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Electrically conductive acrylic pressure-sensitive adhesives containing carbon black

, Z. & Klementowska-Witkowska, P. (2007) Electrical conductive acrylic pressure-sensitive adhesives. Pitture e Vernici European Coatings, 11, 101-108. Danes, F., Garnier, B. & Dupuis, T. (2005) Non-uniformity of the filler concentration and of the transverse thermal and electrical conductivities of filled polymer plates. Compos. Sci. Technol. 65, 945-951. DOI:10.1016/j.compscitech.2004.10.020. Poh, B.T., Giam, Y.F. & Yeong, F.P. (2010) Tack and shear strength of adhesives prepared from styrene-butadiene rubber

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Development of photoreactive UV-crosslinkable solvent-free acrylic pressure-sensitive adhesives coated at room temperature and used for removable and repositionable self-adhesive materials

, M., (2007) Synthesis of photoreactive solvent-free acrylic pressure-sensitive adhesives in the recovered system. Pol. J. Chem. Tech. 9, (2), 5. DOI: 10.2478/v10026-007-0014-y. Hofmockel, U. (1992). Photoinitiatoren: Heute und Morgen, 17. Münchener, Klebstoff- und Veredelungsseminar, 26-28. October 1992, (pp 177). München, Germany. Baeumer, W., Köhler, M. & Ohngemach, I. (1986). Copolymerizable Photoinitiators, Radcure 86, 25-29 March 1986, Baltimore, USA, 43. Czech, Z. & Butwin, A

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UV-crosslinkable warm-melt pressure-sensitive adhesives based on acrylics

References Benedek, I. (2006). Developments in Pressure-Sensitive Products, Edited by Istvan Benedek, Taylor & Francis a CRC Press Book, New York, USA. Satas, D. (1982). Handbook of Pressure Sensitive Technology, Van Nostrand-Rheinhold Co, New York, USA. Czech, Z., Pełech, R. & Zych, K. (2009). Thermal decomposition of acrylic pressure-sensitive adhesives. Polish Journal of Chemical Technology. 11, 4, 7-12. DOI: 10.2478/v10026-009-0036-8. Houwink, R

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Thermal decomposition of acrylic pressure-sensitive adhesives

References Czech, Z. & Pełech, R. (2009). The thermal degradation of acrylic pressure-sensitive adhesives based on butyl acrylate and acrylic acid. Progress in Organic Coatings. 65, 84-87. DOI: 10.1016/j.porgcoat.2008.09.017. Cieślik, M. (2008). Synthesis and Application of Waterborne Polyurethane Pressure- sensitive Adhesives. Doctoral dissertation, Szczecin University of Technology, Institute of Organic Chemical Technology, Szczecin, Poland. Czech, Z. & Wesołowska, M. (2007

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Acrylic Pressure-Sensitive Adhesives Containing SiO2 Nanoparticles

References 1. Imerito, T. (2005). Nanotechnology building from the bottom and building the bottom line. JOM 57 (12), 18-23. DOI: 10.1007/s11837-005-0177-z. 2. Murad, D.S. (2002). It`s a small world after all. Adhesives Age , October, 40-44. 3. Frisch, F. (2003). Nanotechnology gives a boost to adhesive technology. Adhäsion 4 (47), 16-19. 4. Krüger, G. (2006). Nanoparticles of SiO 2 , ZrO 2 and BaSO 4 in Acrylate Dispersions. Coating 3, 113-115. 5. Sprenger, S

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Water-borne pressure-sensitive adhesives acrylics modified using amorphous silica nanoparticles

LITERATURE CITED 1. Czech, Z. (1999). Crosslinking of pressure-sensitive adhesives based on acrylics, Ed. Szczecin University of Technology, Szczecin, ISBN 83-87423-18-1. 2. Zosel, A. (1985) Adhesion and Tack of Polymers: Influence of Mechanical Properties and Surface Tensions. Coll. & Pol. Sci. 263(7), 541–553. DOI: 10.1007/BF01421887. 3. Czech, Z. & Wesolowska, M. (2007). Development of solvent-free acrylic pressure-sensitive adhesives. Eur. Pol. J. 43, 3604–3612. DOI: 10.1016/j.eurpolymj.2007.05.003. 4. Czech, Z. (2003

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Butyl acrylate/4-acryloyloxy benzophenone copolymers as photoreactive UV-crosslinkable pressure-sensitive adhesives

References Benedek, I. (2006). Developments in Pressure-Sensitive Products. CRC Taylor & Francis, New York. Benedek, I. (2000) Pressure-Sensitive Formulation. VSP, Utrecht. Czech, Z. (1999). Crosslinking of pressure-sensitive adhesives based on acrylic. Ed. Technical University of Szczecin. Auchter, G. (1993). UV-crosslinking of acrylic pressure-sensitive adhesives. Adhäsion 1-2, 14-17. Czech, Z. (2000). Einsatz von

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Epoxy adhesive formulations using latent imidazole metal cation complexes

Epoxy adhesive formulations using latent imidazole metal cation complexes

Complexes of 2-methylimidazole with cations from several metal sulfates were prepared and investigated as curing agents for epoxy resins. The reactivity of one-part formulations of these complexes with a bisphenol A type epoxy resin was determined by the differential scanning calorimetry and the pot life observed by viscosity measurements. Tensile lap shear tests at room temperature and at 120°C were used to evaluate the adhesive strength of the formulations directly after preparation as well as after one and three months of storage at room temperature.

The DSC measurements showed much lower reactivity (7 - 32%) and higher reaction temperatures of the complex formulations in comparison to the mixtures with pure 2-methylimidazole. The viscosity of most formulations remained almost unchanged over the observed period of three months. The adhesive strength of the freshly prepared complex formulations is comparable to a formulation with pure 2-methylimidazole and decreases over time, depending on the type of metal cation and the cation-to-imidazole molar ratio. The obtained results indicate that complexes of 2-methylimidazole with cations are suitable as latent curing agents for epoxy resins.

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Polyurethane pressure-sensitive adhesives as raw materials for the manufacturing of protective films

References Benedek, I. (2006). Developments in pressure-sensitive products (2th ed.). Taylor & Francis a CRC Press Book, USA. Czech, Z. & Koćmierowska, M. (2006). Water-dispersible polyurethane systems used as pressure-sensitive adhesives. Polimery 51, 456-459. Hansen, G. & Clemens, M. (2007). Polyurethane-based adhesives, systems for such adhesives, articles therefrom, and methods of making. DE Pat. 60028255. Loclair, H. & Czech, Z. (2005). Synthesis

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Influence of the unsaturated photoinitiators kind on the properties of uv-crosslinkable acrylic pressure-sensitive adhesives

References 1. Czech, Z., (1999). Crosslinking of pressure-sensitive adhesives based on acrylics , Poland: Szczecin University of Technology. 2. Benedek, I., (2006). Developments in pressure-sensitive products , USA: Istvan Benedek, Taylor & Francis a CRC Press Book. 3. Wicks, Z.W., Jones, F.N., Pappas, S.P. & Wicks, D.A., (2007). Organic coatings , USA: Wiley, New Jersey. 4. Czech, Z. & Butwin, A. (2010). Replacement of UV-crosslinkable acrylic pressure-sensitive adhesives hotmelts by

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