Showing total 2,264 results

1. Phosphate Esters: New Coating Materials for a Sustainable Release Paper.

Author

Abenghal, Lahbib and Brouillette, François

Subjects

PHOSPHATE esters, PAPER recycling, SURFACE energy, ADHESIVE tape, SURFACE forces, SURFACE coatings, PHOSPHATES

Abstract

Paper manufacturers have long used silicone as the coating agent for release liners. However, silicone‐based release paper is very difficult to recycle due to covalent bonds between silicone and fibers. The most suitable solution to overcome this problem is to use alternative coating materials with adequate release properties, provided that they can be easily repulped in typical paper recycling facilities. We proposed a coating agent composed of phosphate esters and dimethylacetamide in order to manufacture a recyclable and efficient release paper. Analyses carried out on coated sheets showed that phosphate esters allowed the formation of a surface with adequate release properties (low peeling force and surface free energy). In addition, the residual adhesion values obtained with phosphate esters confirmed that they are well anchored on the backing paper surface, thus limiting the mass transfer to the adhesive tape. [ABSTRACT FROM AUTHOR]

Published

2024

2. Study on the response of the winding direction of multi-layer CORC cable to its electromagnetic characteristics.

Author

Jia, Rongli, Zhou, Wenhai, Liang, Rui, Su, Bingxu, and Hu, Zongwu

Subjects

HIGH temperature superconductors, CABLES, STRAINS & stresses (Mechanics), ELECTROMAGNETIC fields, ADHESIVE tape, MAGNETIC fields, ATHLETIC tape

Abstract

A Conductor on Round Core (CORC) cable wound with a high-temperature superconductor is an important cable concept for high-current density applications. It is widely used in large power systems because of its advantages of good flexibility and high engineering current density. However, the complex design structure of CORC cable makes it very difficult to understand its electromagnetic properties (such as AC loss). In particular, the different winding directions of each layer in multi-layer cable have a great influence on its electromagnetic characteristics. In this paper, the H-method is used to solve the electromagnetism and mechanics equations. The influence of the winding direction of CORC cable on its electromagnetic field distribution characteristics, AC loss, and mechanical variation under the action of external magnetic field is investigated. The AC loss study of single-layer cable reveals that when the applied magnetic field is increased from 0.01 to 0.02 and 0.03 T, the AC loss peak of the cable increases by 107 and 103 orders of magnitude, respectively, indicating that the effect of low applied magnetic field on the AC loss of the cable is more significant. For multi-layer cables, cables with opposite winding directions have a greater depth of current density penetration than cables with the same winding direction. In addition, the mechanical variations of multi-layer cables with different winding orientations are explored. The results show that the Mises stress in the cable with the same winding direction is about 32% higher than that of the cable with the opposite winding direction, which indicates that the method of winding the cable in the opposite direction between adjacent layers of tape can avoid excessive mechanical stress. [ABSTRACT FROM AUTHOR]

Published

2024

3. Pressure‐Sensitive Adhesive Tapes with High Peel Strength Derived from Linseed Oil.

Author

Fan, Jingjing, Tang, Yali, Lu, Lixin, Qiu, Xiaolin, and Pan, Liao

Subjects

PRESSURE-sensitive adhesives, ADHESIVE tape, LINSEED oil, RAW materials, RING-opening reactions, KRAFT paper, CARBOXYL group

Abstract

This research attempts to fabricate a novel type of pressure‐sensitive adhesive (PSA) tape utilizing epoxidized linseed oil (ELO) as the primary component in an effort to reduce reliance on petrochemical polymers. This raw material comes from the natural renewable resources, making this tape a more environmentally friendly choice in reducing impact on the environment and alleviating resource pressure. The ester groups on ELO are subjected to hydrolysis in order to yield a combination of epoxy linseed oil fatty acids (ELFAs) containing both epoxy and carboxyl groups. By controlling the temperature and catalyst conditions, the epoxy and carboxyl groups undergo a ring‐opening reaction, resulting in the self‐polymerization of the ELFA mixture and the formation of hydroxy‐functionalized polymers. These polymers are then applied as a coating on kraft paper and subsequently cut to produce PSA tapes. The tapes produced using this method exhibit a peak peel strength of 20.538 N per 25 mm. Moreover, the incorporation of glycerol ester of rosin serves to enhance the peel strength, resulting in a higher value of 21.883 N per 25 mm. The utilization of sealing the cardboard box by the tapes also serves as validation for the immense capabilities of the tapes in practical applications. [ABSTRACT FROM AUTHOR]

Published

2024

4. Understanding ac losses in CORC cables of YBCO superconducting tapes by numerical simulations.

Author

Nguyen, Linh N., Shields, Nathaniel, Ashworth, Stephen, and Nguyen, Doan N.

Subjects

SUPERCONDUCTING coils, SUPERCONDUCTING cables, HIGH temperature superconductors, CABLES, FINITE element method, COMPUTER simulation, ADHESIVE tape, CURRENT distribution

Abstract

Alternating current (ac) losses in conductor-on-rounded-core (CORC) cables of YBCO high-temperature superconducting (HTS) tapes are a significant challenge in HTS power applications. This study employs two finite element analysis (FEA) models to investigate the contributions from different ac loss components and provide approaches for reducing ac losses in cables. An FEA model based on the T-A formulation treats the cross section of thin superconducting layers as 1D lines and, therefore, only can predict the ac loss generated by the perpendicular magnetic field. In contrast, the model based on H-formulation can be performed on the actual 2D rectangular cross section HTS tapes to provide the total ac losses generated by magnetic fluxes penetrating from both the edges and surfaces of HTS tapes, although this model requires more computing time and memory. The 1D and 2D simulation models were validated by cross comparing the results from both models and by comparing sub-section and full cross section models. Subsequently, two models relate cable design and operational parameters to the surface and edge losses of a two-layer CORC cable by considering the (1) relative contributions of edge and surface losses to the overall ac losses; (2) effect of the current distribution between inner and outer HTS layers on ac losses; (3) impact of the tape alignment on ac losses in each HTS layer; (4) influence of the thickness of HTS layers on ac losses; (5) effect of size and number of inter-tape gaps on ac losses; and (6) contribution frequency on the ac losses. The research results given in this paper are therefore not only valuable to suggest strategies for reducing ac loss in multi-layer cables but also for developing more accurate and effective methods to calculate ac loss in CORC HTS cables. [ABSTRACT FROM AUTHOR]

Published

2023

5. The Lull of the Sea.

Author

Kano, André

Subjects

ADHESIVE tape, PLEIN air painting

Abstract

André Kano, a watercolor artist, creates tranquil maritime scenes using subdued colors and exploring blank areas on the paper. He values painting outdoors but also appreciates the comfort of a well-equipped studio. Kano often chooses to depict scenes with boats, as he finds their unique design and abundance of details add movement and elegance to his work. He carefully selects colors to create harmonious combinations and avoids using vibrant, saturated colors in large areas of the paper. Kano explores the play between light and dark and leaves spaces unfilled to create a sense of breathing and balance in his compositions. He shares a step-by-step guide to his technique and has won several national and international awards for his watercolor paintings. [Extracted from the article]

Published

2024

6. 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

7. Mechanical behavior and critical current density variation of the twisted stacked-tape slotted-core cable-in-conduit conductor under bending and axial tensile load.

Author

Liu, Yang and Gao, Yuanwen

Subjects

AXIAL loads, CRITICAL currents, HIGH temperature superconductors, ADHESIVE tape, FLUX pinning, ELECTRIC conduits, SUPERCONDUCTING magnets, SUPERCONDUCTORS

Abstract

The second generation (2G) high-temperature superconducting (HTS) REBCO tape and the HTS cable made by the REBCO company are considered to be alternative materials for future superconducting magnet design due to their exceptional performance. The twisted stacked-tape slotted-core (TSSC) cable-in-conduit-conductor cable, which is one of the crucial layout structures in HTS cables, has been extensively studied by numerous research groups over the years. In this paper, a 3D finite element model of the TSSC HTS cable under bending and axial tensile loads is established using the bilinear isotropic hardening model in COMSOL commercial finite element software. The mechanical behavior of the TSSC cable under bending and axial tensile loads, as well as the evolution process of overall cable performance and critical current of individual tapes inside slots, are revealed by conducting mechanical analysis and using an empirical fitting formula between the critical current density of the 2G HTS tapes and axial strain. Furthermore, optimization engineering suggestions for its structure are provided, such as reducing the twist pitch, decreasing the tape width, increasing the number of tapes, reducing the slot width while avoiding direct contact between tapes and slot walls, increasing the number of slots, increasing diameter of diversion trench and inner diameter of helical core under predominant bending loads. In the case of axial tensile loads, the aforementioned suggestions are also applicable except for the inner and outer diameters of the helical core. The critical current performance can be enhanced by augmenting the outer diameter of the helical core in this case. However, it is almost unaffected by the inner diameter of the helical core. [ABSTRACT FROM AUTHOR]

Published

2024

8. Paper-Based Bi-Material Cantilever Actuator Bending Behavior and Modeling.

Author

Chen, Gordon, Kumar, Ashutosh, Heidari-Bafroui, Hojat, Smith, Winfield, Charbaji, Amer, Rahmani, Nassim, Anagnostopoulos, Constantine, and Faghri, Mohammad

Subjects

CANTILEVERS, YOUNG'S modulus, ACTUATORS, ENVIRONMENTAL monitoring, ADHESIVE tape

Abstract

In this paper, the behavior of the Bi-Material Cantilever (B-MaC) response deflection upon fluidic loading was experimentally studied and modeled for bilayer strips. A B-MaC consists of a strip of paper adhered to a strip of tape. When fluid is introduced, the paper expands while the tape does not, which causes the structure to bend due to strain mismatch, similar to the thermal loading of bi-metal thermostats. The main novelty of the paper-based bilayer cantilevers is the mechanical properties of two different types of material layers, a top layer of sensing paper and a bottom layer of actuating tape, to create a structure that can respond to moisture changes. When the sensing layer absorbs moisture, it causes the bilayer cantilever to bend or curl due to the differential swelling between the two layers. The portion of the paper strip that gets wet forms an arc, and as the fluid advances and fully wets the B-MaC, the entire B-MaC assumes the shape of the initial arc. This study showed that paper with higher hygroscopic expansion forms an arc with a smaller radius of curvature, whereas thicker tape with a higher Young's modulus forms an arc with a larger radius of curvature. The results showed that the theoretical modeling could accurately predict the behavior of the bilayer strips. The significance of paper-based bilayer cantilevers lies in their potential applications in various fields, such as biomedicine, and environmental monitoring. In summary, the novelty and significance of paper-based bilayer cantilevers lie in their unique combination of sensing and actuating capabilities using a low-cost and environmentally friendly material. [ABSTRACT FROM AUTHOR]

Published

2023

9. A Parametric Study on a Paper-Based Bi-Material Cantilever Valve.

Author

Heidari-Bafroui, Hojat, Kumar, Ashutosh, Charbaji, Amer, Smith, Winfield, Rahmani, Nassim, Anagnostopoulos, Constantine, and Faghri, Mohammad

Subjects

VALVES, CANTILEVERS, MICROFLUIDIC devices, FLUID flow, FLUID control, HUMIDITY, ADHESIVE tape

Abstract

The novel paper-based Bi-Material Cantilever (B-MaC) valve allows the autonomous loading and control of multiple fluid reagents which contributes to the accurate operation of paper-based microfluidic devices utilized for biological and chemical sensing applications. In this paper, an extensive parametric study is presented to evaluate the effects of key geometric parameters of the valve, such as paper direction, cantilever width, paper type, tape type, and sample volume, in addition to the effects of relative humidity and temperature on the functionality of the B-MaC and to provide a better understanding of the rate of fluid flow and resulting deflection of the cantilever. Machine direction, cantilever width, paper type, and tape type were found to be important parameters that affect the B-MAC's activation time. It was also observed that the rate of fluid imbibition in the B-MaC is considerably affected by change in humidity for high (55 °C) and low (25 °C) temperatures, while humidity levels have no significant effect during imbibition in the B-MaC at an ambient temperature of 45 °C. It was also found that a minimum distance of 4 mm is required between the B-MaC and the stationary component to prevent accidental activation of the B-MaC prior to sample insertion when relative humidity is higher than 90% and temperature is lower than 35 °C. The rate of fluid imbibition that determines the wetted length of the B-MaC and the final deflection of the cantilever are critical in designing and fabricating point-of-care microfluidic paper-based devices. The B-MaC valve can be utilized in a fluidic circuit to sequentially load several reagents, in addition to the sample to the detection area. [ABSTRACT FROM AUTHOR]

Published

2022

10. 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

11. EVALUATION OF THE ADHESION STRENGTH OF DOUBLE-SIDED COATED SELF-ADHESIVE TAPES AND THERMAL ADHESIVE.

Author

Stonkus, Rimantas, Laurinaitytė, Emilė, Iljin, Igor, and Jasevičius, Raimondas

Subjects

ADHESIVE tape, STRENGTH of materials, BOND strengths, MANUFACTURING processes, INFORMATION professionals, BOND ratings

Abstract

The work presents an experimental evaluation of the bonding strength of materials commonly used in printing industry, using double-sided adhesive tape and thermal adhesives. The study revealed changes in adhesive strength when bonding various types and structures of paper and cardboard surfaces, as well as laminated glossy and matte surfaces. The experimental study aims to identify surfaces that exhibit optimal adhesive tape adhesion. Moreover, there are also surfaces that should not be used with double-sided tape, but instead should be glued with thermal adhesives. In addition, the study examines the effect of different separation rates on the bond strength of these materials. The results provide valuable information about the adhesive properties of materials in the printing industry, providing useful information for professionals to optimize printing processes and ensure the production of high-quality and durable printed products. The data presented in this article can assist in selecting appropriate adhesives for a variety of printing applications, which will achieve consistent and reliable results and can greatly affect their quality and durability. [ABSTRACT FROM AUTHOR]

Published

2024

12. Ink-jet-printed CuO nanoparticle-enhanced miniaturized paper-based electrochemical platform for hypochlorite sensing.

Author

Ray, Ashirwad, Mohan, Jaligam Murali, Amreen, Khairunnisa, Dubey, Satish Kumar, Javed, Arshad, Ponnalagu, R. N., and Goel, Sanket

Subjects

COPPER oxide, STANDARD hydrogen electrode, INK-jet printing, DRINKING water, CONDUCTIVE ink, ADHESIVE tape

Abstract

Herein, a miniaturized, three-electrode paper-based electrochemical sensing platform for selective and sensitive electroanalytical sensing of hypochlorite has been reported. A hybrid method for fabricating the electrochemical device on the paper-based substrate, using ink-jet printing with conductive carbon inks as counter and reference electrode, has been demonstrated. Further, a CuO@Graphite sheet was incorporated separately using adhesive double-sided tape on the paper-based substrate, which served as the working electrode. The prepared device was subjected to hypochlorite solution of 1 mM to explore the electrochemical behavior of chlorine. Cyclic voltammetry (CV) and square-wave voltammetry (SQWV) were leveraged in the potential window of − 0.7 V to 0 V for conducting the experiments, whereby a sharp reduction peak at a peak potential E0 = − 0.43 V vs Ag/AgCl was obtained. Further, the consequence of potential scan rate and the effect of concentration and interference from other chemicals were also analyzed. A linear concentration range of 90–10 nM and a detection limit of 13.15 nM (9.78 × 10–4 ppm) with standard deviation of 1.013 were obtained. The fabricated paper-based electrode system was also tested on real samples such as lake water and tap water and the results are presented. [ABSTRACT FROM AUTHOR]

Published

2023

13. Conceptions and Feasibility Study of Fiber Orientation in the Melt as Part of a Completely Circular Recycling Concept for Fiber-Reinforced Thermoplastics.

Author

Moritzer, Elmar, Tölle, Lisa, Greb, Christoph, and Haag, Markus

Subjects

FIBER orientation, FIBER-reinforced plastics, THERMOPLASTICS, LIGHTWEIGHT materials, LIGHTWEIGHT construction, PAPER recycling, ADHESIVE tape, REINFORCED thermoplastics

Abstract

Fiber-reinforced thermoplastics are an important construction material for lightweight applications. The increasing use of especially glass fiber-reinforced plastics leads to growing amounts of not recyclable composite materials, which is commonly disposed of by landfilling. Hence, there is a need for a recycling concept for glass-fiber-reinforced plastics that enables their complete reuse over many recycling cycles. In this paper, such a recycling concept is presented, which is based on the idea of melting the whole glass-fiber-reinforced component without prior size reduction. The fiber-reinforced melt will be pressed through a nozzle in order to achieve a strand with highly oriented fibers that can then be applied in new components via a tape-like laying process. The feasibility of the recycling concept is proved in this paper. Therefore, investigations on the reorientation of fibers in the melt by pressing through a rectangular nozzle have been carried out with different nozzle diameters, shear rates and melt temperatures. The investigations result in a stable process, which enables an increase in fiber orientation of about 37% up to a mean fiber orientation of 67% in the flow direction. These findings are independent of the initial fiber orientation. [ABSTRACT FROM AUTHOR]

Published

2023

14. Electrophotography toner adhesion on agro-industrial residue and invasive plant papers.

Author

Karlovits, Igor, Lavrič, Gregor, Kavčič, Urška, and Zorić, Vladimir

Subjects

INVASIVE plants, PLANT residues, SURFACE energy, BLACK locust, JAPANESE knotweed, ADHESIVE tape

Abstract

Sustainability demands circular and material solutions with an emphasis on using local resources. Using alternative fibers from invasive plants and agro-residue promotes local production in smaller paper mills, which have additional benefits for the environment (protecting the local species, reducing agro-industrial waste). In electrophotography printing, toner adhesion is a vital quality parameter showing the prints' resistance against different mechanical stress, leading to toner particle detachment. This study tested six different papers made from invasive plants Japanese Knotweed, Black Locust, Canadian Goldenrod, agro-industrial residues Miscanthus, and Tomato stems and waste jute bags. The papers were printed with electrophotography, and three different toner adhesion methods were used to evaluate the toner adhesion. Paper properties like roughness, surface energy and surface resistivity were tested. The results indicate that uncoated agro-industrial residue and invasive plant papers with low surface roughness, low surface energy and high surface resistivity result in low toner adhesion. The cellulose content of the papers acquired with FTIR analysis did not influence the adhesion. Papers with surface energy over 35 mJ/m2 and surface resistivity below 5E + 1012 Ω values resulted in excellent paper toner adhesion (high IGT printability tester and tape pull test). High grammage and long fibers also improved the adhesion. [ABSTRACT FROM AUTHOR]

Published

2021

15. Research on Printed Conductive Silver Layer based on Inkjet Photo Paper.

Author

Yi Fang, LixinMo, Zhiqing Xin, Yinjie Chen, Xiu Li, Yaling Li, Jitao Zhang, Kairui Cui, and Luhai Li

Subjects

INK, PRINTED electronics, ELECTRONIC equipment, COATING processes, SURFACE morphology, LASER microscopy, ADHESIVE tape, ATHLETIC tape

Abstract

Printed electronics is an emerging technology that applies traditional printing or coating processes to the manufacture of electronic devices and products. In order to find a low-cost, high-performance, environmentally-friendly flexible substrate suitable for electronic devices, the printability between four kinds of inkjet photo papers and nano-silver ink was investigated. First, different surface morphologies of the inkjet photo papers were measured by a confocal laser scanning microscopy. Then, a pen and a gravure printer were used to test the printability between photo papers and nano-silver ink. It was found that the conductive track and pattern was influenced by the surface morphology of the photo papers. Furthermore, a four-probe test showed that the conductivity of the ink layers on the four photo papers was almost at the same level. Furthermore, a tearing test with 3 M tapes showed that the silk photo paper had the best tearing resistance. In general, silk photo paper has the best overall performance. This research could be beneficial for the development of flexible electronic devices which are low-cost, mass manufacture suitable and environment friendly. [ABSTRACT FROM AUTHOR]

Published

2022

16. 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

17. 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

18. Out of the Box.

Author

HOWARD, LACEY, THOMAS, JESSICA, and HUTCHISON, KIM

Subjects

HOLIDAY decorations, ADHESIVE tape

Published

2023

19. Air-Sealing Wood-Frame Buildings.

Author

NORDBYE, TERRY

Subjects

EXTERIOR insulation & finish systems, ORIENTED strand board, CONSTRUCTION slabs, FLAME spread, OFFICE buildings, ADHESIVE tape, PLYWOOD

Abstract

This article highlights the significance of air-sealing wood-frame buildings, particularly older ones with lumber sheathing, in order to prevent air leaks and maintain energy efficiency. It explores various options for establishing an airtight layer on the exterior of the building, including plywood, OSB, tapes, and stucco. The article also offers guidance on air-sealing bonded stucco and suggests solutions for addressing leaks and improving airtightness. It emphasizes the importance of considering materials and climate when selecting the best surface for the airtight layer. The text provides specific instructions for air sealing in different scenarios, such as stucco, brick veneer, and wood siding, and underscores the need for a continuous and unbroken airtight layer throughout the building enclosure. [Extracted from the article]

Published

2024

20. 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

21. 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

22. 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

23. 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

24. REMOVAL OF PRESSURE SENSITIVE TAPES FROM VINTAGE SILVER GELATIN PRINTS USING SELECTED GEL-BASED SYSTEMS: AN EXPERIMENTAL STUDY.

Author

WAHEEB, Mirna, HASSAN, Ola, MOHAMED, Nada, AHMED, Ghada, KAMAL, Maggie, MILAD, Madonna, GEORGE, Madonna, and ALI, Maha

Subjects

GELATIN, FOURIER transform infrared spectroscopy, AGAR, ADHESIVE tape, SILVER, INSPECTION & review, GROUP identity, PRINT materials

Abstract

Historical photographs play a significant role as records, documenting the various stages of the history of Egypt and reflecting our identity and social, cultural, and religious values. Silver gelatin prints were the dominant positive printing processes in the 20th century. One of the most common forms of damage found among photographic collections is tears, which may result from improper handling and misuse, inappropriate storage, disasters, and other factors. In the past, tears were mended using pressure-sensitive tapes by amateurs and conservators. Over time, these tapes caused damage to the photographic surfaces since they oxidised, forming stains that are difficult and sometimes impossible to remove. Recently, many gel-based systems have been developed for use in the conservation of different cultural and historical materials, particularly paper artifacts. The aim of this research is to evaluate the efficacy of Klucel G and agar, as gel systems that are favoured by conservation specialists, in removing pressure-sensitive tapes from the surfaces of silver gelatin prints, as well as to study their effect on the photographs themselves. Organic solvents were added to the gel systems, and invaluable old photographs were used for this study. After treatment, samples were subjected to artificial ageing at a temperature of 80°C and 65% RH. Evaluation of the selected treatments was carried out through visual inspection, microscopic examination, colorimetric measurements, and attenuated total reflectance Fourier transform infrared spectroscopy. Results showed that both gel-based systems with mixed organic solvents gave great results compared to the conventional methods in terms of tape removal. However, colour change was detected in the case of agar gel-treated samples. Agarose gel may be a more proper option. [ABSTRACT FROM AUTHOR]

Published

2024

25. 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

26. 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

27. A high performance RC-INV triggering SCR under 0.25 µm process.

Author

Su, Xuebing, Wang, Yang, Jin, Xiangliang, Yang, Hongjiao, Zhang, Yuye, Yang, Shuaikang, and Yu, Bo

Subjects

SILICON-controlled rectifiers, INTEGRATED circuit design, ELECTROSTATIC discharges, ADHESIVE tape, HIGH voltages, DESIGN protection, ATHLETIC tape

Abstract

Purpose: As it is known, the electrostatic discharge (ESD) protection design of integrated circuit is very important, among which the silicon controlled rectifier (SCR) is one of the most commonly used ESD protection devices. However, the traditional SCR has the disadvantages of too high trigger voltage, too low holding voltage after the snapback and longer turn-on time. The purpose of this paper is to design a high-performance SCR in accordance with the design window under 0.25 µm process, and provide a new scheme for SCR design to reduce the trigger voltage, improve the holding voltage and reduce the turn-on time. Design/methodology/approach: Based on the traditional SCR, an RC-INV trigger circuit is introduced. Through theoretical analysis, TCAD simulation and tape-out verification, it is shown that RC-INV triggering SCR can reduce the trigger voltage, increase the holding voltage and reduce the turn-on time of the device on the premise of maintaining good robustness. Findings: The RC-INV triggering SCR has great performance, and the test shows that the transmission line pulse curve with almost no snapback can be obtained. Compared with the traditional SCR, the trigger voltage decreased from 32.39 to 16.24 V, the holding voltage increased from 3.12 to 14.18 V and the turn-on time decreased from 29.6 to 16.6 ns, decreasing by 43.9% the level of human body model reached 18 kV+. Originality/value: Under 0.25 µm BCD process, this study propose a high-performance RC-INV triggering SCR ESD protection device. The work presented in this paper has a certain guiding significance for the design of SCR ESD protection devices. [ABSTRACT FROM AUTHOR]

Published

2024

28. 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

29. Alkylated Phosphorylated Fibers: A New Substitute for Silicone in Release Paper Manufacturing.

Author

Abenghal, Lahbib, Lamoudan, Hamid, and Brouillette, François

Subjects

ADHESIVE tape, HYDROPHOBIC surfaces, SURFACE energy, FIBERS, RECYCLABLE material, FREE surfaces

Abstract

The production of release coatings has been increasing in recent years because of their use in various fields. However, commercially available release coatings are regarded as non-recyclable. As a consequence, the repulping of these residues is difficult, and their presence in the recycling stream represents an important source of contamination. One solution to this problem is to use new coating materials that can replace the siliconized backing, provided that these new materials are recyclable. As a solution to this problem, the authors propose the use of alkylated phosphorylated fibers to produce an environmentally friendly and inexpensive release paper. The results show that a surface application of hydrophobic phosphorylated fibers reduces the surface free energy of the paper support, as well as the peel strength, which facilitates the separation of the adhesive tape. [ABSTRACT FROM AUTHOR]

Published

2023

30. In the Woods.

Author

Hamilton-Pennell, Bob

Subjects

WATERCOLOR, WATERCOLOR painting, COLOR wheels, PALETTE (Color range), ADHESIVE tape

Published

2023

31. 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

32. 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

33. 点胶-纸带式小粒径种子蔬菜精密播种机设计与试验.

Author

刘彩玲, 李方林, 姜 萌, 黄嵘彪, 戴 磊, and 郜占鹏

Subjects

PLANT spacing, CHINESE cabbage, DISPENSING pumps, MACHINE performance, PLANT variation, ADHESIVE tape, ROTATIONAL motion, CORNSTARCH

Abstract

Copyright of Transactions of the Chinese Society of Agricultural Engineering is the property of Chinese Society of Agricultural Engineering and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2022

34. Strength and Ultrasonic Testing of Acrylic Foam Adhesive Tape.

Author

Kowalczyk, Jakub and Jósko, Marian

Subjects

ADHESIVE joints, ULTRASONIC bonding, SURFACE preparation, NONDESTRUCTIVE testing, ADHESIVES, ADHESIVE tape

Abstract

Adhesive joints are some of the oldest inseparable connections, and were used much earlier than other non-separable connections (e.g., welded, soldered). Adhesives are widely used in the manufacture of vehicles, household appliances, aircraft, and medicine. One disadvantage of adhesive joints is their long bonding time (amounting, for example, to 72 h for polyurethane adhesives used in bus roof bonding), and another is their production of harmful waste. Tapes that are adhesive coated on both sides are increasingly being used to join parts during production. Such tapes have lower strength than traditional adhesives, but their bonding time is much shorter. In addition, the amount of waste remaining after production is minimized. Tapes, like adhesives, dampen vibrations well and seal the materials being joined. The purpose of this study was to evaluate the influence of selected factors on the quality of tape–steel sheet joints and to assess the possibility of testing acrylic tape–steel sheet joints using ultrasonic methods. It was found that the preparation of a surface for bonding has a significant effect on the quality of the joint, and it was confirmed that non-destructive evaluation of the quality of the tested joints by the ultrasonic method is possible. The decibel drop in the height of the first and fifth pulses obtained on the screen of the ultrasonic defectoscope was proposed as an ultrasonic measure. The highest-quality joints were characterized by a measure in the range of 12 dB, lower-quality areas of about 8 dB, and tape-free areas of about 5 dB. At the same time, it was noted that in the case of proper surface preparation, there was cohesive failure of the joint during breakage. [ABSTRACT FROM AUTHOR]

Published

2024

35. Low Speed Impact of an Elastic Ball with Tapes and Clay Court.

Author

Akhan, Ahmet F. and Marghitu, Dan B.

Subjects

ADHESIVE tape, TENNIS balls, CLAY, COEFFICIENT of restitution, PLASTICS, GRANULAR materials

Abstract

The study aims to investigate the normal and oblique impact of an elastic sphere (tennis ball) on a granular surface (clay) and two different plastic tape lines. In this research, we model the impact force with a mathematical elastoplastic force model, and a differential approach is used. The model is applied for an impact with granular material (green clay) and plastic surfaces (line tapes). We investigated the normal and oblique impact dynamics of a sphere (tennis ball). The impact duration is divided into two phases: compression with an elastoplastic force and restitution with an elastic force. The laboratory experiments in various configurations are recorded with a high frame-per-second camera and analyzed using image processing methods. The mathematical model for the impact with rebounds is verified with the experimental set-up for the considered surfaces. The viscoelastic and elastic forces agree well with the experimental data. The impact parameters of the granular surface and plastic tapes are compared. The ANOVA test suggests robust statistical significance in the coefficient of restitution between granular surfaces and plastic tapes. Our force model for impact performs well, and the impact responses of the sphere on the granular surface and the plastic line tapes are significantly different. [ABSTRACT FROM AUTHOR]

Published

2024

36. Analysis of coated samples containing hydroxyapatite/multiwalled carbon nanotubes on 2205 DSS substrate.

Author

Albaraqaawee, Zainab, Abdulsada, Shaymaa Abbas, and Al-Mosawi, Ali I

Subjects

CARBON nanotubes, MULTIWALLED carbon nanotubes, ADHESIVE tape, DUPLEX stainless steel, HYDROXYAPATITE, FOURIER transform infrared spectroscopy, ESCHERICHIA coli

Abstract

For biomedical applications, hydroxyapatite and carbon nanotubes are currently being applied over duplex stainless steel (DSS) alone in order to increase corrosion resistance and biocompatibility. A composite of hydroxyapatite and multi-walled carbon nanotubes was used to improve biocompatibility, osseointegration, and corrosion resistance on 2205 DSS using electrophoretic deposition. The study investigates the effects of potential and time on the properties of the deposited layer in order to determine electrophoretic deposition factor values that are appropriate. The coating properties and effective groups of the phase resulting from this process are determined by Fourier transform infrared spectroscopy and X-ray diffraction. The antibacterial properties of E. coli bacterial strains are investigated for the coated layer. The adhesion between the hydroxyapatite and multi-walled carbon nanotube layers on the 2205 duplex stainless steel substrate was qualitatively evaluated using the adhesive tape test. It was found that the optimal suspension, which consists of 65 weight percent hydrogen acetate and 35 weight percent multi-walled carbon nanotubes, had a homogeneous morphology, a thick structure, and no cracks when coated at 50 V for two minutes. [ABSTRACT FROM AUTHOR]

Published

2024

37. An Eastern County from an European Eastern Country—The Characteristics of Cutaneous Microbiome in Psoriasis Patients—Preliminary Results.

Author

Radaschin, Diana Sabina, Iancu, Alina Viorica, Ionescu, Alexandra Mariana, Gurau, Gabriela, Niculet, Elena, Bujoreanu, Florin Ciprian, Nastase, Florentina, Radaschin, Teodora, Popa, Liliana Gabriela, Axente, Roxana Elena, and Tatu, Alin Laurentiu

Subjects

PSORIASIS, ADHESIVE tape, STAPHYLOCOCCUS epidermidis, MASS spectrometers, STAPHYLOCOCCUS aureus

Abstract

The cutaneous microbiome represents a topic of high interest nowadays. Multiple studies have suggested the importance of the skin microbiome in different dermatological pathologies, highlighting the possible implications of cutaneous microorganisms in either the pathogenesis or prognosis of skin maladies. Psoriasis represents a common inflammatory skin disease, with a high prevalence in the worldwide population. The role of the cutaneous microbiome in psoriasis could explain a number of pathogenic theories and treatment objectives of this incurable skin disease. Our interest in the characteristics of the cutaneous microbiome, especially in psoriatic patients who attended a tertiary dermatological centre in Galati, Romania, is reflected in our current study, of which the preliminary results are discussed in this article. Using three types of skin sampling techniques (swabs, adhesive tape, and punch biopsies), we tried to characterise the microorganisms harboured in the skin of psoriatic patients and healthy individuals. This study was performed using culture-based probes, which were analysed using MALDI-TOF mass spectrometer equipment. Our preliminary results suggested that the greatest diversity was observed in the perilesional areas of psoriatic patients. The lowest cutaneous diversity was obtained from sampling psoriatic plaques. These results are similar to other studies of the cutaneous microbiome in psoriasis. The most frequent microorganisms found in all groups studied were of the Staphylococcus species: Staphylococcus epidermidis, Staphylococcus hominis, and Staphylococcus aureus. Analysing the living environment of each individual from this study, our preliminary results suggested different results from other studies, as higher diversity and heterogenicity was observed in urban environments than in rural living areas. Regarding the differences between sexes, our preliminary results showed higher quantitative and qualitative changes in the skin microbiome of male participants than female participants, opposite to the results found in other studies of the cutaneous microbiome in psoriasis. Given these preliminary results, we can conclude that we have found important differences by studying the cutaneous microbiome of psoriatic patients and healthy control individuals from a population that, to our knowledge, has not been yet studied from this point of view. Our results showed important characteristics of the skin microbiome in an Eastern European population, where cultural and environmental living habits could influence the cutaneous microbiome. [ABSTRACT FROM AUTHOR]

Published

2024

38. 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

39. 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

40. 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

41. Development of a Water‐Based Pressure‐Sensitive Adhesive via Emulsion Polymerization for Packaging Tape Applications.

Author

Kiral Çelik, Nahide and Gürmen, Tuğba

Subjects

ANIONIC surfactants, METHACRYLIC acid, ADHESIVE tape, ACRYLIC acid, CHEMICAL structure, EMULSION polymerization

Abstract

In this study, water‐based pressure‐sensitive adhesives (PSAs) were synthesized through an emulsion polymerization process using n‐butyl acrylate, methacrylic acid, acrylic acid, and N‐vinylpyrrolidone monomers, in combination with anionic and non‐ionic surfactants. The PSA was coated onto the corona‐treated surface of a BOPP film using a Mayer bar to prepare packaging tape. The effect of surfactant concentration on the properties of the resulting copolymer and PSA was investigated. The chemical structure, component distribution, and thermal behavior of the copolymer were analyzed using FTIR, HPLC, and DSC. The physical properties of the synthesized copolymer, such as solid content, viscosity, particle size, and gel content, were also determined. The performance of the prepared packaging tapes was evaluated through loop tack, 180° peel, and holding shear time tests. The results indicated that surfactant concentration significantly affected the adhesive's performance. Notably, the use of a 2.5 wt% surfactant mixture yielded promising results, with high monomer conversions and excellent adhesion properties in the tape. [ABSTRACT FROM AUTHOR]

Published

2024

42. Risk factors and characteristics of intraoperative pressure injuries caused by medical devices and adhesives: A case‑control retrospective study.

Author

ALTAMIMI, ABDULRHMAN M., MORTADA, HATAN, ALQARNI, ADEL A., ALSUBAIE, ALI A., and ALSAFAR, REEM J.

Subjects

MEDICAL personnel, MEDICAL incident reports, SKIN injuries, ELECTRONIC health records, INJURY risk factors, ADHESIVE tape, PRESSURE ulcers

Abstract

Background: Undesirable injuries during the intraoperative period, such as pressure injuries caused by improper positioning, medical devices, or adhesive tapes, can lead to patient harm and decreased satisfaction. This study aims to identify the risk factors of pressure injuries during the intraoperative period and the characteristics of these injuries. Methods: A retrospective case‑control study was conducted at King Khaled University Hospital in Riyadh, Saudi Arabia. Data were collected from the hospital incident reporting system and electronic medical records for incidents reported from January 1, 2022 to December 31, 2022. Inclusion criteria consisted of all patients with a reported pressure injury, including pressure ulcers, medical adhesive‑related skin injuries, or medical device‑related pressure injuries, occurring at least once during surgery. Results: Among the 113 patients, 57 (50.44%) had intraoperative pressure injuries (cases), while 56 (49.56%) did not (controls). The most common locations for pressure injuries were the lips (33.33%). Most of these injuries were classified as Medical Adhesive‑Related Skin Injury (61.40%). Stage 1 injuries were observed in 47 cases (82.46%), while Stage 2 injuries were observed in 10 cases (17.54%). Duration of surgery and device tightness were identified as significant risk factors (P < 0.001). Conclusion: This case‑control study identified the duration of surgery and device tightness as significant risk factors for intraoperative pressure injuries. The findings emphasize the importance of implementing evidence‑based prevention strategies. Healthcare professionals should prioritize staff education and training, while future research should focus on conducting prospective, multicenter studies and developing risk assessment tools and innovative medical devices. [ABSTRACT FROM AUTHOR]

Published

2024

43. LEGO-Based Physics Lab: The Potential of LEGO Bricks for Modeling in Physics.

Author

González, Dany López

Subjects

MECHANICS (Physics), SLIDING friction, MICHELSON interferometer, ELECTRIC potential, ADHESIVE tape

Abstract

This article examines the use of LEGO bricks as a tool for modeling physics phenomena in laboratory courses. The author provides examples of how LEGO bricks can be used to represent various concepts in physics, such as parabolic trajectories and oscillation graphs. The article also discusses the benefits of using LEGO bricks for inquiry-based learning and fostering students' comprehension and creativity in physics. While the author emphasizes the pedagogical value of LEGO bricks in physics education, they acknowledge the need for further research in this area. The article concludes by clarifying that it is not funded or sponsored by the LEGO company. [Extracted from the article]

Published

2024

44. Cyanoacrylate contact allergy: Tape stripping modification of conventional patch testing.

Author

Kumari, Ruchika, Gelvezon, Analyn, Teo, Ying X., Cunningham, Louise, McSweeney, Sheila M., McFadden, John P., and White, Ian R.

Subjects

MEDICAL personnel, DATA editing, SKIN tests, CYANOACRYLATES, SURGICAL site, ADHESIVE tape, MAMMAPLASTY

Abstract

This article discusses a case series involving eight patients who underwent patch testing for suspected cyanoacrylate contact allergy post-surgery. The patients were tested using a conventional patch testing method as well as a modified method called tape stripping. The results showed that tape stripping increased the sensitivity of patch testing to cyanoacrylates, particularly in cases where the conventional method yielded negative or doubtful reactions. The study also found that ethyl cyanoacrylate (ECA) was positive in five cases, suggesting potential cross-reactivity or co-sensitization. The authors conclude that tape stripping prior to patch testing can be a useful and pragmatic method for testing with medical adhesives when the suspected allergens are not commercially available. [Extracted from the article]

Published

2024

45. Craft-and-Stick Xurographic Manufacturing of Integrated Microfluidic Electrochemical Sensing Platform.

Author

Kongkaew, Supatinee, Meng, Lingyin, Limbut, Warakorn, Liu, Guozhen, Kanatharana, Proespichaya, Thavarungkul, Panote, and Mak, Wing Cheung

Subjects

PRUSSIAN blue, ADHESIVE tape, POLYETHYLENE terephthalate, GLUCOSE oxidase, GLUCOSE, BIOSENSORS, MICROFLUIDIC devices

Abstract

An innovative modular approach for facile design and construction of flexible microfluidic biosensor platforms based on a dry manufacturing "craft-and-stick" approach is developed. The design and fabrication of the flexible graphene paper electrode (GPE) unit and polyethylene tetraphthalate sheet (PET)6/adhesive fluidic unit are completed by an economic and generic xurographic craft approach. The GPE widths and the microfluidic channels can be constructed down to 300 μm and 200 μm, respectively. Both units were assembled by simple double-sided adhesive tapes into a microfluidic integrated GPE (MF-iGPE) that are flexible, thin (<0.5 mm), and lightweight (0.4 g). We further functionalized the iGPE with Prussian blue and glucose oxidase for the fabrication of MF-iGPE glucose biosensors. With a closed-channel PET fluidic pattern, the MF-iGPE glucose biosensors were packaged and sealed to protect the integrated device from moisture for storage and could easily open with scissors for sample loading. Our glucose biosensors showed 2 linear dynamic regions of 0.05–1.0 and 1.0–5.5 mmol L−1 glucose. The MF-iGPE showed good reproducibility for glucose detection (RSD < 6.1%, n = 6) and required only 10 μL of the analyte. This modular craft-and-stick manufacturing approach could potentially further develop along the concept of paper-crafted model assembly kits suitable for low-resource laboratories or classroom settings. [ABSTRACT FROM AUTHOR]

Published

2023

46. 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

47. 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

48. A Peel Test Method to Characterize the Decay Law of Prepreg Tape Tack at Different Temperatures.

Author

Shi, Jiaqi, Wang, Wang, Wang, Yuequan, Qi, Junwei, and Xiao, Jun

Subjects

TEST methods, COST control, MANUFACTURING processes, TEMPERATURE, ADHESIVE tape, PRESSURE-sensitive adhesives

Abstract

The tack of prepreg is a key factor affecting the automatic tape laying process. During the manufacturing process of large composite parts, prepreg material may be stored at room temperature for several days, resulting in a decrease in its tack. In this study, a new tack test tool was designed, and the decay rate of prepreg tack at different temperatures was tested. We proposed a prepreg tack decay model, which assumes that the main factor in tack decay is the reduction in resin chain activity during storage. The maximum deviation between the model calculation results and the experimental results of the tack decay rate is 9.7%. This study also proposed a new statistical unit for prepreg tack, which can establish the relationship between the tack of prepreg and its remaining storage time and reduce prepreg management costs. [ABSTRACT FROM AUTHOR]

Published

2024

49. Soft Robots with Plant‐Inspired Gravitropism Based on Fluidic Liquid Metal.

Author

Chen, Gangsheng, Ma, Biao, Chen, Yi, Chen, Yanjie, Zhang, Jin, and Liu, Hong

Subjects

LIQUID metals, GEOTROPISM, LIQUID crystals, ROBOTS, GRAVITATIONAL fields, ADHESIVE tape

Abstract

Plants can autonomously adjust their growth direction based on the gravitropic response to maximize energy acquisition, despite lacking nerves and muscles. Endowing soft robots with gravitropism may facilitate the development of self‐regulating systems free of electronics, but remains elusive. Herein, acceleration‐regulated soft actuators are described that can respond to the gravitational field by leveraging the unique fluidity of liquid metal in its self‐limiting oxide skin. The soft actuator is obtained by magnetic printing of the fluidic liquid metal heater circuit on a thermoresponsive liquid crystal elastomer. The Joule heat of the liquid metal circuit with gravity‐regulated resistance can be programmed by changing the actuator's pose to induce the flow of liquid metal. The actuator can autonomously adjust its bending degree by the dynamic interaction between its thermomechanical response and gravity. A gravity‐interactive soft gripper is also created with controllable grasping and releasing by rotating the actuator. Moreover, it is demonstrated that self‐regulated oscillation motion can be achieved by interfacing the actuator with a monostable tape spring, allowing the electronics‐free control of a bionic walker. This work paves the avenue for the development of liquid metal‐based reconfigurable electronics and electronics‐free soft robots that can perceive gravity or acceleration. [ABSTRACT FROM AUTHOR]

Published

2024

50. Development of a Systematic Approach for the Assessment of Adhesive Tape Suitability to Ensure Airtightness.

Author

Jucienė, Milda, Dobilaitė, Vaida, Kumžienė, Jurga, Banionis, Karolis, Paukštys, Valdas, and Stonkuvienė, Aurelija

Subjects

ADHESIVE tape, PARTICLE board, PLYWOOD, BOND strengths, GYPSUM, PERMEABILITY

Abstract

Ensuring the tightness of buildings using self-adhesive tapes is one of the cost-effective, efficient, and reliable solutions. There is a lack of research, standards, and methodologies for construction adhesive tape, especially for assessing the functional properties of the tape after ageing. The aim of this work is to evaluate the tightness of different building surfaces and adhesive tape systems by conducting artificial ageing. It was found that adhesive tapes with an acrylic adhesive base ensured a fully sealed system. In all cases, tapes applied to surfaces such as plywood, gypsum plasterboard, cement-bonded particle board, plastered cement-bonded particle board, and plastic board provided sufficient sealing. The air permeability of the tapes on the OSB was two to seven times higher than that of the defined sealed system with other surfaces. In most cases, air permeability increased on OSB, gypsum plasterboard, and plastered cement-bonded particle board after ageing. The least problematic surface is the plastic board. In all tested cases, adequate sealing was observed after ageing, with only three of all tested tapes not providing sufficient bonding strength. [ABSTRACT FROM AUTHOR]

Published

2024