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Journal articles on the topic 'Pressure sensitive tape'

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Author: Grafiati
Published: 10 March 2023

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1

Zhao, Boxin, Luis Anderson, Alison Banks, and Robert Pelton. "Paper properties affecting pressure-sensitive tape adhesion." Journal of Adhesion Science and Technology 18, no. 14 (January 2004): 1625–41. http://dx.doi.org/10.1163/1568561042411321.

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2

Sakayanagi, Masataka, Yaeko Konda, Kunio Watanabe, and Yoshihiro Harigaya. "Identification of Pressure-Sensitive Adhesive Polypropylene Tape." Journal of Forensic Sciences 48, no. 1 (January 1, 2003): 2002245. http://dx.doi.org/10.1520/jfs2002245.

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3

Plaut, Raymond H. "Peeling Pressure-Sensitive Adhesive Tape from Thin Elastic Strip." Journal of Adhesion 86, no. 7 (July 16, 2010): 675–97. http://dx.doi.org/10.1080/00218464.2010.482387.

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4

Mahajan, Meenakshi, and S. P. Arya. "Examination of Writings Concealed by Black Pressure Sensitive Adhesive Tape." Journal of Forensic Sciences 52, no. 5 (September 2007): 1212–13. http://dx.doi.org/10.1111/j.1556-4029.2007.00537.x.

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5

Prachasilchai, Worapat, Sittiporn Punyanitya, Rungsarit Koonawoot, Anucha Ruksanti, Phanlob Chankachang, and Sakdiphon Thiansem. "Novel Pressure-Sensitive Adhesive Made from Glutinous Rice Flour." Key Engineering Materials 862 (September 2020): 120–24. http://dx.doi.org/10.4028/www.scientific.net/kem.862.120.

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Successfully pressure-sensitive adhesives have been used by many industrial tape and label applications.This tape widely used in daily life of adhesive bandage. In this work, the novel the adhesive is fabricated from glutinous rice flour, gelatin, polyvinyl alcohol, borax, methyl paraben and glycerol. Characteristics of adhesive were then investigated by scanning electron microscopy (SEM), and swelling ratios. Mechanical characterization and tissue adhesive bonding test of the final product were also performed.
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6

Barrios, Carlos Angulo. "Pressure Sensitive Adhesive Tape: A Versatile Material Platform for Optical Sensors." Sensors 20, no. 18 (September 16, 2020): 5303. http://dx.doi.org/10.3390/s20185303.

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Pressure sensitive adhesive (PSA) tapes are a versatile, safe and easy-to-use solution for fastening, sealing, masking, or joining. They are widely employed in daily life, from domestic use to industrial applications in sectors such as construction and the automotive industry. In recent years, PSA tapes have found a place in the field of micro- and nanotechnology, particularly in contact transfer techniques where they can be used as either sacrificial layers or flexible substrates. As a consequence, various optical sensing configurations based on PSA tapes have been developed. In this paper, recent achievements related to the use of PSA tapes as functional and integral parts of optical sensors are reviewed. These include refractive index sensors, optomechanical sensors and vapor sensors.
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7

Li, Bangyu, and Yangyang Huang. "Application of primer and ultraviolet radiation in pressure sensitive adhesive tape." IOP Conference Series: Materials Science and Engineering 397 (August 31, 2018): 012145. http://dx.doi.org/10.1088/1757-899x/397/1/012145.

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8

EBE, Kazuyoshi, Hideo SENOO, and Osamu YAMAZAKI. "Novel Pressure-sensitive Bonding Tape in the Three-dimensional Chip Stacking." Journal of The Adhesion Society of Japan 42, no. 7 (2006): 280–86. http://dx.doi.org/10.11618/adhesion.42.280.

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9

Miyagi, Zenichi, and Kentaro Yamamoto. "Viscoelastic Analysis of Shear Adhesion Test for Pressure-Sensitive Adhesive Tape." Journal of Adhesion 21, no. 3-4 (April 1987): 243–50. http://dx.doi.org/10.1080/00218468708074972.

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10

Nakao, Kazumune, and Yoshiro Nishimura. "Release Mechanisms for Pressure Sensitive Adhesive Tape on Silicone-Coated Glass." Journal of Adhesion 46, no. 1-4 (September 1994): 117–30. http://dx.doi.org/10.1080/00218469408026654.

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11

NAKAMURA, Yoshinobu, FUJITA FUJITA, Manabu ADACHI, Yuta TACHIBANA, Takeo IIDA, and Yoshiaki URAHAMA. "Some Problems on Pressure Sensitive Adhesive Tape Used in Cross Cut Test." Journal of The Adhesion Society of Japan 42, no. 4 (2006): 138–45. http://dx.doi.org/10.11618/adhesion.42.138.

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12

Kappes, M., G. S. Frankel, and N. Sridhar. "Adhesion and adhesion degradation of a pressure sensitive tape on carbon steel." Progress in Organic Coatings 69, no. 1 (September 2010): 57–62. http://dx.doi.org/10.1016/j.porgcoat.2010.05.005.

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13

Takigawa, M. "Treatment of viral warts with pressure-sensitive adhesive tape containing bleomycin sulfate." Archives of Dermatology 121, no. 9 (September 1, 1985): 1108. http://dx.doi.org/10.1001/archderm.121.9.1108.

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14

Takigawa, Masahiro. "Treatment of Viral Warts With Pressure-Sensitive Adhesive Tape Containing Bleomycin Sulfate." Archives of Dermatology 121, no. 9 (September 1, 1985): 1108. http://dx.doi.org/10.1001/archderm.1985.01660090022008.

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15

Huang, Li Qiang, and Mo Liu. "Research on Preparation and Characterization of Easy-to-Open Tear Tape for Corrugated Carton." Advanced Materials Research 174 (December 2010): 525–30. http://dx.doi.org/10.4028/www.scientific.net/amr.174.525.

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This paper presented a novel tape, which was used to open the corrugated cartons more easily and quickly. Structure of the tear tape consisted of backing materials (acrylic fibers), adhesive (acrylic pressure-sensitive adhesive) and release paper. Prepared tear tapes with different thickness, analyzed the influence of tear tape thickness on performance of open system and added them to the corrugated board, then tested the opening properties of the corrugated board above. The results indicate that the tape, with 0.18mm in thickness and about 25mm in width, can split high quantitative corrugated board smoothly, the tensile strength for opening is 105N at maximum, which means these tape can satisfy the needs of easy-to-open technique.
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16

Singh, Anil Kumar, and Gurdeep Singh. "Biocompatibility Studies of Electron Beam Cured Pressure Sensitive Adhesive Tape for Medical Application." Current Science 110, no. 6 (March 1, 2015): 1023. http://dx.doi.org/10.18520/cs/v110/i6/1023-1030.

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17

Sancaktar, Erol, and Tito Enrique Garza-Lopez. "Evaluation of pressure-sensitive tape adhesion and backing directionality by excimer laser methods." Journal of Adhesion Science and Technology 18, no. 1 (January 2004): 69–86. http://dx.doi.org/10.1163/156856104322747018.

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18

Merrill, Rena A., and Edward G. Bartick. "Analysis of Pressure Sensitive Adhesive Tape: I. Evaluation of Infrared ATR Accessory Advances." Journal of Forensic Sciences 45, no. 1 (January 1, 2000): 14645J. http://dx.doi.org/10.1520/jfs14645j.

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19

Gan, Yang. "Water — A Clean “Glue” to Attach Hydrophilic Plates to an AFM Sample Stage." Microscopy Today 14, no. 4 (July 2006): 64. http://dx.doi.org/10.1017/s1551929500050331.

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Attaching a sample to the instrument's sample stage is commonly the first step in the operation of an AFM. For our commercial Digital Instruments Multimode AFM, a sample is usually attached to a magnetic sample puck by double-sided tape, the sample puck is then placed on the instrument’s magnetic sample stage, and analysis can begin.The use of double-sided tape, however, has unpleasant consequences. First, the surface of the sample puck becomes quite sticky due to residual glue from the double-sided tape ! removing the sticky glue is not a happy job. One cannot just throw a soiled sample puck away! Second, double-sided tape does not always give satisfactory mechanical stability during AFM operation, especially when high resolution imaging is being carried out. Sometimes the tape-mounted sample will creep slowly, which can cause significant drift of AFM images. This is because the tapes and their adhesive films are made of pressure sensitive materials that tend to change shape when pressure and/or temperature vary.
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20

Hui, Chung-Yuen, Zezhou Liu, Helen Minsky, Costantino Creton, and Matteo Ciccotti. "Mechanics of an adhesive tape in a zero degree peel test: effect of large deformation and material nonlinearity." Soft Matter 14, no. 47 (2018): 9681–92. http://dx.doi.org/10.1039/c8sm01731j.

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21

Li, Ming, Weijun Li, Qingwen Guan, Xiaoli Dai, Jing Lv, Zhenhai Xia, Wee-Jun Ong, Eduardo Saiz, and Xu Hou. "A Tough Reversible Biomimetic Transparent Adhesive Tape with Pressure-Sensitive and Wet-Cleaning Properties." ACS Nano 15, no. 12 (November 19, 2021): 19194–201. http://dx.doi.org/10.1021/acsnano.1c03882.

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22

He, Min, Qiu Yu Zhang, and Ji Ying Guo. "Synthesis and Characterization of Water Based Acrylic Pressure Sensitive Adhesive of Surface Protection Tape." Advanced Materials Research 306-307 (August 2011): 1785–91. http://dx.doi.org/10.4028/www.scientific.net/amr.306-307.1785.

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The water based acrylic pressure sensitive adhesive was synthesized by seeded pre-emulsion polymerization, the influence of the amount of seeded pre-emulsion, and tri-functional aziridine crosslinker on the properties of the adhesive were studied. It was found that with the increase of the amount of seeded pre-emulsion, latex particle size decreases, contrasted with the increase of the viscosity, surface tension and contact angle of the emulsion; The aging performance of the adhesive can be significantly improved with the increase of the content of the crosslinker; compared with high temperature, high humidity has a more worse negative effect on the aging performance of the adhesive.
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23

Suzuki, Takamasa, Tomohiro Aoki, Masato Saito, Ichiro Hijikuro, Shoko Itakura, Hiroaki Todo, and Kenji Sugibayashi. "Enhancement of Skin Permeation of a Hydrophilic Drug from Acryl-Based Pressure-Sensitive Adhesive Tape." Pharmaceutical Research 38, no. 2 (January 29, 2021): 289–99. http://dx.doi.org/10.1007/s11095-021-02996-z.

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24

Qin, Yuan, Ao Zhang, Xinxing Wang, Peng Mao, Yuzheng Xia, Susan Oliver, Tongle Wang, Lei Lei, Bifa Fan, and Shuxian Shi. "Acrylate pressure-sensitive adhesives tape as cover membrane for preventing ultrasound probes from cross-infections." Surfaces and Interfaces 27 (December 2021): 101503. http://dx.doi.org/10.1016/j.surfin.2021.101503.

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25

Singh, Anil Kumar, Dayal Singh Mehra, Utpal Kumar Niyogi, Sunil Sabharwal, and Gurdeep Singh. "Life performance evaluation of electron beam-curable polyurethane pressure-sensitive adhesive tape for medical applications." Journal of Adhesion Science and Technology 28, no. 12 (March 5, 2014): 1192–206. http://dx.doi.org/10.1080/01694243.2014.892558.

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26

Urahama, Yoshiaki. "Effect of Peel Load on Stringiness Phenomena and Peel Speed of Pressure-Sensitive Adhesive Tape." Journal of Adhesion 31, no. 1 (December 1989): 47–58. http://dx.doi.org/10.1080/00218468908048213.

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27

Wang, Shu, Li Shuai, Basudeb Saha, Dionisios G. Vlachos, and Thomas H. Epps. "From Tree to Tape: Direct Synthesis of Pressure Sensitive Adhesives from Depolymerized Raw Lignocellulosic Biomass." ACS Central Science 4, no. 6 (May 15, 2018): 701–8. http://dx.doi.org/10.1021/acscentsci.8b00140.

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28

Lee, S., L. C. Jensen, S. C. Langford, and J. T. Dickinson. "Electrical transients generated by the peel of a pressure sensitive adhesive tape from a copper substrate." Journal of Adhesion Science and Technology 9, no. 1 (January 1995): 1–26. http://dx.doi.org/10.1163/156856195x00266.

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29

Scudiero, L., J. T. Dickinson, L. C. Jensen, and S. C. Langford. "Electrical transients generated by the peel of a pressure sensitive adhesive tape from a copper substrate." Journal of Adhesion Science and Technology 9, no. 1 (January 1995): 27–45. http://dx.doi.org/10.1163/156856195x00275.

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30

Williams, John A., and James J. Kauzlarich. "Energy and force distributions during mandrel peeling of a flexible tape with a pressure-sensitive adhesive." Journal of Adhesion Science and Technology 20, no. 7 (January 2006): 661–76. http://dx.doi.org/10.1163/156856106777412464.

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31

MIYAGI, Zenichi, and Kentaro YAMAMOTO. "Development of a shear adhesion tester of pressure sensitive adhesion tape and visco-elastic analysis of the slippage." Journal of the Japan Society for Precision Engineering 52, no. 5 (1986): 894–99. http://dx.doi.org/10.2493/jjspe.52.894.

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32

Escobar, Juan Valentin, and M. C. Hernández-Hernández. "Discharge dynamics from an x-ray generating tribosource." Applied Physics Letters 122, no. 6 (February 6, 2023): 061602. http://dx.doi.org/10.1063/5.0127155.

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When an adhesive tape is peeled in vacuum, x rays are generated in burst of short duration (order nanosecond) whose origin is not yet fully understood. In this work, we analyze the electrical discharge dynamics occurring when a pressure-sensitive adhesive tape is peeled from its own backing in x-ray emitting conditions. We characterize these dynamics with the time between consecutive discharges and study its statistical properties as a function of both peeling speed and surrounding air pressure. We find that processes whose dynamics are characterized by shorter timescales generate the high energy portion of the x-ray spectrum. Furthermore, the air pressure affects the emission intensity but not the maximum single photon energy attainable. Our results indicate that there exist more complex physical mechanisms at play than previously thought in this system. Understanding the physical processes behind these dynamics may help improve the yield from devices that use this technology for x-ray production.
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33

Kleinteich, Thomas, and Stanislav N. Gorb. "Frog tongue acts as muscle-powered adhesive tape." Royal Society Open Science 2, no. 9 (September 2015): 150333. http://dx.doi.org/10.1098/rsos.150333.

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Frogs are well known to capture fast-moving prey by flicking their sticky tongues out of the mouth. This tongue projection behaviour happens extremely fast which makes frog tongues a biological high-speed adhesive system. The processes at the interface between tongue and prey, and thus the mechanism of adhesion, however, are completely unknown. Here, we captured the contact mechanics of frog tongues by filming tongue adhesion at 2000 frames per second through an illuminated glass. We found that the tongue rolls over the target during attachment. However, during the pulling phase, the tongue retractor muscle acts perpendicular to the target surface and thus prevents peeling during tongue retraction. When the tongue detaches, mucus fibrils form between the tongue and the target. Fibrils commonly occur in pressure-sensitive adhesives, and thus frog tongues might be a biological analogue to these engineered materials. The fibrils in frog tongues are related to the presence of microscopic papillae on the surface. Together with a layer of nanoscale fibres underneath the tongue epithelium, these surface papillae will make the tongue adaptable to asperities. For the first time, to the best of our knowledge, we are able to integrate anatomy and function to explain the processes during adhesion in frog tongues.
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34

Oliva, Maureen, Dong Zhang, Paola Prada-Tiedemann, and Gerardo Gamez. "Laser assisted sampling vs direct desorption flowing atmospheric pressure afterglow mass spectrometry of complex polymer samples: Forensic implications for pressure sensitive tape chemical analysis." Talanta 231 (August 2021): 122333. http://dx.doi.org/10.1016/j.talanta.2021.122333.

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35

Swanson, Shawn, Rahaf Bashmail, Christopher R. Fellin, Vivian Luu, Nicholas Shires, Phillip A. Cox, Alshakim Nelson, et al. "Prototype Development of a Temperature-Sensitive High-Adhesion Medical Tape to Reduce Medical-Adhesive-Related Skin Injury and Improve Quality of Care." International Journal of Molecular Sciences 23, no. 13 (June 28, 2022): 7164. http://dx.doi.org/10.3390/ijms23137164.

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Medical adhesives are used to secure wound care dressings and other critical devices to the skin. Without means of safe removal, these stronger adhesives are difficult to painlessly remove from the skin and may cause medical-adhesive-related skin injuries (MARSI), including skin tears and an increased risk of infection. Lower-adhesion medical tapes may be applied to avoid MARSI, leading to device dislodgement and further medical complications. This paper outlines the development of a high-adhesion medical tape designed for low skin trauma upon release. By warming the skin-attached tape for 10–30 s, a significant loss in adhesion was achieved. A C14/C18 copolymer was developed and combined with a selected pressure-sensitive adhesive (PSA) material. The addition of 1% C14/C18 copolymer yielded the largest temperature-responsive drop in surface adhesion. The adhesive film was characterized using AFM, and distinct nanodomains were identified on the exterior surface of the PSA. Our optimized formulation yielded 67% drop in adhesion when warmed to 45 °C, perhaps due to melting nanodomains weakening the adhesive–substrate boundary layer. Pilot clinical testing resulted in a significant decrease in pain when a heat pack was used for removal, giving an average pain reduction of 66%.
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36

Kim, Dong-Bok. "Effect of Acrylic Acid Contents and Inorganic Fillers on Physical Properties of Acrylic Pressure Sensitive Adhesive Tape by UV Curing." Polymer Korea 37, no. 2 (March 25, 2013): 184–95. http://dx.doi.org/10.7317/pk.2013.37.2.184.

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37

Bernasconi, A., S. Cardamone, and M. Giglio. "Experiments on the combined use of a double-sided pressure-sensitive tape and an epoxy adhesive to reduce handling time." Journal of Adhesion Science and Technology 32, no. 15 (February 26, 2018): 1687–99. http://dx.doi.org/10.1080/01694243.2018.1442284.

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38

Hao, Panpan, Bingyan Sun, Xiaomeng Chu, Yujuan Sun, Xuteng Xing, Shaojie Liu, Erjun Tang, and Xiaodong Xu. "Effect of castor oil based urethane oligomer on properties of UV-curable pressure sensitive adhesive for peelable wafer dicing tape." Journal of Adhesion Science and Technology 34, no. 23 (May 28, 2020): 2499–509. http://dx.doi.org/10.1080/01694243.2020.1771974.

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39

Sato, Kimihiro, Naomi Mitsui, Tetsuya Hasegawa, Kenji Sugibayashi, and Yasunori Morimoto. "Potential usefulness of solubility index for prediction of the skin permeation rate of 5-ISMN from pressure-sensitive adhesive tape." Journal of Controlled Release 73, no. 2-3 (June 2001): 269–77. http://dx.doi.org/10.1016/s0168-3659(01)00301-7.

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40

Mittal, Garima, Soo Jin Park, and Kyong Yop Rhee. "Acrylic Pressure-Sensitive Adhesive Reinforced with Aluminum Nitride and Its Thermal Properties: Effect of Surface Treatment and Particle Size." Coatings 10, no. 2 (February 22, 2020): 188. http://dx.doi.org/10.3390/coatings10020188.

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Thermal interface materials (TIMs) are very crucial for better heat-transfer in electronics working as an interfacial connection between heat generators and heat sinks. This study is focused on the pressure-sensitive acrylic adhesive tape reinforced with micron-sized and nano-sized aluminum nitride (AlN) particles where the surface modification of AlN particles is done using (3-Aminopropyl) triethoxysilane (3-APTES). The physicochemical analysis of the silanized AlN particles is done using FTIR spectroscopy and scanning electron microscopy (SEM). Furthermore, thermal properties along with thermal conductivity and thermal diffusion are also studied. The main outcome of this study shows that the sample containing surface-treated AlN particles exhibits better thermal conductivity than that of the samples containing µ and nano-sized of AlN due to the comparatively better interactions with the matrix.
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41

Antosik, Adrian Krzysztof, Karolina Mozelewska, Zbigniew Czech, and Marta Piątek-Hnat. "Influence of Montmorillonite on the Properties of Silicone Pressure-Sensitive Adhesives: Preparation of a Double-Sided Tape Based on the Best Composition." Silicon 12, no. 8 (November 16, 2019): 1887–93. http://dx.doi.org/10.1007/s12633-019-00295-2.

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42

McGuiggan, P. M., and D. J. Yarusso. "Measurement of the loss tangent of a thin polymeric film using the atomic force microscope." Journal of Materials Research 19, no. 1 (January 2004): 387–95. http://dx.doi.org/10.1557/jmr.2004.19.1.387.

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An atomic force microscope was used to measure the loss tangent, tan δ, of a pressure-sensitive adhesive transfer tape as a function of frequency (0.01 to 10 Hz). For the measurement, the sample was oscillated normal to the surface and the response of the cantilever resting on the polymer surface (as measured via the photodiode) was monitored. Both oscillation amplitude and phase were recorded as a function of frequency. The atomic force microscopy measurement gave the same frequency dependence of tan δ as that measured by a dynamic shear rheometer on a film 20 times thicker. The results demonstrate that the atomic force microscope technique can quantitatively measure rheological properties of soft thin polymeric films.
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43

Gravish, Nick, Matt Wilkinson, and Kellar Autumn. "Frictional and elastic energy in gecko adhesive detachment." Journal of The Royal Society Interface 5, no. 20 (June 13, 2007): 339–48. http://dx.doi.org/10.1098/rsif.2007.1077.

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Geckos use millions of adhesive setae on their toes to climb vertical surfaces at speeds of over 1 m s −1 . Climbing presents a significant challenge for an adhesive since it requires both strong attachment and easy, rapid removal. Conventional pressure-sensitive adhesives are either strong and difficult to remove (e.g. duct tape) or weak and easy to remove (e.g. sticky notes). We discovered that the energy required to detach adhering tokay gecko setae ( W d ) is modulated by the angle ( θ ) of a linear path of detachment. Gecko setae resist detachment when dragged towards the animal during detachment ( θ =30°) requiring W d =5.0±0.86 (s.e.) J m −2 to detach, largely due to frictional losses. This external frictional loss is analogous to viscous internal frictional losses during detachment of pressure-sensitive adhesives. We found that, remarkably, setae possess a built-in release mechanism. Setae acted as springs when loaded in tension during attachment and returned elastic energy when detached along the optimal path ( θ =130°), resulting in W d =−0.8±0.12 J m −2 . The release of elastic energy from the setal shaft probably causes spontaneous release, suggesting that curved shafts may enable easy detachment in natural, and synthetic, gecko adhesives.
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44

Kikuchi, Keisuke, Hiroaki Todo, and Kenji Sugibayashi. "Usefulness of Pressure-Sensitive Adhesives as a Pretreatment Material before Application of Topical Drug Formulations and a Peeling Tape for Excess Stratum Corneum Layers." Chemical and Pharmaceutical Bulletin 62, no. 6 (2014): 559–67. http://dx.doi.org/10.1248/cpb.c14-00087.

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45

Lv, Jungang, Jimin Feng, Wen Zhang, Rongguang Shi, Yong Liu, Zhaohong Wang, and Meng Zhao. "Identification of Carbonates as Additives in Pressure-Sensitive Adhesive Tape Substrate with Fourier Transform Infrared Spectroscopy (FTIR) and Its Application in Three Explosive Cases." Journal of Forensic Sciences 58, no. 1 (June 22, 2012): 134–37. http://dx.doi.org/10.1111/j.1556-4029.2012.02211.x.

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46

OHMORI, Satoshi, Yohei SUGIYAMA, and Yasunori MORIMOTO. "A Protective Effect against Undesirable Increase of Dihydroetorphine Permeation through Damaged Skin by Using Pressure-Sensitive Adhesive Tape with an Ethylene-Vinyl Acetate Co-Polymer Membrane." Biological & Pharmaceutical Bulletin 24, no. 1 (2001): 78–83. http://dx.doi.org/10.1248/bpb.24.78.

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47

Fischer, M., T. Mache, B. Pawlowski, D. Schabbel, and J. Müller. "SiCer - A substrate to combine ceramic and silicon based micro systems." Additional Conferences (Device Packaging, HiTEC, HiTEN, and CICMT) 2012, CICMT (September 1, 2012): 000158–61. http://dx.doi.org/10.4071/cicmt-2012-tp35.

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A silicon-on-ceramic (SiCer) wafer-shaped substrate, allowing a simultaneous fabrication of ceramic and silicon based microsystems is presented. The substrate, based on the recently introduced 'silicon-on-ceramic integration concept', can be processed by standard MEMS and LTCC technologies. The monolithic compound is fabricated by using lamination and pressure assisted firing of a nano patterned silicon wafer with a low temperature cofired ceramic tape (LTCC). The LTCC is adapted to silicon (TCE and morphology). LTCC functionalities such as electrical and thermal vias, passives, fluidic channels, etc.,. can be pre-processed in grid dimensions or individually. Through Silicon Vias (TSV) in the silicon layer can be combined with the vias in the LTCC. The silicon layer can be fabricated as thin as necessary for the desired functionality, whereas the insulating LTCC layer ensures the mechanical stability of the SiCer wafer. In addition, the LTCC layer includes electrical functionalities like signal routing and passive integration. Using SiCer substrates, the bigger part of back-end processes for silicon microsystems such as assembly and the crucial part of packaging, can take place before any micro structuring is generated. Thus, the influence of these processes to the sensitive micro structures can be minimized. The SiCer substrate is fundamentally temperature-stable up to 1000 °C. The fabrication steps of the SiCer substrate, particularly several options for TSV's are explained. Material characteristics and new technological approaches with the SiCer substrate are presented.
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48

Autumn, Kellar, and Nick Gravish. "Gecko adhesion: evolutionary nanotechnology." Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences 366, no. 1870 (January 11, 2008): 1575–90. http://dx.doi.org/10.1098/rsta.2007.2173.

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If geckos had not evolved, it is possible that humans would never have invented adhesive nanostructures. Geckos use millions of adhesive setae on their toes to climb vertical surfaces at speeds of over 1 m s −1 . Climbing presents a significant challenge for an adhesive in requiring both strong attachment and easy rapid removal. Conventional pressure-sensitive adhesives (PSAs) are either strong and difficult to remove (e.g. duct tape) or weak and easy to remove (e.g. sticky notes). The gecko adhesive differs dramatically from conventional adhesives. Conventional PSAs are soft viscoelastic polymers that degrade, foul, self-adhere and attach accidentally to inappropriate surfaces. In contrast, gecko toes bear angled arrays of branched, hair-like setae formed from stiff, hydrophobic keratin that act as a bed of angled springs with similar effective elastic modulus to that of PSAs. Setae are self-cleaning and maintain function for months during repeated use in dirty conditions. Setae are an anisotropic ‘frictional adhesive’ in that adhesion requires maintenance of a proximally directed shear load, enabling either a tough bond or spontaneous detachment. Gecko-like synthetic adhesives may become the glue of the future—and perhaps the screw of the future as well.
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49

ASADA, Kazutaka. "Pressure Sensitive Adhesive Double Coated Tapes." Journal of the Society of Mechanical Engineers 110, no. 1066 (2007): 710–11. http://dx.doi.org/10.1299/jsmemag.110.1066_710.

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50

Gordo, Paulo, Tiago Frederico, Rui Melicio, and António Amorim. "Implementation of a Cryogenic Facility for Space Debris Analysis." Applied Sciences 11, no. 3 (January 21, 2021): 948. http://dx.doi.org/10.3390/app11030948.

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This paper has resulted from a continued study of spacecraft material degradation and space debris formation. The design and implementation of a thermal vacuum cycling cryogenic facility for the evaluation of space debris generation at a low Earth orbit (LEO) is presented. The facility used for spacecraft external material evaluation is described, and some of the obtained results are presented. The infrastructure was developed in the framework of a study for the European Space Agency (ESA). The main purpose of the cryogenic facility is to simulate the LEO spacecraft environment, namely thermal cycling and vacuum ultraviolet (VUV) irradiation to simulate the spacecraft material degradation and the generation of space debris. In a previous work, some results under LEO test conditions showed the effectiveness of the cryogenic facility for material evaluation, namely: the degradation of satellite paints with a change in their thermo-optical properties, leading to the emission of cover flakes; the degradation of the pressure-sensitive adhesive (PSA) used to glue Velcro’s to the spacecraft, and to glue multilayer insulation (MLI) to the spacecraft’s. The paint flakes generated are space debris. Hence, in a scenario of space missions where a spacecraft has lost the thermal shielding capability, the failure of PSA tape and the loss of Velcro properties may contribute to the release of the full MLI blanket, contributing to the generation of space debris that presents a growing threat to space missions in the main Earth orbits.
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