Showing total 4,238 results

51. Optical analysis of MoS2 and its hybrid sheets.

Author

Siddiqui, Moin Ali, Ahmed, Shahzad, Ansari, Arshiya, Varshney, Ghanshyam, Banerjee, Amitava, Negi, Devendra Singh, and Ranjan, Pranay

Subjects

*VAN der Waals forces, *HYBRID materials, *ADHESIVE tape, *SILICON wafers, *RAMAN spectroscopy, *MOLYBDENUM disulfide

Abstract

The technique of micro-exfoliation has gained prominence as a highly effective and adaptable method for exploiting two-dimensional (2D) materials, such as graphene Transition metal dichalcogenides (TMDCs), Borophene, Molybdenum disulfide (MoS2), among others. This paper presents an analysis of optical images and the micro exfoliation technique, focusing on the application to MoS2 and graphene. Additionally, the study investigates the exfoliated sheet of graphene, MoS2, and their hybrid on a (111) crystal plane of silicon wafer. The micro-exfoliation technique employed for MoS2 involves a mechanical process that gently disentangles the layers of MoS2 from the larger crystal structure, resulting in the formation of ultrathin two-dimensional nanosheets. This paper comprehensively analyses the exfoliation processes' mechanisms, emphasizing the intricate relationship between van der Waals forces, interlayer bonding, and external forces. The micro-mechanical exfoliation, a fundamental technique, entails the utilization of adhesive scotch tape to remove monolayers from a large MoS2 crystal delicately. The integration of MoS2 into various applications such as electronics, optoelectronics, sensors, and energy storage devices has been driven by its exceptional properties, including its distinctive electronic, optical, and mechanical characteristics. Furthermore, the ability to adjust the bandgap of MoS2 has created novel opportunities for potential applications in the field of semiconductors. This paper provides a succinct summary of recent studies, that have concentrated on the optical characterization of MoS2 monolayers. Optical and Raman spectroscopy was employed to characterize the 2D sheets of MoS2 and its hybrid materials. [ABSTRACT FROM AUTHOR]

Published

2024

52. Fabrication of paper-based microfluidic device by recycling foamed plastic and the application for multiplexed measurement of biomarkers.

Author

Guo, Xiaoyan, Guo, Yumei, Liu, Wei, Chen, Ying, and Chu, Weiru

Subjects

*PLASTIC foams, *PLASTIC recycling, *MICROFLUIDIC devices, *ADHESIVE tape, *FLUIDICS, *CARCINOEMBRYONIC antigen, *HYDROPHOBIC surfaces

Abstract

Microfluidic paper-based analytical devices (μPADs) are emerging as effective analytical platforms for point-of-care assays in resource-limited areas. Simple and cost-effective fabrication method still remains challenging on μPADs. A simple and cost-effective method for fabricating paper-based devices was presented in this work by using of dipping strategy with the recycled polystyrene in chloroform as the hydrophobic reagent. Adhesive tape was employed as mask to transfer the hydrophilic channel pattern to the paper substrate. With the single-sided adhesive tape stuck on the hydrophilic parts of the paper surface, the paper-based device was immersed in chloroform solution with dissolving recycling polystyrene for several seconds. Then the hydrophilic pattern can be achieved and all the other parts on the paper surface were hydrophobic. The adhesive tape was torn off from the hydrophilic parts. The highest contact angle value of 114° of the hydrophobic part was acquired with this simple fabrication method. By using of the sandwich-type immunoreactions and luminol-H 2 O 2 p -iodophenol (PIP) chemiluminescence(CL) system, three cancer biomarkers were simultaneously detected in human serum samples on μPADs with the linear range of 0.05–80.0 ng·mL−1 for carcinoembryonic antigen (CEA), 5.0–80.0 ng·mL−1 for alpha-fetal protein (AFP) and 1.0–50.0 ng·mL−1 for prostate-specific antigen (PSA). The fabricating strategy with recycling polystyrene and adhesive tape provides a versatile platform for prototyping of μPADs in both developed and resource constrained region. Unlabelled Image • A new fabrication method was developed for μPAD with dipping strategy. • Recycling polystyrene in chloroform was used as the hydrophobic dipping reagent. • The adhesive tape was used as the hydrophilic mask of the μPADs. • Three cancer biomarkers were simultaneously detected in human serum on the μPAD. [ABSTRACT FROM AUTHOR]

Published

2019

53. Análisis de las prácticas enfermeras en relación a la fijación de las agujas de hemodiálisis en España.

Author

Liébana-Pamos, Beatriz, Quesada-Armenteros, Mª Trinidad, Sesmero-Ramos, Carolina, and Ochando-García, Antonio

Subjects

CROSS-sectional method, NURSES, WORK, PATIENT safety, QUESTIONNAIRES, HEMODIALYSIS, HEMODIALYSIS facilities, DESCRIPTIVE statistics, ARTERIOVENOUS fistula, NURSING practice, RESEARCH methodology, NURSES' attitudes, HYPODERMIC needles, SOCIODEMOGRAPHIC factors, EXPERIENTIAL learning, ADHESIVE tape

Abstract

Copyright of Enfermería Nefrológica is the property of Sociedad Espanola de Enfermeria Nefrologica 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

2024

54. Study on Recovery Time of Conduction-Cooled Resistive Superconducting Fault Current Limiter.

Author

Kozak, Janusz

Subjects

SUPERCONDUCTING fault current limiters, FAULT current limiters, ADHESIVE tape, FAULT currents, ATHLETIC tape

Abstract

This paper presents the influence of superconducting tape insulation on the recovery time of superconducting fault current limiters. The analysis is based on the experimental results of short-circuit tests. The reduction in the thermal and dynamic effects of the passage of a fault current can be achieved by limiting the short-circuit time and the value of the surge current. An ideal fault current limiter is required to have almost zero impedance at operating currents and significant impedance at fault conditions. A superconducting fault current limiter (SFCL) meets these requirements under certain conditions. The recovery time—a very important parameter—shows the ability of the limiter to return to the superconducting state to be ready to limit the subsequent short circuit. The experimental results show that the recovery time can be significantly reduced with the application of thin-film insulation and an appropriate design of the conduction cooling of the HTS tape. [ABSTRACT FROM AUTHOR]

Published

2024

55. BRAINDUMP.

Subjects

MARTIAN atmosphere, NOCICEPTORS, LIQUID carbon dioxide, ADHESIVE tape

Abstract

This article from How It Works provides concise answers to a variety of questions. It discusses topics such as freshwater sharks, the difference in buzzing sounds between flies and wasps, the potential for shale gas to cause taps to catch fire, why paper cuts hurt, the loud banging sound of CT scanners, the composition of toothpaste, the natural pressure of air at different altitudes, how cement binds bricks together, why cling film is sticky, the meaning of "squeakyclean," why some people are good at math, planetary alignments in our solar system, the possibility of life on Mars, why we don't forget how to ride a bike, why the sea appears bluer in the Caribbean, the implications of a different speed of light, the importance of properly disposing of fridges, how coffee is decaffeinated, and more. The article provides factual information without adopting any particular judgments or biases. [Extracted from the article]

Published

2024

56. Controlling Capillary Flow Rate on Lateral Flow Test Substrates by Tape.

Author

Xiao, Zhiqing, Yang, Yuqian, Zhang, Xingwei, Guo, Weijin, Zhang, Yi, Fan, Shih-Kang, and Liu, Xinyu

Subjects

CAPILLARY flow, ADHESIVE tape, POROUS materials, NITROCELLULOSE

Abstract

Controlling capillary flow rate of sample liquid is of high interest for lateral flow tests, since the flow rate can affect the dissolution and mixing of the immunoreagents and the efficiency of immunoreactions. Here we develop a facile method to adjust the capillary flow rate on lateral flow test substrates by using tape to cover the surface of substrates. We test this method on the traditional lateral flow test substrate—nitrocellulose and a novel lateral flow test substrate—synthetic paper, which is a porous media made by interlocked off-stoichiometry thiol-ene (OSTE) micropillars. We found that after the surface was covered by tape, the average flow rate decreased to 61% of the original flow rate on nitrocellulose, while the average flow rate increased to at least 320% of the original flow rate on synthetic paper. More interesting, besides the increase of flow rate, the volume capacity of synthetic paper also increases after covered by tape. Furthermore, we investigated the influence of length and position of tape on the capillary flow rate for nitrocellulose. A longer tape will lead to a smaller flow rate. The influence of tape of same length on the flow rate is bigger when the tape is placed closer to the loading pad. These results can help in the flow rate control on lateral flow test substrates, and potentially improve the performance of lateral flow tests. [ABSTRACT FROM AUTHOR]

Published

2021

57. Numerical simulation of mechanical properties of epiretinal membrane peeling.

Author

Han, Shaofeng, Yang, Xiaohan, Yang, Yang, Zheng, Yu, Liu, Wu, and Du, Dongmei

Subjects

YOUNG'S modulus, POLYMERIC membranes, COMPUTER simulation, ADHESIVE tape, RETINA

Abstract

An epiretinal membrane (ERM) is a fibrocellular proliferation on the inner surface of the retina causing blurred and distorted central vision. Surgery is the only effective method for ERM removal. This paper investigated the mechanical properties of ERM peeling using the finite element (FE) method. A FE model of ERM formation on the retina surface was constructed. The failure criterion was applied to the attachment pegs to represent the adhesive force between the ERM and retina. The simulation results were consistent with the experimental data in published research. The maximum peeling force was 4.1 mN at a peeling velocity of 2 mm/s and an angle of 30°. The peeling force was minimum at the peeling angle of 45° and increased with the increase in peeling velocity and Young's modulus of the membrane. The outcome of this paper can improve the safety and efficiency of ERM removal. [ABSTRACT FROM AUTHOR]

Published

2024

58. Roll-Out Deployment Process Analysis of a Fiber Reinforced Polymer (FRP) Composite Tape-Spring Boom.

Author

Wang, Sicong, Xu, Shuhong, Lu, Lei, and Sun, Lining

Subjects

AEROSPACE technology, POLYMERS, ADHESIVE tape, VELOCITY, DYNAMIC models

Abstract

Deployable extendable booms are widely used in aerospace technology due to many advantages they have, such as high folded-ratio, lightweight and self-deployable properties. A bistable FRP composite boom can not only extend its tip outwards with a corresponding rotation speed on the hub, but can also drive the hub rolling outwards with a fixed boom tip, which is commonly called roll-out deployment. In a bistable boom's roll-out deployment process, the second stability can keep the coiled section from chaos without introducing a controlling mechanism. Because of this, the boom's roll-out deployment velocity is not under control, and a high moving speed at the end will give the structure a big impact. Therefore, predicting the velocity in this whole deployment process is necessary to be researched. This paper aims to analyze the roll-out deployment process of a bistable FRP composite tape-spring boom. First, based on the Classical Laminate Theory, a dynamic analytical model of a bistable boom is established through the energy method. Afterwards, an experiment is introduced to produce some practical verification for comparison with the analytical results. According to the comparison with the experiment, the analytical model is verified for predicting the deployment velocity when the boom is relatively short, which can cover most booms using CubeSats. Finally, a parametric study reveals the relationship between the boom properties and the deployment behaviors. The research of this paper will give some guidance to the design of a composite roll-out deployable boom. [ABSTRACT FROM AUTHOR]

Published

2023

59. Adhesive Properties of Silicone-Coated Release Liner Paper Enhanced by Atmospheric Pressure Plasma Pre- and Post-Treatment.

Author

Kelar Tučeková, Zlata, Galmiz, Oleksandr, Kelar, Jakub, Kováčik, Dušan, Stupavská, Monika, Šrámková, Petra, Zemánek, Miroslav, Vallade, Julien, and Černák, Mirko

Subjects

ATMOSPHERIC pressure, X-ray photoelectron spectroscopy, NITROGEN plasmas, ATMOSPHERIC nitrogen, BULK solids, SCANNING electron microscopy, ADHESIVE tape, COPLANAR waveguides

Abstract

For release-liner preparation, coating stabilization of the silicone layer on base paper often requires pre- and post-treatment. In this study, we used atmospheric pressure diffuse coplanar surface barrier discharge in roll-to-roll configuration. The results of prepared coating showed that the A4 size clay-coated paper sprayed with silicone oil (0.25–0.50 mL) gradually decreased the tape peeling force (180°) with prolonged and repeated air plasma post-treatment. Best results showing increased hydrophobicity and significantly enhanced release factor of the coating were obtained after the plasma treatment in a nitrogen atmosphere. The silicone coating on the clay-coated paper reduced the reference release force from 5.5 N/cm to less than 1.5 N/cm after the repeated silicone spraying and short nitrogen plasma post-treatment. The results of X-ray photoelectron spectroscopy and scanning electron microscopy indicate silicone curing by plasma post-treatment and pore-closing of base paper without changes of the bulk material. The aging test lasting 3 months revealed the stability of the prepared coating. [ABSTRACT FROM AUTHOR]

Published

2020

60. Trajectory optimization for automated tape placement on triangular mesh surfaces considering gap requirements.

Author

Zhang, Peng, Li, Yuyu, Tang, Kejun, Yin, Lairong, Huang, Long, and Wang, Hongbing

Subjects

TRAJECTORY optimization, OPTIMIZATION algorithms, ADHESIVE tape, PRODUCT quality

Abstract

Automated tape placement (ATP) is an important automated process adopted for the fabrication of large composite components. Trajectory planning is the key link of ATP, which directly affects the precision and efficiency of the layup process and the quality of final products. Presently, most existing trajectory optimization methods for ATP focus on smooth surfaces. Nevertheless, as commercial CAD/CAM software generally uses NURBS (Non-uniform Rational B-Splines) for modelling, the difficulty of finding the solution and the low efficiency associated with the calculation process are inevitable. The discrete methods provide alternatives for designing layup trajectories, whereas their accuracy is seldom analysed. Furthermore, a path optimization algorithm for eliminating gap problems while preventing wrinkles on discrete models is rarely reported. In this paper, the adjustment of layup trajectories for ATP is considered on triangular meshes. First, the triangular mesh is reconstructed as a Nagata patch to recover the original geometry with good accuracy. Then, a numerical method for tracing desired paths on the Nagata patch set is provided and the computation efficiency is validated. Next, two optimization methodologies are proposed to improve the layup of composite tapes while avoiding wrinkles. Finally, the presented two strategies are examined on a discrete hyperbolic surface and a discrete freeform surface and some of the results are delivered. [ABSTRACT FROM AUTHOR]

Published

2024

61. Investigation of an Effective Anchoring Length of CFRP Tapes Used to Strengthen Steel Thin-Walled Beams with a Rectangular Cross-Section Subjected to Four-Point Bending.

Author

Szewczak, Ilona, Snela, Malgorzata, and Rozylo, Patryk

Subjects

COMPOSITE construction, STEEL, REINFORCING bars, FIBROUS composites, CARBON composites, ADHESIVE tape, CARBON fibers

Abstract

In order to design an optimal reinforcement of steel thin-walled beams with composite materials, it is worth analyzing two important, although often overlooked issues, which are the selection of the appropriate thickness of the adhesive layer and the effective anchoring length of the composite tape. This paper, which is part of a wider laboratory study devoted to the strengthening of thin-walled steel profiles, focuses on the second issue. The paper involves a description of laboratory four-point bending tests during which ten thin-walled steel beams made of a rectangular section with dimensions of 120 × 60 × 3 and a length of 3 m were tested. Two beams were taken as reference beams, and the other eight were reinforced using Sika CarboDur S512 carbon fiber composite tape, assuming four different effective anchorage lengths. The impact of the length of the anchoring of the composite tape on the value of the displacements and strains of the tested beams and on the value of the destructive load that caused tape detachment was analyzed. The following phase was numerical analyses carried out in the Abaqus program, which showed high consistency with the results of laboratory tests. In reference to the conducted tests, it was observed that the increase in the anchoring length of the composite tape has a slight impact on the change in the value of strains and displacements in the tested beams. Nevertheless, the increase in the effective anchorage length has a significant impact on the load value at which the composite tapes are detached from the surface of the steel thin-walled beam. [ABSTRACT FROM AUTHOR]

Published

2023

62. PPG2EMG: Estimating Upper-Arm Muscle Activities and EMG from Wrist PPG Values.

Author

Okamoto, Masahiro and Murao, Kazuya

Subjects

WRIST, HUMAN activity recognition, ACTION potentials, MUSCLE fatigue, ADHESIVE tape, ARM muscles

Abstract

The electromyogram (EMG) is a waveform representation of the action potential generated by muscle cells using electrodes. EMG acquired using surface electrodes is called surface EMG (sEMG), and it is the acquisition of muscle action potentials transmitted by volume conduction from the skin. Surface electrodes require disposable conductive gel or adhesive tape to be attached to the skin, which is costly to run, and the tape is hard on the skin when it is removed. Muscle activity can be evaluated by acquiring muscle potentials and analyzing quantitative, temporal, and frequency factors. It is also possible to evaluate muscle fatigue because the frequency of the EMG becomes lower as the muscle becomes fatigued. Research on human activity recognition from EMG signals has been actively conducted and applied to systems that support arm and hand functions. This paper proposes a method for recognizing the muscle activity state of the arm using pulse wave data (PPG: Photoplethysmography) and a method for estimating EMG using pulse wave data. This paper assumes that the PPG sensor is worn on the user's wrist to measure the heart rate. The user also attaches an elastic band to the upper arm, and when the user exerts a force on the arm, the muscles of the upper arm contract. The arteries are then constricted, and the pulse wave measured at the wrist becomes weak. From the change in the pulse wave, the muscle activity of the arm can be recognized and the number of action potentials of the muscle can be estimated. From the evaluation experiment with five subjects, three types of muscle activity were recognized with 80+%, and EMG was estimated with approximately 20% error rate. [ABSTRACT FROM AUTHOR]

Published

2023

63. DIY Seed Tape.

Author

Feldman, Sam

Subjects

ORNAMENTAL plants, DO-it-yourself work, ADHESIVE tape, SOWING

Abstract

This article from Mother Earth News provides a do-it-yourself method for sowing seeds precisely using seed tape. Seed tape is a strip of paper with pre-spaced seeds glued inside, which biodegrades when planted. The process of making your own seed tape saves time and seeds, allowing for more efficient planting and less thinning. The article provides step-by-step instructions on how to create the seed tape using common household items. It also offers tips on storing the seed tape for long-term use and provides suggestions for using seed tape in square-foot gardens or with companion plants. [Extracted from the article]

Published

2024

64. Improved cross-border relevance through integrated interventions: the TAPE tool of the INTERREG V-A Slovakia-Hungary Programme.

Author

Ocskay, Gyula

Subjects

*LABOR market, *CONSTRUCTION planning, *ATHLETIC tape, *NONGOVERNMENTAL organizations, *CITIES & towns, *ADHESIVE tape

Abstract

The paper presents the first outcomes and results of using an integrated territorial tool applied by the Interreg V-A Slovakia-Hungary Cooperation Programme (2014–2020), the 'Territorial Action Plan for Employment', or, briefly: the TAPE. The tool is aimed at facilitating quality employment and cross-border labour mobility through the implementation of 2–7 interdependent projects within a geographically defined subregion of the programme area, with the involvement of SMEs, training institutions, NGOs and municipalities. The author introduces the tool and the nine TAPEs financed by the CBC programme and gives a comprehensive assessment of their outcomes and results from the points of view of cross-border labour market development, integrated soft planning and trust building with a special focus on the aspect of cross-border relevance. The study concludes that the tool does not meet the preliminary expectations: its cross-border relevance is not much stronger than the traditional standalone CBC projects. At the same time, the bottom-up cross-border planning exercise has significant added value which might make the tool attractive for other CBC programmes, too. [ABSTRACT FROM AUTHOR]

Published

2024

65. Optimization of crystal violet technique for enhanced fingerprint detection on various surfaces.

Author

Gülekçi, Yakup and Tülek, Ahmet

Subjects

*FORENSIC fingerprinting, *APPLIED sciences, *GENTIAN violet, *ALUMINUM foil, *ADHESIVE tape, *FORENSIC sciences, *RHODAMINE B

Abstract

The crystal violet (CV) staining technique represents a prevalent approach for the development of latent fingerprints, especially on adhesive tape surfaces. Nevertheless, the technique necessitates intricate formulations to augment its performance. In this investigation, an optimized CV staining protocol was developed, characterized by the absence of residual dye on the target substrates and the capability of facilitating fingerprint visualization under ambient light conditions. Four donors, comprising two males and two females, deposited natural fingerprints on various substrates, including glass microscope slides, aluminum foil, and 115 g glossy coated paper, without any specific guidelines. Fingerprints developed using cyanoacrylate fuming served as benchmarks and were contrasted with those generated through alternative methods: CV, ardrox, rhodamine 6G, powdering, and the optimized CV staining protocol. The fingerprint development experiment was replicated at seven distinct time intervals, encompassing 1 day, 1 week, 1, 3, 6, 9, and 12 months, resulting in a dataset of 420 fingerprints. The evaluation of fingerprint identifiability employed a scoring system established by the Home Office Centre for Applied Science and Technology. The results indicated that the optimized CV staining technique demonstrated superior performance, boasting a 92.9% rate of identifiable fingerprint development in contrast to other employed methodologies. Consequently, this optimized CV staining approach is recommended as an efficient, rapid, and straightforward critical dyeing method, applicable to a wide array of substrates in forensic investigations. [ABSTRACT FROM AUTHOR]

Published

2024

66. Changes in the Rheological and Adhesive Properties of Epoxy Resin Used in the Technology of Reinforcement of Structural Elements with CFRP Tapes.

Author

Szewczak, Andrzej

Subjects

EPOXY resins, RHEOLOGY, ADHESIVE joints, ADHESIVES, CARBON nanotubes, ADHESIVE tape, SONICATION

Abstract

Nowadays, FRP composites are widely applied in the construction industry. Their inherent characteristics are used to strengthen structural elements made of various materials and to increase their durability. The following paper contains the results obtained in a conducted research program aimed at determining the ability to improve the durability of epoxy resin modified with the sonication process, microsilica and carbon nanotubes. The adhesive modified was used to adhere a CFRP tape to a concrete surface. Changes in the viscosity, physicochemical parameters and adhesion of the resin were studied. Selected parameters of the concrete substrate prepared using the sandblasting method, determined with the contact profilometry, were also taken into account. During the tests, attention was paid to the thorough execution and preparation of the samples. As a result of the research, it was demonstrated that the adhesion of the modified epoxy adhesive to concrete could be increased by approximately 28% in the case of the addition of carbon nanotubes and by up to 66% in the case of the addition of microsilica. The modifications used, in addition to increasing the adhesion of the resin to the concrete substrate, were also aimed at reducing the weakening of the adhesive joints caused by oxidation of the resin over time. The results obtained will serve as a basis for evaluating the possibility of their use in the practical reinforcement of structural reinforced-concrete elements. [ABSTRACT FROM AUTHOR]

Published

2023

67. Fluorescent‐Dye‐Doped Nanoporous Silica Powder for Imaging of Latent Fingerprints (Levels 1–3) and Case Studies.

Author

Singh, Prabhpreet and Kumar, Sanjeev

Subjects

FORENSIC fingerprinting, POROUS silica, HUMAN fingerprints, POWDERS, CERAMIC tiles, ADHESIVE tape, FLUORESCENT dyes

Abstract

Novel naphthalimide based fluorescent dye NI‐1 possess (i) high quantum yield, (ii) blue emission (λem=450 nm), (iii) CIE coordinate (x=0.21, y=0.35) with 39 % blue colour purity in solid state, (iv) photochemical and thermal stability up to 200 oC and (v) low cytotoxicity to normal cells L929. NI‐1 was doped in nano porous silica and used as fluorescent powder for imaging of latent fingerprints (LFPs) on coloured surfaces, barcode, wood, brick, leaf and engraved steel beside other common household porous and nonporous surfaces. We demonstrated visibility of levels 1–3 on ceramic tile, glass, paper, steel, iron and compact disc using NI‐1 doped fluorescent silica powder. Furthermore, LFPs developed with NI‐1 were successfully lifted from different surfaces using adhesive tape for documentation and archiving purposes. To mimic the automated fingerprint identification system (AFIS), we manually screened fingerprints from 16 subjects to identify the unknown subject. The unique minutiae points such as long hook, opposite bifurcation, crossbar, cross over, dock, triple bifurcation, lake and spikes were observed beside other 16 minutiae points. [ABSTRACT FROM AUTHOR]

Published

2023

68. Lascaux Adhesives in Objects Conservation: Three Practical Case Studies on Leather, Skin, and Entomological Specimens.

Author

Ritchie, Fran and Palumbo, Bethany

Subjects

ADHESIVE tape, LEATHER, ADHESIVES, FILLER materials, GOLDEN eagle, TAXIDERMY

Abstract

Copyright of Journal of the American Institute for Conservation is the property of Taylor & Francis Ltd 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

2023

69. Dual‐band Ganesha‐shaped semi‐transparent antenna for vehicular applications.

Author

Borah, Pranjal

Subjects

ANTENNAS (Electronics), ANTENNA design, ASTROPHYSICAL radiation, ADHESIVE tape, RADIATION measurements, FREE-space optical technology, MICROSTRIP antennas

Abstract

In this paper, work on a Ganesha‐shaped semi‐transparent patch antenna is presented for its use in vehicular application. The design of the antenna is opted from a commercially available Ganesha sticker that is mostly placed on the vehicle's window panes as a symbol of an auspicious deity. The geometry of the sticker without any variation in its dimension is made to work as an antenna. The antenna is fabricated using adhesive copper tape on a glass slab backed by an AgHT‐8 transparent conducting sheet which acts as the ground plane. Microstrip inset feeding technique is used to excite the patch and its return loss performance and free space radiation pattern measurements are carried out. Measured results show promising performances that can be used in future vehicular applications and are in good comparison with that of the simulated results. [ABSTRACT FROM AUTHOR]

Published

2023

70. To improve dipstick diagnostic and environmental tests, just add tape.

Subjects

CHEMICAL reagents, INDICATORS & test-papers, ADHESIVE tape, CHEMICAL testing, ANALYTICAL chemistry

Abstract

The article reports on a study which proposed a new way to make low-cost paper-strip testing devices more versatile and reliable for analyzing both liquid and solid samples using adhesive tape. The study published in the journal "ACS Applied Materials & Interfaces." Under the study, researchers drew chemical symbols onto an adhesive tape using indicator inks that change colour when they react with specific substances.

Published

2017

71. The conservation of a 19th century framed miniature portrait painted on ivory

Author

Violeta Machado Prin

Subjects

miniature, portrait, ivory, painting, adhesive tape, paper, Fine Arts, Arts in general, NX1-820

Abstract

This article addresses the conservation treatment of a 19th century framed miniatured portrait painted on ivory. The object was in poor condition, with all the pieces necessary to hold the object separated and with the attempt of securing these parts with brown and clear adhesive tape. This article addresses the condition of the object and consequently, the treatments undertaken for its conservation: tape removal procedure with heat and solvents; paper mending and repairs; cleaning process of the back of the painting and remounting process of the frame with appropriate conservation materials to strengthen it and provide stability.

Published

2018

72. Precise area determination of skin-prick tests: validation of a scanning device and software for a personal computer.

Author

Poulsen, L. K., Lusberg, C., Bindslev-Jensen, C., and Malling, H. -J.

Subjects

SKIN tests, PERSONAL computers, PAPER, COMPUTERS, FIBERS, ADHESIVE tape

Abstract

When skin-prick tests (SPTs) are used quantitatively, the circumference of the weal and/ or the flare is outlined using a felt tip pen. and transferred to paper by adhesive tape. The aim of the study was to develop and validate a procedure, objectively and precisely determining these areas after transfer to paper. A system was developed enabling the drawing of the area of weal or flare to be read by a hand-held scanner and calculated on a personal computer. Areas in the 5-500 mm2 range could be determined with day-to-day and interoperator coefficients of variation (CVs) of 3.1% and 1.8%, respectively. Accuracy was determined in two ways: by correlation to cutting/weighing of four times enlarged SPT areas (r2 = 0-999, P<0.001) and by measuring standardized areas (deviations less than intra-assay CV, i.e. 1.2%). For comparison, CVs of alternative methods were also determined: eight different areas (9-76 mm-) were evaluated in quadruplicate using the SPT-scanner (CV=l-4%). by cutting/weighing of paper (CV = 2.3%), by digitizing (CV = 4.4%) or by measuring longest and orthogonal diameters (CV= 13.6%). In conclusion, the scanning device and software provides an objective and reproducible procedure for rapid determination of SPT areas. When areas are determined by scanning, digitizing or cutting/weighing the variations in area determination becomes negligible compared to the variations of the entire skin test procedure. [ABSTRACT FROM AUTHOR]

Published

1993

73. Double your packing output with innovative expanding paper void fill.

Subjects

PACKAGING waste, CIRCULAR economy, PLASTICS in packaging, ADHESIVE tape, PLASTIC scrap

Published

2023

74. A Review of Clothing Components in the Development of Wearable Textile Antennas: Design and Experimental Procedure.

Author

Tsolis, Aris, Bakogianni, Sofia, Angelaki, Chrysanthi, and Alexandridis, Antonis A.

Subjects

WEARABLE antennas, ANTENNA design, TEXTILE design, WEARABLE technology, EXPERIMENTAL design, ADHESIVE tape, TEXTILE technology

Abstract

Wearable antenna systems have attracted significant research efforts during the last decade and a rich pool of review papers can be found in the literature. Each scientific work contributes to various fields of wearable technology focusing, mainly, on constructing materials, manufacturing techniques, targeting applications, and miniaturization methods. In this review paper, we examine the use of clothing components in wearable antenna technology. By the term "clothing components" (CC), dressmaking accessories/materials such as buttons, snap-on buttons, Velcro tapes, or zips are considered. In light of their utilization in the development of wearable antennas, the clothing components can play a triple role: (i) that of a clothing item, (ii) that of an antenna part or the main radiator, and (iii) that of an integration means of the antennas into clothes. One of their advantages is that they consist of conductive elements, integrated into the clothes, which can be effectively exploited as operating parts of wearable antennas. This review paper includes classification and description of the clothing components used so far in the development of wearable textile antennas with an emphasis on designs, applications and performance. Furthermore, a step-by-step design procedure for textile antennas that use clothing components as a functional part of their configuration is recorded, reviewed, and described in detail. The design procedure takes into account the detailed geometrical models required for the clothing components and the way they are embedded into the wearable antenna structure. In addition to the design procedure, aspects of experimental procedures (parameters, scenarios, and processes) that should be followed in wearable textile antennas with an emphasis on antennas that use clothing components (e.g., repeatability measurements) are presented. Finally, the potential of textile technology through the application of clothing components into wearable antennas is outlined. [ABSTRACT FROM AUTHOR]

Published

2023

75. PROJECT BOX KITE.

Subjects

KITES, ADHESIVE tape, BIRD flight

Abstract

Omit the tail-loop string, and glue several shorter paper streamers to the kite. WHAT YOU NEED Three 610 mm sticks of 10x3 mm timber strip Decorative wrapping or tissue-paper String Balsa cement Towing ring Adhesive paper GLO:hacq/01apr23:42n1.jpg DIAGRAM: PROJECT BOX KITE gl WHAT TO DO Assembling and covering the framework Cut 3 mm deep notches (see diagram B) across both ends of each stick. Glue a strip directly to the tail loop, and glue on more strips to make up the length. [Extracted from the article]

Published

2023

76. Patent Application Titled "Modular Medical Dressing" Published Online (USPTO 20240164949).

Subjects

PATENT applications, INTERNET publishing, ADHESIVE tape, MEDICAL personnel, INTRAVENOUS therapy

Abstract

A patent application titled "Modular Medical Dressing" has been published online by the US Patent and Trademark Office. The inventors, Aashish Ahuja, Manish Kumar, Praveen Nalawade, and Shishir Prasad, have developed a modular medical dressing that includes a layered dressing arrangement with tearable portions to reduce the surface area. This dressing is intended to secure IV catheters and prevent contamination. The dressing is transparent and made from polyurethane, with a backing layer made of paper and a release layer that can also be used as securement tape. The patent application provides detailed descriptions and claims for the invention. [Extracted from the article]

Published

2024

77. P‐4.1: Analysis and Application of the Peel Strength of the Foam Tape on Display Panel.

Author

Gang, Wang, Chuanghua, Deng, Zihan, Wang, Le, Liu, Cen, Yi, Wengao, Zhang, Feng, Tang, Ran, Gao, Pangling, Zhang, KEUN, SHIN MOO, Dan, Cao, and Yuhua, Zhang

Subjects

FOAM, PRODUCT design, ADHESIVE tape, PRODUCT quality, CARBON foams, NEW product development, PROBLEM solving

Abstract

In order to solve the problem of peel between display panel and backlight module in new display products such as four-sided borderless display and curved display, in this paper, the peel strength of foam tape was studied through experiment and simulation, and the peel stress strength of the foam tape was established to guide product design. Firstly, the peel stress of foam tape was obtained by peel strength experiment of foam tape samples. Then, the simulation model was established by using finite element software, and the load weight corresponding to the tilt experiment of the 27-inch four-sided borderless display was calculated. Finally, the accuracy of the simulation model was verified by the tilt experiment of 27-inch display, and the peel stress strength of the foam tape was established. The peel stress was about 1.94×10 -2 MPa. Based on the peel stress strength, the minimum width of foam tape for 23.8-inch four-sided borderless display was 1.5 mm. The display passed the 60 ℃/90% RH HTHHS 500 hours experiment, meeting the product quality requirements. This method can guide the size design of foam tape for new display products such as four-sided borderless display and curved display, and enhance the ultimate design competitiveness of products. [ABSTRACT FROM AUTHOR]

Published

2023

78. Design and dimensioning of a test bench for investigating the relationship between critical temperature and axial mechanical stress of GdBaCuO tape conductors.

Author

Liebrich, Johannes and Kreischer, Christian

Subjects

AXIAL stresses, STRAINS & stresses (Mechanics), CRITICAL temperature, ADHESIVE tape, TRANSITION temperature, TEST design

Abstract

Purpose: Superconductors offer several advantages compared with conventional conductors. However, it is not clear at this stage whether these types of conductors provide the same durability. For this reason, tape conductors under mechanical forces need to be studied in detail. The purpose of this paper is to investigate the relationship between critical temperature and axial mechanical stress of GdBaCuO tape conductors. Design/methodology/approach: The paper investigates the influence of axial mechanical stresses on the critical temperature of superconductors. For these investigations, a multi-physical test rig was developed, which makes it possible to perform these types of investigations. With the presented measurement methodology, the influence of mechanical stresses on the tape conductor can be determined. Findings: The investigations show a correlation between the critical temperature and the acting mechanical stresses. The analytically presented approach to describe the transition temperature is valid for the investigated samples. In addition, it is determined that the effects are not reversible, and therefore, permanent damage to the tape conductor is observed. Originality/value: The presented investigations make it possible to create more accurate models of GdBaCuO tape conductors. This enables to extend the superconducting state space, which so far depends on three critical quantities, by the quantity of the axial stress. [ABSTRACT FROM AUTHOR]

Published

2023

79. Finite coating thickness of Prandtl fluid in non-isothermal reverse roll coating process.

Author

Abbas, Zaheer, Khaliq, Sabeeh, Usman, Sana, and Rafiq, Muhammad Yousuf

Subjects

COATING processes, NON-Newtonian flow (Fluid dynamics), SURFACE coatings, INCOMPRESSIBLE flow, METAL coating, ADHESIVE tape, ROLLING friction

Abstract

Purpose: The coating process is broadly employed in the manufacturing of wallpapers, adhesive tapes, wrapping, protection of fabrics and metals, X-ray and photographic films, beautification, books and magazines, film foils, magnetic records, coated paper, etc. Design/methodology/approach: In this study, an incompressible flow of non-Newtonian fluid is modeled to inspect the rheological behavior of finite coating thickness in the reverse roll coating process. With the assistance of lubrication approximation theory (LAT), the dimensionless form of governing expressions is simplified. Exact solutions for distributions for velocity, flow rate, temperature and pressure gradient attained utilizing perturbation technique and their variation is presented as well as discussed in graphs. Meanwhile, some important factors from an engineering perspective including coating thickness and transition point were calculated mathematically and are displayed in a tabular manner. Also, streamlines are drawn to observe the flow pattern. Findings: Prandtl fluid parameters provide a controlling factor to regulate the flow rate, velocity, coating thickness, and pressure gradient leading to an efficient coating process. Moreover, the Brinkman number and Prandtl fluid parameters significantly improve the temperature distribution. Originality/value: In the literature, this study fills a gap in the theoretical prediction of coating thickness rheologically influenced by Prandtl fluid in reverse roll coating process. [ABSTRACT FROM AUTHOR]

Published

2023

80. Novel two-step procedure for measuring I c vs. tensile stress of commercial REBCO tape.

Author

Zhang, Zili, Chen, Sikan, Wang, Lei, Liu, Hui, Liu, Yan, Zhao, Yue, Suo, Hongli, and Wang, Qiuliang

Subjects

MATERIAL plasticity, ADHESIVE tape, CRITICAL currents, ELASTIC deformation, ATHLETIC tape, SUPERCONDUCTORS, TENSILE tests

Abstract

This paper presents a novel two-step procedure for measuring the critical current (I c) properties as a function of tensile stress. The proposed method completely eliminates the possible negative effect of the voltage tap used during the tensile procedure, allowing the actual I c irreversible degradation stress to be clearly determined. Six different commercial REBCO tapes from five manufacturers were tested. The I c value does not degrade until the stress reaches the 'inflection area' in the tensile curve, which corresponds to the most pronounced transformation step from elastic to plastic deformation. This allows easy estimation of the stress corresponding to I c irreversible degradation by a simple and accurate cryogenic tensile curve instead of complicated in-situ I c tensile measurement. A feasible composite-material tensile model is established to explain the phenomenon. In addition, fatigue measurements on a commercial REBCO tape from Shanghai Superconductor technology show that the tape can withstand 10 000 cycles under 580 MPa and over 5000 cycles under 695 MPa, which also is consistent with the proposed composite-materials tensile model and is confirmed by the EBSD experiments on the Hastelloy substrate. This research provides better insight and tools for designing and fabricating extremely high-field magnets. [ABSTRACT FROM AUTHOR]

Published

2023

81. A novel evolutionary method for parameter-free MEMS structural design and its application in piezoresistive pressure sensors.

Author

Meng, Qinggang, Wang, Junbo, Chen, Deyong, Chen, Jian, Xie, Bo, and Lu, Yulan

Subjects

PRESSURE sensors, STRUCTURAL design, MEMS resonators, FINITE element method, DEGREES of freedom, EVOLUTIONARY algorithms, ADHESIVE tape

Abstract

In this paper, a novel simulation-based evolutionary method is presented for designing parameter-free MEMS structures with maximum degrees of freedom. This novel design method enabled semiautomatic structure evolution by weighing the attributes of each segment of the structure and yielded an optimal design after multiple iterations. The proposed method was utilized to optimize the pressure-sensitive diaphragm of a piezoresistive pressure sensor (PPS). Finite element method (FEM) simulations revealed that, in comparison to conventional diaphragms without islands and with square islands, the optimized diaphragm increased the stress by 10% and 16% and reduced the nonlinearity by 57% and 77%, respectively. These improvements demonstrate the value of this method. Characterization of the fabricated PPS revealed a high sensitivity of 8.8 mV V−1 MPa−1 and a low nonlinearity of 0.058% FS at 20 °C, indicating excellent sensor performance. [ABSTRACT FROM AUTHOR]

Published

2023

82. IMPACT OF ECZEMA AND OTHER DERMATOSES ON MENTAL AND EMOTIONAL HEALTH: THE ROLE OF STEROID TAPE IN ECZEMA MANAGEMENT.

Author

Aslam, Nisa

Subjects

STEROID drugs, SKIN diseases, ECZEMA, MENTAL health, ADHESIVE tape, CYCLOSPORINE, KELOIDS, EMOTIONS, CUTANEOUS therapeutics

Abstract

Treatment of a range of inflammatory skin conditions, including eczema, usually requires the use of topical steroids. These conditions are challenging for healthcare professionals and their patients in terms of both their physical and emotional symptoms. Topical steroids are available in a range of formulations including creams, ointments and tapes. Steroid tape is an easy to use and patient-friendly formulation for these conditions. In the UK, the commercially available formulation is fludroxycortide impregnated tape (4 micrograms per sq. cm), which represents a moderately potent steroid. It is licensed in the UK for recalcitrant chronic dermatoses such as eczema and psoriasis. Whilst fludroxycortide tape has been available in the UK for several decades, it is not as widely used as steroid creams and ointments due to lack of awareness and knowledge from healthcare professionals. However, patients with these inflammatory skin conditions, who also suffer significant emotional and mental health issues, often struggle to find a topical steroid that they are happy with. Healthcare professionals should therefore be aware of steroid tape, its indications and use, to offer greater patient choice and potentially better adherence to topical treatment. This review paper describes an in-depth real world research survey of 1,000 patients with skin conditions, 72% of whom had eczema, which evaluated their mental and emotional health. The value of fludroxycortide tape in inflammatory skin conditions is also identified and reviewed. [ABSTRACT FROM AUTHOR]

Published

2023

83. Detection of surface contamination for particulate metals using spark emission spectroscopy.

Author

Zheng, Lina, Huang, Jing, Liu, Lingyu, Li, Jialin, Feng, Zikang, and Zhu, Yingshuo

Subjects

SURFACE contamination, EMISSION spectroscopy, COPPER electrodes, WELDING fumes, ADHESIVE tape

Abstract

A new, field-portable method based on spark emission spectroscopy has been developed for on-site measurement of surface contamination for particulate metals. This method involves collection of a surface sample onto a piece of adhesive copper tape, followed by ablation and excitation by a spark discharge generated between a sharp electrode and the copper tape. The resulting atomic emissions are recorded using a spectrometer for elemental identification and quantification. The system was calibrated for Co, Cr, Fe and Mn using their characteristic emission lines. Detection limits were determined and found to be in the range of 3–19 ng cm−2 and measurement uncertainty was 35%. This approach was applied to the measurement of surfaces deposited with unknown loading of a welding fume sample, and results show a good agreement with those from standardized NIOSH method 9102. This method offers an alternative to the development of field-portable instruments for on-site, rapid determination of surface contamination for metals. [ABSTRACT FROM AUTHOR]

Published

2024

84. Investigation of the suitability of adhesive tapes for sealing building structures of various surfaces.

Author

Bliūdžius, R., Dobilaitė, V., and Jucienė, M.

Subjects

*ADHESIVE tape, *SURFACE structure, *REINFORCED plastics, *DEFORMATION of surfaces, *METAL foils, *PLASTIC films

Abstract

Adhesive sealing tapes play an important role in ensuring the air tightness of the building, affecting the indoor microclimate and efficient energy use. However, there is still a lack of objective indicators that would demonstrate the ability of the sealing tape to ensure the long-term air tightness of the sealing joints of various building structures. Therefore, the purpose of this work is to investigate the indicators demonstrating the suitability of adhesive sealing tapes for sealing building structures of different surfaces and deformation, to provide detailed analyses of the results, and to propose practical recommendations. The investigated self-adhesive tapes differed in backing (nonwoven material, plastic reinforced film, paper, metal foil) and adhesives (acrylic and butyl). The materials of the sealed structural joints were plywood, OSB, plasterboard, cement sawdust board, plastered board, and plastic. The thickness, deformability, peel and shear adhesion of the self-adhesive tapes were used to determine its suitability for sealing of different structural joints. It was determined that tapes with higher deformability are more versatile, as they are suitable for sealing joints subjected to small and large deformations. The higher peel adhesion is typical for tapes of an air-permeable non-woven material backing and a thin adhesive layer. Tapes with a thicker adhesive layer are most suitable for sealing complex-shaped joints. Tapes with acrylic adhesive have a higher peeling force from smooth and moderately smooth surfaces, whereas butyl adhesive creates better contact with uneven surfaces in highly deformable joints. [ABSTRACT FROM AUTHOR]

Published

2024

85. Fabrication of highly conductive, flexible, and hydrophobic Kevlar®@Ni–P–B@Cu@CS fabric with excellent self-cleaning performance for electromagnetic interference shielding.

Author

Shao, Qinsi, Wang, Hao, Zhang, Leilei, Wang, Xihai, Zhang, Hengxin, Bai, Ruicheng, and Fu, Hongshan

Subjects

ELECTROMAGNETIC interference, ELECTROMAGNETIC shielding, ELECTROLESS plating, AMORPHOUS alloys, CONTACT angle, ELECTRICAL impedance tomography, ADHESIVE tape

Abstract

In this work, a simple and cost-effective method was proposed and developed to prepare a novel multilayer-structured Kevlar®@nickel-phosphorus-boron@copper@copper stearate (Kevlar®@Ni–P–B@Cu@CS) composite fabric with high conductivity, high flexibility, high hydrophobicity, and high durability to effectively shield electromagnetic interference (EMI). In this method, an amorphous Ni–P–B alloy nanolayer was initially deposited onto a Kevlar® fabric via electroless plating. Afterward, a crystalline Cu nanolayer was deposited as the second layer via electroplating. Finally, a monolayer of copper stearate was innovatively self-assembled as the outermost protective layer. The Cu deposition was effectively adjusted and designed by controlling the plating current and plating time. The electrical resistance and contact angle of the optimized Kevlar®@Ni–P–B@Cu@CS composite fabric were as low as 3.2 mΩ sq−1 and as high as 115.39°, respectively, indicating that the fabric could withstand bending, tape-off, corrosion, and accelerated environmental tests. The average EMI-shielding efficiency of the durable composite fabric was 93.9 dB in the frequency range of 8.2–12.4 GHz, which was mainly attributed to the absorption loss. Thus, the proposed material configuration has promise for applications in aviation, aerospace, telecommunication, wearable devices, and military industries. [ABSTRACT FROM AUTHOR]

Published

2024

86. Collaborative Storage and Resolution Method between Layers in Hierarchical ICN Name Resolution Systems.

Author

Li, Yanxia and Li, Yang

Subjects

INFORMATION superhighway, GREEDY algorithms, STORAGE, INFORMATION networks, 5G networks, ADHESIVE tape

Abstract

Name resolution system is an important infrastructure in Information Centric Networking (ICN) network architecture of identifier–locator separation mode. In the Local Name Resolution System (LNMRS), a hierarchical name resolution system for latency-sensitive scenarios; higher-level resolution nodes serve more users and suffer more storage pressure, which causes the problem of unbalanced storage load between layers, and requires inter-layer collaborative storage under the constraint of deterministic service latency characteristics. In this paper, we use the constraints required for inter-layer collaborative resolution to construct an index neighbor structure and perform collaborative storage based on this structure. This method relieves storage pressure on high-level resolution nodes. Experimental results show that the increase of total storage load brought by the proposed method is 57.1% of that by MGreedy algorithm, 8.1% of that by Greedy algorithm, and 0.8% of that by the K-Mediod algorithm when relieving the same storage load for high-level resolution nodes. Meanwhile, deterministic service latency feature is still sustained when our proposed method is used for collaborative resolution. [ABSTRACT FROM AUTHOR]

Published

2023

87. Ineffectiveness of 6,2′,4′-trimethoxyflavone in mitigating cerebral ischemia/reperfusion injury after post-reperfusion administration in rats.

Author

Woo, Chul-Woong, Choi, Monica Young, Heo, Hwon, Chae, Yeon Ji, Sung, Yu Sub, Choi, Yoonseok, and Woo, Dong Cheol

Subjects

ARYL hydrocarbon receptors, MAGNETIC resonance imaging, CEREBRAL ischemia, ADHESIVE tape, REPERFUSION injury

Abstract

Background: Pharmacological inhibition of aryl hydrocarbon receptor (AhR) activation after ischemia alleviates cerebral ischemia/reperfusion (IR) injury. Purpose: To investigate whether AhR antagonist administration after reperfusion was also effective in attenuating cerebral IR injury. Material and Methods: A total of 24 Sprague–Dawley rats were divided into the sham-operated group (no IR), control group (IR), and 6,2′,4′-trimethoxyflavone (TMF) group (IR + TMF administration), with 10 rats assigned to each group. Cerebral IR injury was induced by 60 min of middle cerebral artery occlusion followed by reperfusion. TMF (5 mg/kg) was used as the AhR antagonist and was administered intraperitoneally immediately after reperfusion. Cerebral IR injury was observed using magnetic resonance imaging (MRI) and neurobehavioral assessments at baseline, immediately after ischemia, and at 3 days after ischemia. Results: On MRI, the TMF group showed no significant differences in relative apparent diffusion coefficient (ADC), T2, and fractional anisotropy (FA) values; midline shift value; and infarct volume. In terms of neurobehavioral function, factors such as grip strength, contralateral forelimb use, time to touch, and time to remove adhesive tape from the forepaw, were also not significantly different between the control and TMF groups. Conclusion: This study demonstrated that AhR treatment after reperfusion had no noticeable effect on reducing cerebral IR injury in rats. [ABSTRACT FROM AUTHOR]

Published

2024

88. Comparative Analysis of the Cutaneous Microbiome in Psoriasis Patients and Healthy Individuals—Insights into Microbial Dysbiosis: Final Results.

Author

Radaschin, Diana Sabina, Iancu, Alina Viorica, Ionescu, Alexandra Mariana, Gurau, Gabriela, Niculet, Elena, Bujoreanu, Florin Ciprian, Beiu, Cristina, Tatu, Alin Laurentiu, and Popa, Liliana Gabriela

Subjects

SKIN diseases, ADHESIVE tape, ATOPIC dermatitis, ROSACEA, PSYCHOLOGICAL factors

Abstract

Psoriasis is one of the most frequent chronic inflammatory skin diseases and exerts a significant psychological impact, causing stigmatization, low self-esteem and depression. The pathogenesis of psoriasis is remarkably complex, involving genetic, immune and environmental factors, some of which are still incompletely explored. The cutaneous microbiome has become more and more important in the pathogenesis of inflammatory skin diseases such as acne, rosacea, atopic dermatitis and psoriasis. Dysbiosis of the skin microbiome could be linked to acute flare ups in psoriatic disease, as recent studies suggest. Given this hypothesis, we conducted a study in which we evaluated the cutaneous microbiome of psoriasis patients and healthy individuals. In our study, we collected multiple samples using swab sampling, adhesive tape and punch biopsies. Our results are similar to other studies in which the qualitative and quantitative changes found in the cutaneous microbiome of psoriasis patients are different than healthy individuals. Larger, standardized studies are needed in order to elucidate the microbiome changes in psoriasis patients, clarify their role in the pathogenesis of psoriasis, decipher the interactions between the commensal microorganisms of the same and different niches and between microbiomes and the host and identify new therapeutic strategies. [ABSTRACT FROM AUTHOR]

Published

2024

89. Integrating Bioinspired Natural Adhesion Mechanisms into Modified Polyacrylate Latex Pressure-Sensitive Adhesives.

Author

Jiang, Chunyuan, Zhang, Xinrui, Zhang, Xinyue, Li, Xingjian, Xu, Shoufang, and Li, Yinwen

Subjects

PRESSURE-sensitive adhesives, ADHESIVE tape, COMPOSITE materials, MYTILIDAE, LATEX

Abstract

For polyacrylate latex pressure-sensitive adhesives (PSAs), high peel strength is of crucial significance. It is not only a key factor for ensuring the long-lasting and effective adhesive force of polyacrylate latex PSAs but also can significantly expand their application scope in many vital fields, such as packaging, electronics, and medical high-performance composite materials. High peel strength can guarantee that the products maintain stable and reliable adhesive performance under complex and variable environmental conditions. However, at present, the peel strength capacity of polyacrylate latex PSAs is conspicuously insufficient, making it difficult to fully meet the urgent market demand for high peel strength, and severely restricting their application in many cutting-edge fields. Therefore, based on previous experimental studies, and deeply inspired by the adhesion mechanism of natural marine mussels, in this study, a traditional polyacrylate latex PSA was ingeniously graft-modified with 3,4-dihydroxybenzaldehyde (DHBA) through the method of monomer-starved seeded semi-continuous emulsion polymerization, successfully synthesizing novel high-peel-strength polyacrylate latex pressure-sensitive adhesives (HPSAs) with outstanding strong adhesion properties, and the influence of DHBA content on the properties of the HPSAs was comprehensively studied. The research results indicated that the properties of the modified HPSAs were comprehensively enhanced. Regarding the water resistance of the adhesive film, the minimum water absorption rate was 4.33%. In terms of the heat resistance of the adhesive tape, it could withstand heat at 90 °C for 1 h without leaving residue upon tape peeling. Notably, the adhesive properties were significantly improved, and when the DHBA content reached 4.0%, the loop tack and 180° peel strength of HPSA4 significantly increased to 5.75 N and 825.4 gf/25 mm, respectively, which were 2.5 times and 2 times those of the unmodified PSA, respectively. Such superior adhesive performance of HPSAs, on the one hand, should be attributed to the introduction of the bonding functional monomer DHBA with a rich polyphenol structure; on the other hand, the acetal structure formed by the grafting reaction of DHBA with the PSA effectively enhanced the spatial network and crosslink density of the HPSAs. In summary, in this study, the natural biological adhesion phenomenon was ingeniously utilized to increase the peel strength of pressure-sensitive adhesives, providing a highly forward-looking and feasible direct strategy for the development of environmentally friendly polyacrylate latex pressure-sensitive adhesives. [ABSTRACT FROM AUTHOR]

Published

2024

90. Non-uniform critical current and stacking effect remedy for multi-filament REBCO tapes with potential defects.

Author

Cai, Tiantian, Wang, Mingyang, Hao, Luning, Meng, Xuan'ang, Chen, Haolan, Jiang, Junjie, Sheng, Jie, and Jin, Zhijian

Subjects

CRITICAL currents, HIGH temperature superconductors, MAGNETIC fields, FINITE element method, ADHESIVE tape

Abstract

The high aspect ratio of REBCO tapes has a significant impact on several characteristics in high-temperature superconducting applications, such as critical current and AC loss. Narrow filamentary technology can effectively reduce the impact of magnetic field dependence and enhance the electromagnetic performance of REBCO tapes. However, the existing methods are constrained by the trade-off between the narrow degree of REBCO filaments and high current capacity. Meanwhile, when processing REBCO tapes for large-scale magnets, there is a great possibility that local defects are lurking. A striated narrow-stacked (NS) structure is proposed based on the existing narrowing methods to address these challenges. To verify the validity of this structure, it is imperative to explore the non-uniform critical current and stacking effect on performance for multi-filament REBCO tapes with potential defects. This article introduces a magnetic extended network (MEN) model to analyze the electrical characteristics of striated NS structures with different types of potential defects. Then, by coupling with a 3D finite element method electromagnetic module, the calculation results of the MEN model are visualized and used to analyze the electromagnetic characteristics including current sharing mechanism, magnetic field distribution, and critical current compensation due to stacking effect. It is found that stack structures successfully provide the performance remedy for multi-filament REBCO tapes with potential defects. This study aims to promote the narrowing improvement of REBCO tapes in high-field magnets and high-current applications. [ABSTRACT FROM AUTHOR]

Published

2024

91. Miniaturized sensor for electroanalytical and electrochemiluminescent detection of pathogens enabled through laser-induced graphene electrodes embedded in microfluidic channels.

Author

Gerstl, Florian, Pongkitdachoti, Uma, Unob, Fuangfa, and Baeumner, Antje J.

Subjects

NUCLEIC acid hybridization, SINGLE nucleotide polymorphisms, GRAPHENE, ELECTRODES, CRYPTOSPORIDIUM parvum, ADHESIVE tape, CRYPTOSPORIDIUM, UREAPLASMA

Abstract

High performance, laser-induced graphene (LIG) electrodes were integrated into adhesive tape-based microfluidic channels to realize both electrochemical (EC) and electrochemiluminescent (ECL) detection approaches. This provides strategies for low limits of detection, simple hardware requirements and inexpensive fabrication, which are characteristics required for assays in the competitive point-of-care (POC) sensor field. Here, electrode design and microchannel dimensions were studied and a DNA hybridization assay with liposomes for signal amplification was developed for the specific detection of DNA derived from Cryptosporidium parvum as the model analyte. Liposomes entrapped either Ru(bpy)32+ or K4[Fe(CN)6] generating ECL- and EC-signal amplification, respectively. This new microchip provided all desirable analytical figures of merit needed for POC applications. Specifically, a desirable one-step assay was designed which provided a limit of detection of 3 pmol L−1 for the ECL and 47 pmol L−1 for the EC approach and furthermore enabled highly specific detection considering that at room temperature in this simple setup a single nucleotide polymorphism resulted in a signal decrease of 58%, whereas a decrease of > 98% was observed for non-matching sequences present in 10-fold excess. Direct detection in various matrices ranging from drinking water to soil extracts was also achieved. It is concluded that the simple and inexpensive fabrication in combination with signal amplification strategies makes these concepts relevant for on-site pathogen detection in resource-limited environments. [ABSTRACT FROM AUTHOR]

Published

2022

92. Boundary stabilization of an axially moving system of elasticity with an exponentially bounded external disturbance.

Author

Aouragh, My Driss and Nahli, Mohamed

Subjects

HYBRID systems, SYSTEMS theory, EXPONENTIAL stability, ELASTICITY, CLOSED loop systems, ADHESIVE tape

Abstract

This paper discusses the stabilization problem of a tape moving axially between two sets of rollers. We propose a modelization which yields a hybrid system accounting for the mass of the left rollers that undergoes an external non-uniformly bounded disturbance. The active disturbance rejection control approach is adopted in this paper; first, an extended state observer with time varying gain of exponential type is designed to estimate the disturbance; then, a feedback controller is proposed in which the approximated disturbance is used to eliminate the effect of the disturbance. We prove the well-posedness of the closed-loop system by the semigroup theory. We employ the Lyapunov method to establish the exponential stability. We conclude by presenting a numerical example to support the theoretical results. [ABSTRACT FROM AUTHOR]

Published

2022

93. Angular Dependence of Twisted Soldered-Stacked-Square (3S) HTS Wire.

Author

Xi, Dongmin, Liu, Jiachen, Li, Wenyi, Li, Zhuyong, Jin, Zhijian, Zhong, Lianhong, Duan, Xinhui, Song, Meng, and Li, Li

Subjects

WIRE, SUPERCONDUCTING wire, CRITICAL currents, ADHESIVE tape, LIQUID nitrogen, MAGNETIC fields, DENSITY currents

Abstract

Angular dependence of second generation (2G) high-temperature superconducting (HTS) tape is a crucial parameter for its industrial applications. Known as soldered-stacked-square (3S) HTS wire, a novel structure of HTS wire has been proposed in our previous research. In this paper, angular dependence of 1 mm HTS tape, 4 mm tape, 1 mm 3S HTS wire, and 1 mm 3S HTS twisted wire were measured in liquid nitrogen bath, respectively. It can be found that the 3S HTS wire would not enhance the critical current density under external magnetic field, while an isotropic angular dependence is obtained when 3S HTS wire is twisted. The test results obtained in this paper provides useful information for the future applications of 3S HTS wire. [ABSTRACT FROM AUTHOR]

Published

2019

94. Influence of mechanical stress on electron transport properties of second-generation high-temperature superconducting tapes.

Author

Gaifullin, M., Lee, S., Kelleher, J. F., Kabra, S., Myronov, M., Evans, B. E., and Kirichek, O.

Subjects

STRAINS & stresses (Mechanics), HIGH temperature superconductors, NEUTRON diffraction, SUPERCONDUCTING magnets, CRITICAL currents, ADHESIVE tape, ELECTRON transport, SUPERCONDUCTING coils

Abstract

Second-generation high-temperature superconductor (2G HTS) tapes have demonstrated the ability to generate high magnetic fields and critical currents at a wide operating temperature range. In this paper, we study the mechanical properties of 2G HTS tape measured simultaneously with its critical current. The lattice deformations in the tape's substrate caused by applied mechanical stress were measured by neutron diffraction. In our experiments, the 2G HTS tape was exposed to uniaxial tensile force ranging from 250 to 1100 N at temperature 77 K. The current through the tape was scanned in the range from 22 to 42 A. The experimental results have been obtained in a cryogenic testing chamber for neutron scattering measurements of internal stresses under load with the incorporated HTS current leads. Critical stress is a vital parameter required for the modeling and designing of advanced superconducting magnets and also a variety of different superconducting applications based on 2G HTS tapes. [ABSTRACT FROM AUTHOR]

Published

2023

95. An Advancement in Truck-Tire–Road Interaction Using the Finite Element Analysis.

Author

Fathi, Haniyeh, Khosravi, Mehran, El-Sayegh, Zeinab, and El-Gindy, Moustafa

Subjects

FINITE element method, LATERAL loads, TRUCK tires, MODEL trucks, ADHESIVE tape

Abstract

This paper aimed to investigate the cornering characteristics of a Regional Haul Steer II, RHS 315/80 R22.5 truck tire traveling on a dry, hard surface using the Finite element analysis (FEA). This research was carried out using commercial Finite Element software and Pam-Crash in an Explicit Environment. A finite element truck tire model was developed to apply the tire terrain cornering condition. The concentrated loads and boundary conditions for the rim and wheel were applied to the model. The rubber material was defined using the Mooney–Rivlin model. The truck tire cornering operating conditions, including three different speeds with respect to various positive slip angles, were investigated. Several simulations were repeated at various operating conditions, including three different inflation pressures and three different vertical loads. Subsequently, the tire lateral force was computed using the local and global frame coordinates. Additionally, the self-aligning moment was extracted from the tire cross-section at each operating condition. Finally, a comparison between the simulation results showed that the tire lateral force was highly sensitive to the variation of the slip angles at the higher domain, and also that the tire inflation pressure, regardless of the speed, was considered to be one of the main parameters directly affecting the tire-cornering properties. [ABSTRACT FROM AUTHOR]

Published

2023

96. Flexible low-profile shield for reducing back radiation of wrist-worn antenna.

Author

Phukan, Arunav and Bhattacharyya, Nidhi S.

Subjects

*ANTENNAS (Electronics), *WRIST, *BODY area networks, *ADHESIVE tape, *WEARABLE antennas, *FLEXIBLE structures

Abstract

A flexible conducting lossy shield is developed and demonstrated for a reduction in the back radiation of a linearly polarized X-band patch antenna for Wireless Body Area Network (WBAN) applications. The proposed structure comprises a flexible patch antenna backed by a laminated sheet of Expanded Graphite (EG). This flexible sheet is prepared from EG powder pressed uniformly over a thin adhesive tape. The conducting nature of EG is exploited, and the EG sheet is used as a protective shield to prevent back radiation emanating out of the WBAN antenna from propagating toward the human body. The antenna performance is tested over human wrist phantoms experimentally and through full wave simulation studies. The results indicate the marginal variation in the −10 dB impedance bandwidth with a slight increase in the gain and directivity values for a resonant frequency in the range 9.7–10.3 GHz (bending radius variation of 40, 30, and 20 mm and along two bending planes). A measured on-body gain of 6.7 dBi is exhibited by the antenna backed by the EG shield and bent over a 20 mm radius human wrist phantom with an S11 of −19 dB, a −10 dB % bandwidth of 8%, and a directivity of 9.4 dBi. All the other bending configurations exhibit values higher than these. Electric field and Specific Absorption Rate (SAR) studies reveal a reduction in wave penetration by the EG shield antenna inside the wrist phantom with a decrease in the SAR by a maximum of 5%. The measured front-to-back ratio values indicate the lowering of back radiation with a maximum average increase of 76% exhibited by an EG backed antenna. The developed EG shield has an additional advantage of being a standalone structure, which can be integrated with any wearable antenna for a possible reduction in the back radiation. [ABSTRACT FROM AUTHOR]

Published

2024

97. I.V. ROUNDS. Vascular access challenges: Small, fragile veins and tissue-paper skin.

Author

Miller, Sheri Linn

Subjects

*INTRAVENOUS catheterization, *PREVENTION of injury, *BRUISES, *ADHESIVE tape, *AGING, *INTRAVENOUS therapy, *NURSING, *NURSING practice, *PATIENT education, *PATIENT safety, *SKIN care, *VASCULAR catheters, *PREVENTION, *SAFETY

Abstract

The article focuses on vascular access for small, fragile veins and thin skin. It discusses risk factors for the development of this condition including aging, use of corticosteroids, and dry skin. It describes special techniques in intravenous (IV) insertions for this vein and skin type. It also offers advice to patients on how to keep their veins and skin healthy.

Published

2012

98. Research on Current Distribution Characteristics of the Superconducting Cable with YBCO Tapes.

Author

Xia, Yajun, Song, Meng, Ma, Tao, and Xu, Ying

Subjects

*CURRENT distribution, *SUPERCONDUCTING cables, *SUPERCONDUCTING magnets, *HIGH temperature superconductors, *ADHESIVE tape, *CRITICAL currents

Abstract

For high-temperature superconducting (HTS) cables carrying substantial currents, the current carrying capacity of a single YBCO tape is limited, and multiple tapes need to be connected in parallel. The current sharing design of parallel YBCO tapes has emerged as a central concern in the HTS cable design. However, various tape parameters, including critical current I c , n-value, and joint resistance, can significantly influence the current distribution in the system. In this paper, the influence of YBCO tape parameters on the current distribution characteristics of the cable was studied. The results showed that the current distribution and quench characteristics were regulated by tape I c , tape n-value, and tape joint resistance together, and that meanwhile, the total current also served as an important factor. Significant influence of the joint resistance was also observed in the event of a limited total current, which was no longer obvious for a total current close to the total I c . For the parallel tapes with the same I c , the one with higher resistance quenched later, while in the case of the same resistance, the effect of the tape I c is greater than that of the tape n-value. [ABSTRACT FROM AUTHOR]

Published

2024

99. Peculiarities of Investigation of HTS Tape by Low-Temperature Magneto-Optical Visualization.

Author

Osipov, M. A., Abin, D. A., and Rudnev, I. A.

Subjects

*DATA visualization, *MAGNETIC fields, *HIGH temperature superconductors, *ATHLETIC tape, *LOW temperatures, *SUPERCONDUCTORS, *ADHESIVE tape

Abstract

In this paper, we analyze in detail the features of the application of the magneto-optical imaging technique for studying HTS tapes. We present a detailed description of the experimental technique and features of the research facility for low temperatures research. The features of the penetration of a magnetic field into a superconductor are described, and the procedure for calibrating a magneto-optical film and algorithms for calculating magnetic field profiles from magneto-optical images are described in detail. [ABSTRACT FROM AUTHOR]

Published

2023

100. Analysis of Transport Loss Characteristics Based on Simplified Model of Stacked Superconducting Tapes.

Author

Zhou, Qixun, Chen, Shuo, Wang, Jiayi, and Zhang, Yufeng

Subjects

*HIGH temperature superconductors, *ATHLETIC tape, *ADHESIVE tape, *JOB performance

Abstract

Transport loss of stacked high-temperature superconducting tapes is an important factor affecting their working performance, so it has always been an important research content of superconducting technology. However, the current simulation model for stacked superconducting tapes is slow and time-consuming when there are more stacked layers, which seriously affects the research process. In this paper, the homogenization model and simplified model of stacked superconducting tapes are built and compared with the original model, and the results show that the two models can both greatly improve the simulation speed and obtain the correct AC loss value, which proves their accuracy and reliability. Subsequently, the transport loss characteristics of superconducting tapes under different stacked conditions are simulated and analyzed using the simplified model. The results show that the transport loss of stacked superconducting tapes is positively correlated with the number of layers and negatively correlated with the stacked spacing. [ABSTRACT FROM AUTHOR]

Published

2023