanded our knowledge of the adaptive capabilities of invertebrates, and the ecology of aquatic communities forming in this extreme environment.

Published
2020
Full Text
View/download PDF

9. Experimental Investigation and Modelling of the Layered Concrete with Different Concentration of Short Fibers in the Layers

Author

Vitalijs Lusis, Olga Kononova, Arturs Macanovskis, Rimvydas Stonys, Inga Lasenko, and Andrejs Krasnikovs

Subjects
concretes, reinforced concrete, mechanical properties, steel fibers, single fiber pull-out, fibers distribution, Chemicals: Manufacture, use, etc., TP200-248, Textile bleaching, dyeing, printing, etc., TP890-933, Biology (General), QH301-705.5, Physics, QC1-999
Abstract

The use of steel fiber reinforced concrete (SFRC) in structures with high physical-mechanical characteristics allows engineers to reduce the weight and costs of the structures, to simplify the technology of their production, to reduce or completely eliminate the manual labor needed for reinforcement, at the same time increasing reliability and durability. Commonly accepted technology is exploiting randomly distributed in the concrete volume fibers with random each fiber orientation. In structural members subjected to bending, major loads are bearing fibers located close to outer member surfaces. The majority of fibers are slightly loaded. The aim of the present research is to create an SFRC construction with non-homogeneously distributed fibers. We prepared layered SFRC prismatic specimens. Each layer had different amount of short fibers. Specimens were tested by four point bending till the rupture. Material fracture process was modelled based on the single fiber pull-out test results. Modelling results were compared with the experimental curves for beams. Predictions generated by the model were validated by 4PBT of 100 × 100 × 400 mm prisms. Investigation had shown higher load-bearing capacity of layered concrete plates comparing with plate having homogeneously distributed the same amount of fibers. This mechanism is strongly dependent on fiber concentration. A high amount of fibers is leading to new failure mechanisms—pull-out of FRC blocks and decrease of load-bearing capacity. Fracture surface analysis was realized for broken prisms with the goal to analyze fracture process and to improve accuracy of the elaborated model. The general conclusion with regard to modelling results is that the agreement with experimental data is good, numeric modelling results successfully align with the experimental data. Modelling has indicated the existence of additional failure processes besides simple fiber pull-out, which could be expected when fiber concentration exceeds the critical value.

Published
2021
Full Text
View/download PDF

10. The Smart city vision: The internet-of-postal-things (iopt) approach

Author

Maria PAVLOVSKAYA and Olga KONONOVA

Subjects
IoT, data-driven city, postal assets, postal service, Smart city architecture, State information system, Social sciences (General), H1-99, Cities. Urban geography, GF125
Abstract

Nowadays the popular Smart city concept focuses on the quality improvement of a citizen’s life by using the information and communication technology. Frequently Smart city projects are stalled at the initial stages due to insufficient data volume. Meanwhile, state Postal services remain outside the Smart cities concepts and models, despite the available resources to handle big data. This research is aimed to highlight the significance of Postal services involvement in effective data collection, storage and aggregation. The study refers to the international sources and considers a high-level Smart city architecture and data-driven approach; gives an analysis of researches results and case studies of international Postal services in the field of socially significant initiatives; describes the functions and assets of the Russian Post. The paper presents identified opportunities of Postal services participation in the processes of Smart city projects, describes an applicability of the approach to the Russian realities. It also provides the models of Postal services involvement in Smart city projects and meta-model of the data which collection is possible using the Russian Post assets. The main idea is to integrate urban information systems and the Postal services assets for more efficient and ubiquitous data collection, which entails additional quality in public services. The integration will improve the city authorities results, ensure the safety of information resources, i.e. will help all participants to achieve their goals. Such approaches are named Internet of Postal Things. The relevance of the work is further conditioned by increased government activity in Smart cities development in Russia, which is caused by “Russian Digital Economy†document release, where the Smart city direction is allocated. In accordance with the document city authorities, scientific and business communities started the mega-project “Smart city St. Petersburg†where the described research results will be used.

Published
2018
Full Text
View/download PDF

11. Effect of short fibers orientation on mechanical properties of composite material – fiber reinforced concrete

Author

Vitalijs Lusis, Andrejs Krasnikovs, Olga Kononova, Videvuds-Arijs Lapsa, Rimvydas Stonys, Arturs Macanovskis, and Arturs Lukasenoks

Subjects
fiber reinforced concrete, fibers orientation, fibers pull-out, oriented fiber distribution, Building construction, TH1-9745
Abstract

Traditional fiberconcrete structures have fibres in the mix oriented in all spatial directions, distributed in the struc­tural element volume homogenously, what not easy to obtain in practice. In many situations, structurally more effective is the insertion of fibres into the concrete structural element body by forming layers, with a predetermined fibre concentration and orientation in every layer. In the present investigation, layered fibre concrete is under investigation. Short steel fibres were at­tached to flexible warps with the necessary fibres concentration and orientation. Warps were placed into the prismatic mould separating them by concrete layers without fibres. Prisms were matured and tested under four-point bending. The bending-affected mechanical behaviour of cracked fibre concrete was simulated numerically by using a developed struc­tural model. Comparing the simulation results with experimental data, material micromechanical fracture mechanisms were analysed and evaluated.

Published
2017
Full Text
View/download PDF

12. Investigation of influence of nano-reinforcement on the mechanical properties of composite materials

Author

Olga Kononova, Andrejs Krasnikovs, Rimvydas Stonys, Genadijs Sahmenko, and Renars Vitols

Subjects
fibre concrete, pull-out, nano admixture, cement matrix, Building construction, TH1-9745
Abstract

The present work studies the possibility to decrease the formation of micro and nano cracks around short fibres in fibre-reinforced concrete (FRC) composite with the help of nano-reinforcement, which is carbon nanotubes, or micro reinforcement, which is carbon short fibres and nano-fillers. Tensile and bending strength of FRC depends on the spatial distribution of fibres inside a material, type of fibre and cement matrix, as well as an effective micromechanical work of each fibre while pulling out of the concrete matrix. Shrinkage stresses, acting in the matrix in the vicinity of a fibre, lead to the formation of micro-cracks. Such micro-cracks were observed experimentally and were investigated numerically performing broad modelling based on the finite element method (FEM). The investigation was focused on the micromechanical behaviour of a single steel fibre in a cement matrix. Numerical modelling results demonstrated a high level of shrinkage overstresses around steel fibres in concrete. The role of nano and micro admixtures, nanotubes, short carbon fibres as well as the role of water/cement ratio in a high performance concrete matrix, changing (increasing or decreasing) the friction force between the matrix and the steel fibre, were investigated experimentally by way of per­forming a single fibre pull-out tests. The high scatters of experimental results were obtained in performed pull-out tests. At the same time, for the same series of samples, a positive role of micro and nano admixtures and carbon nanotubes in the increase of pull-out force was recognised.

Published
2016
Full Text
View/download PDF

13. Fluctuating Nonlinear Spring Model of Mechanical Deformation of Biological Particles.

Author

Olga Kononova, Joost Snijder, Yaroslav Kholodov, Kenneth A Marx, Gijs J L Wuite, Wouter H Roos, and Valeri Barsegov

Subjects
Biology (General), QH301-705.5
Abstract

The mechanical properties of virus capsids correlate with local conformational dynamics in the capsid structure. They also reflect the required stability needed to withstand high internal pressures generated upon genome loading and contribute to the success of important events in viral infectivity, such as capsid maturation, genome uncoating and receptor binding. The mechanical properties of biological nanoparticles are often determined from monitoring their dynamic deformations in Atomic Force Microscopy nanoindentation experiments; but a comprehensive theory describing the full range of observed deformation behaviors has not previously been described. We present a new theory for modeling dynamic deformations of biological nanoparticles, which considers the non-linear Hertzian deformation, resulting from an indenter-particle physical contact, and the bending of curved elements (beams) modeling the particle structure. The beams' deformation beyond the critical point triggers a dynamic transition of the particle to the collapsed state. This extreme event is accompanied by a catastrophic force drop as observed in the experimental or simulated force (F)-deformation (X) spectra. The theory interprets fine features of the spectra, including the nonlinear components of the FX-curves, in terms of the Young's moduli for Hertzian and bending deformations, and the structural damage dependent beams' survival probability, in terms of the maximum strength and the cooperativity parameter. The theory is exemplified by successfully describing the deformation dynamics of natural nanoparticles through comparing theoretical curves with experimental force-deformation spectra for several virus particles. This approach provides a comprehensive description of the dynamic structural transitions in biological and artificial nanoparticles, which is essential for their optimal use in nanotechnology and nanomedicine applications.

Published
2016
Full Text
View/download PDF

14. The Mechanical Properties of Nanocomposites Reinforced with PA6 Electrospun Nanofibers

Author

Inga Lasenko, Jaymin Vrajlal Sanchaniya, Sai Pavan Kanukuntla, Yagnik Ladani, Arta Viluma-Gudmona, Olga Kononova, Vitalijs Lusis, Igors Tipans, and Turs Selga

Subjects
Polymers and Plastics, nanocomposite, multilayered composites, General Chemistry, spun nanofiber, electrospinning
Abstract

Electrospun nanofibers are very popular in polymer nanocomposites because they have a high aspect ratio, a large surface area, and good mechanical properties, which gives them a broad range of uses. The application of nonwoven structures of electrospun nanofiber mats has historically been limited to enhancing the interlaminar responses of fiber-reinforced composites. However, the potential of oriented nanofibers to improve the characteristics of bulk matrices cannot be overstated. In this research, a multilayered laminate composite was created by introducing polyamide (PA6)-oriented nanofibers into an epoxy matrix in order to examine the effect of the nanofibers on the tensile and thermal characteristics of the nanocomposite. The specimens’ fracture surfaces were examined using scanning electron microscopy (SEM). Using differential scanning calorimetry (DSC) analysis, the thermal characteristics of the nanofiber-layered composites were investigated. The results demonstrated a 10.58% peak in the nanocomposites’ elastic modulus, which was compared to the numerical simulation and the analytical model. This work proposes a technique for the development of lightweight high-performance nanocomposites.

Published
2023
Full Text
View/download PDF

15. Experimental Investigation and Modelling of the Layered Concrete with Different Concentration of Short Fibers in the Layers

Author

Rimvydas Stonys, Vitalijs Lusis, Olga Kononova, Arturs Macanovskis, Inga Lasenko, and Andrejs Krasnikovs

Subjects
steel fibers, Materials science, QH301-705.5, concretes, QC1-999, Chemicals: Manufacture, use, etc, Bending, Fiber-reinforced concrete, mechanical properties, law.invention, Biomaterials, law, TP890-933, Fiber, Composite material, single fiber pull-out, Biology (General), Reinforcement, Civil and Structural Engineering, Bearing (mechanical), Physics, TP200-248, Textile bleaching, dyeing, printing, etc, Critical value, reinforced concrete, fibers distribution, modelling, numerical models, Durability, Mechanics of Materials, Ceramics and Composites, Fracture (geology)
Abstract

The use of steel fiber reinforced concrete (SFRC) in structures with high physical-mechanical characteristics allows engineers to reduce the weight and costs of the structures, to simplify the technology of their production, to reduce or completely eliminate the manual labor needed for reinforcement, at the same time increasing reliability and durability. Commonly accepted technology is exploiting randomly distributed in the concrete volume fibers with random each fiber orientation. In structural members subjected to bending, major loads are bearing fibers located close to outer member surfaces. The majority of fibers are slightly loaded. The aim of the present research is to create an SFRC construction with non-homogeneously distributed fibers. We prepared layered SFRC prismatic specimens. Each layer had different amount of short fibers. Specimens were tested by four point bending till the rupture. Material fracture process was modelled based on the single fiber pull-out test results. Modelling results were compared with the experimental curves for beams. Predictions generated by the model were validated by 4PBT of 100 × 100 × 400 mm prisms. Investigation had shown higher load-bearing capacity of layered concrete plates comparing with plate having homogeneously distributed the same amount of fibers. This mechanism is strongly dependent on fiber concentration. A high amount of fibers is leading to new failure mechanisms—pull-out of FRC blocks and decrease of load-bearing capacity. Fracture surface analysis was realized for broken prisms with the goal to analyze fracture process and to improve accuracy of the elaborated model. The general conclusion with regard to modelling results is that the agreement with experimental data is good, numeric modelling results successfully align with the experimental data. Modelling has indicated the existence of additional failure processes besides simple fiber pull-out, which could be expected when fiber concentration exceeds the critical value.

Published
2021

16. Opportunities and challenges of text mining in materials research

Author

Gerbrand Ceder, Haoyan Huo, Olga Kononova, Tanjin He, Elsa Olivetti, and Amalie Trewartha

Subjects
0301 basic medicine, Data Analysis, Sociology of scientific knowledge, Computer science, Review, 02 engineering and technology, Materials design, computer.software_genre, Field (computer science), Terminology, 03 medical and health sciences, Text mining, Materials Design, lcsh:Science, Class (computer programming), Multidisciplinary, business.industry, 021001 nanoscience & nanotechnology, Data science, Variety (cybernetics), Information extraction, 030104 developmental biology, Computational Materials Science, lcsh:Q, 0210 nano-technology, business, Computing Methodology, computer
Abstract

Research publications are the major repository of scientific knowledge. However, their unstructured and highly heterogenous format creates a significant obstacle to large-scale analysis of the information contained within. Recent progress in natural language processing (NLP) has provided a variety of tools for high-quality information extraction from unstructured text. These tools are primarily trained on non-technical text and struggle to produce accurate results when applied to scientific text, involving specific technical terminology. During the last years, significant efforts in information retrieval have been made for biomedical and biochemical publications. For materials science, text mining (TM) methodology is still at the dawn of its development. In this review, we survey the recent progress in creating and applying TM and NLP approaches to materials science field. This review is directed at the broad class of researchers aiming to learn the fundamentals of TM as applied to the materials science publications., Graphical Abstract, Data Analysis; Computing Methodology; Computational Materials Science; Materials Design

Published
2021

17. Fluctuating Nonlinear Spring theory: strength, deformability, and toughness of biological nanoparticles from theoretical reconstruction of force-deformation spectra

Author

Aida Llauró, Gabriela N Condenzo, Wouter H. Roos, Kenneth A. Marx, Pedro J. de Pablo, Farkhad Maksudov, Olga Kononova, Gijs J.L. Wuite, Carmen San Martín, Valeri Barsegov, Alvaro Ortega-Esteban, Trevor Douglas, and Molecular Biophysics

Subjects
Toughness, Materials science, 0206 medical engineering, Biomedical Engineering, 02 engineering and technology, Bending, Biochemistry, Article, Biomaterials, Fracture toughness, stomatognathic system, Elastic Modulus, medicine, Humans, Elasticity (economics), Molecular Biology, Elastic modulus, Mechanical Phenomena, Quantitative Biology::Biomolecules, technology, industry, and agriculture, Stiffness, General Medicine, Mechanics, 021001 nanoscience & nanotechnology, 020601 biomedical engineering, Elasticity, Nonlinear Dynamics, Fracture (geology), Nanoparticles, Deformation (engineering), medicine.symptom, 0210 nano-technology, Biotechnology
Abstract

We developed the Fluctuating Nonlinear Spring (FNS) model to describe the dynamics of mechanical deformation of biological particles, such as virus capsids. The theory interprets the force-deformation spectra in terms of the "Hertzian stiffness" (non-linear regime of a particle's small-amplitude deformations), elastic constant (large-amplitude elastic deformations), and force range in which the particle's fracture occurs. The FNS theory enables one to quantify the particles' elasticity (Young's moduli for Hertzian and bending deformations), and the limits of their strength (critical forces, fracture toughness) and deformability (critical deformations) as well as the probability distributions of these properties, and to calculate the free energy changes for the particle's Hertzian, elastic, and plastic deformations, and eventual fracture. We applied the FNS theory to describe the protein capsids of bacteriophage P22, Human Adenovirus, and Herpes Simplex virus characterized by deformations before fracture that did not exceed 10-19% of their size. These nanoshells are soft (~1-10-GPa elastic modulus), with low ~50-480-kPa toughness - a regime of material behavior that is not well understood, and with the strength increasing while toughness decreases with their size. The particles' fracture is stochastic, with the average values of critical forces, critical deformations, and fracture toughness comparable with their standard deviations. The FNS theory predicts 0.7-MJ/mol free energy for P22 capsid maturation, and it could be extended to describe uniaxial deformation of cylindrical microtubules and ellipsoidal cellular organelles.

Published
2020

18. Synthetic Method in Interdisciplinary Terminological Landscape Research of Digital Economy

Author

Dmitriy Prokudin and Olga Kononova

Subjects
business.industry, 05 social sciences, Information technology, Context (language use), 02 engineering and technology, Data science, Terminology, lcsh:Social Sciences, lcsh:H, Explication, Digital humanities, 0202 electrical engineering, electronic engineering, information engineering, 020201 artificial intelligence & image processing, Sociology, Digital economy, 0509 other social sciences, 050904 information & library sciences, business, Curriculum, Categorical variable
Abstract

The science in the digital age focuses on interdisciplinary research as the main driver of the development. Modern studies of semantic and thematic contexts taken from the digital scientific resources are important for tasks of information technology use in science, education, management and business. As a rule, interdisciplinary research emerges in response to the trends in social and economic development. Socio-political and cultural environment has also a great influence on the introduction of new terminology into the scientific discourse. The delay of scientific discourse regarding the public discourse generates problems of both scientific and philosophical nature. Furthermore, those challenges influence the education system, making demands for new curricula and courses, which, among other things, reflect the categorical and conceptual basis of the new subject areas. The actual objective is to reveal the trends in the terminological landscape of developing interdisciplinary research directions. The present study offers the Synthetic Method, which combines various approaches and tools of Digital Humanities. This Method allows using context query for the search for information resources; the context knowledge explication and clarification of the terminological landscape of interdisciplinary scientific direction “Digital Economy: e-governance and smart technology”.

Published
2018

19. Effect of short fibers orientation on mechanical properties of composite material – fiber reinforced concrete

Author

Andrejs Krasnikovs, Arturs Lukasenoks, Videvuds-Arijs Lapsa, Arturs Macanovskis, Vitalijs Lusis, Rimvydas Stonys, and Olga Kononova

Subjects
Building construction, Materials science, Strategy and Management, 0211 other engineering and technologies, 020101 civil engineering, 02 engineering and technology, Bending, Fiber-reinforced concrete, oriented fiber distribution, 0201 civil engineering, law.invention, Structural element, fibers pull-out, law, fiber reinforced concrete, Orientation (geometry), 021105 building & construction, fibers orientation, Fracture (geology), Composite material, Layer (electronics), TH1-9745, Civil and Structural Engineering
Abstract

Traditional fiberconcrete structures have fibres in the mix oriented in all spatial directions, distributed in the struc­tural element volume homogenously, what not easy to obtain in practice. In many situations, structurally more effective is the insertion of fibres into the concrete structural element body by forming layers, with a predetermined fibre concentration and orientation in every layer. In the present investigation, layered fibre concrete is under investigation. Short steel fibres were at­tached to flexible warps with the necessary fibres concentration and orientation. Warps were placed into the prismatic mould separating them by concrete layers without fibres. Prisms were matured and tested under four-point bending. The bending-affected mechanical behaviour of cracked fibre concrete was simulated numerically by using a developed struc­tural model. Comparing the simulation results with experimental data, material micromechanical fracture mechanisms were analysed and evaluated.

Published
2017

20. Sorption recovery of copper (II) and zinc (II) from chloride aqueous solutions

Author

N Olga Kononova, M Alexey Mel’nikov, S Nataliya Karplyakova, A Marina Kuznetsova, and S Yury Kononov

Subjects
Aqueous solution, Ion exchange, Inorganic chemistry, zinc, chemistry.chemical_element, Sorption, Hydrochloric acid, hydrochloric acidic solutions, General Chemistry, Zinc, Copper, Chloride, complex mixtures, lcsh:Chemistry, Ammonia, chemistry.chemical_compound, chemistry, lcsh:QD1-999, anion exchange, copper, anion exchangers, medicine, medicine.drug
Abstract

The present investigation is devoted to simultaneous sorption recovery of copper (II) and zinc (II) ions on some commercial anion exchangers with different physical-chemical properties. The initial concentrations of zinc and copper were 1-3 mmol L-1 and the recovery was carried out in 0.01 M and 2 M hydrochloric acid solutions. It was shown that the investigated anion exchangers possess good sorption and kinetic properties. After the recovery of copper and zinc from strong acidic solutions, their selective elution was carried out by means of 2 M hydrochloric acid solution (zinc recovery) and 2 M ammonia solution (copper recovery). In weak acidic solutions, copper and zinc were separated during sorption, as zinc sorption did not proceed in this case. The subsequent copper (II) elution was carried out by 2 M ammonia solution. The anion exchangers Purolite S985, Purolite A500 and AM-2B can be recommended for zinc and copper recovery from acidic industrial solutions and waste water.

Published
2014

21. Author Correction: Text-mined dataset of inorganic materials synthesis recipes

Author

Vahe Tshitoyan, Tiago Botari, Ziqin Rong, Haoyan Huo, Tanjin He, Wenhao Sun, Olga Kononova, and Gerbrand Ceder

Subjects
Statistics and Probability, Information retrieval, Computer science, Inorganic materials, lcsh:Q, Library and Information Sciences, Statistics, Probability and Uncertainty, lcsh:Science, Computer Science Applications, Education, Information Systems, Correction text
Abstract

An amendment to this paper has been published and can be accessed via a link at the top of the paper.

Published
2019
Full Text
View/download PDF

22. Investigation of influence of nano-reinforcement on the mechanical properties of composite materials

Author

Genadijs Sahmenko, Olga Kononova, Andrejs Krasnikovs, Rimvydas Stonys, and Renars Vitols

Subjects
Cement, Building construction, Materials science, Strategy and Management, Composite number, 0211 other engineering and technologies, cement matrix, fibre concrete, 02 engineering and technology, Carbon nanotube, Finite element method, pull-out, law.invention, nano admixture, 020303 mechanical engineering & transports, 0203 mechanical engineering, Flexural strength, law, 021105 building & construction, Nano, Ultimate tensile strength, Composite material, TH1-9745, Civil and Structural Engineering, Shrinkage
Abstract

The present work studies the possibility to decrease the formation of micro and nano cracks around short fibres in fibre-reinforced concrete (FRC) composite with the help of nano-reinforcement, which is carbon nanotubes, or micro reinforcement, which is carbon short fibres and nano-fillers. Tensile and bending strength of FRC depends on the spatial distribution of fibres inside a material, type of fibre and cement matrix, as well as an effective micromechanical work of each fibre while pulling out of the concrete matrix. Shrinkage stresses, acting in the matrix in the vicinity of a fibre, lead to the formation of micro-cracks. Such micro-cracks were observed experimentally and were investigated numerically performing broad modelling based on the finite element method (FEM). The investigation was focused on the micromechanical behaviour of a single steel fibre in a cement matrix. Numerical modelling results demonstrated a high level of shrinkage overstresses around steel fibres in concrete. The role of nano and micro admixtures, nanotubes, short carbon fibres as well as the role of water/cement ratio in a high performance concrete matrix, changing (increasing or decreasing) the friction force between the matrix and the steel fibre, were investigated experimentally by way of per­forming a single fibre pull-out tests. The high scatters of experimental results were obtained in performed pull-out tests. At the same time, for the same series of samples, a positive role of micro and nano admixtures and carbon nanotubes in the increase of pull-out force was recognised.

Published
2016

23. Mechanical Properties of Glass Fiber Composites Reinforced by Textile Fabric

Author

Galina Harjkova, Vladislav Yevstignejevs, Olga Kononova, Andrejs Krasnikovs, and Arturs Macanovskis

Subjects
Stress (mechanics), Materials science, Tension (physics), Composite number, Glass fiber, Elastic properties, glass fiber, polymer matrix, yarn, Fiber, Composite material, Size effect on structural strength, Finite element method, Structural element
Abstract

Interest to structural application of textile reinforced polymer matrix composite materials (CM) is growing during last years. In different branches of machine building, aerospace, automotive and others industries we can find structural elements preferably be produced using such reinforcement. At the same time, such materials are exhibiting elastic and strength properties scatter. In the framework of the present investigation, we observe yarn penetrated by a resin in a composite as a reinforcing “macro” fiber. Such “macro” fiber mechanical properties were measured experimentally, for this purpose was produced and was tested by tension until fracture fiber samples, having different length. Then was elaborated and was realized structural strength probabilistic model. In the textile geometry, was picked out repeating structural element – polymer matrix volume with two curved “macro” fiber’s chunks inside it. Complete composite material volume is possible to represent as a set of repeating structural elements. External loads application leads to disperse structural elements failure. Neighboring to ruptured elements are overloaded leading to higher probability to fail for them. Using FEM was modeled stress state in “macro” fibers inside CM. Then, was numerically obtained stress distribution in composite material, having different number of broken loops. Probabilities of different numbers of failed elements were calculated. Strength probability function, based on Weibull approach was obtained. CM samples were tested under tension and obtained results were compared with numerical modeling as well as were analyzed.

Published
2015

26. Structural Molecular Origins of Fibrin Mechanics

Author

Olga Kononova, Yuriy F. Zuev, Artyom Zhmurov, John W. Weisel, Rustem I. Litvinov, Dzhigangir A. Faizullin, and Valeri Barsegov

Subjects
Phase transition, Materials science, biology, Biophysics, Linear regime, Protein aggregation, Fibrinogen, Fibrin, Crystallography, biology.protein, medicine, Functional significance, Deformation (engineering), medicine.drug
Abstract

The mechanical properties of fibrin are essential to stop bleeding but also contribute to obstructive thrombi that cause heart attack and stroke. The deformation of fibrin polymer occurs at different spatial scales, including molecular unfolding, which is relatively unexplored. Here, the AFM-induced unfolding of fibrinogen monomers and oligomers was correlated with force-extension curves obtained using MD simulations. The unraveling of fibrin(ogen) comprised reversible extension-contraction of the α-helical coiled-coils and unfolding of the γ-nodules, which occurred at a ∼90-pN force and ∼25-nm peak-to-peak distance. All-atom MD simulations showed a transition from α-helix to β-sheet at higher extensions, confirmed experimentally by FTIR-spectroscopy of deformed fibrin clots. The α-to-β conversions correlated directly with the strain or pressure and were partially reversible at the conditions applied. The spectra characteristics of the nascent inter-chain β-sheets were consistent with protein aggregation and fiber bundling. Further MD studies revealed that the coiled-coils undergo ∼5-50 nm extension and 360-degree unwinding with three distinct regimes. In the linear regime, the coiled-coils unwind but not unfold. In the plastic regime, the triple α-helical segments rewind and re-unwind while undergoing a non-cooperative phase transition to form parallel β-sheets. We conclude that, under extension and/or compression, α-to-β conversion of the coiled-coils occurs in fibrin as a part of forced protein unfolding. These regimes of forced deformation of fibrin provide important qualitative and quantitative characteristics of the molecular mechanisms underlying fibrin mechanical properties at the microscopic and macroscopic scales. Furthermore, these structural characteristics of the dynamic mechanical behavior of fibrin at the nanometer scale determine whether or not clots have the ability to stanch bleeding and if thrombi become obstructive or embolize. Finally, this knowledge of the functional significance of different domains of fibrin(ogen) suggests new approaches for modulation of these properties as potential therapeutic interventions.

Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results