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Polyurethanes used in the endoprosthesis of joints

. (2006). Development and testing of a novel joint wear Simulator and investigation of the viability of an elastomeric polyurethane for total-joint arthroplasty devices. Wear 262, 332-339. DOI: 10.1016/j.wear.2006.05.018. Błażewicz, S. & Stoch, L. (2003). Biomaterials. Warszawa, Poland: Akademicka Oficyna Wydawnicza EXIT, in Polish. Oledzka, E., Sobczak, M. & Kołodziej, W. L. (2007). Polymers in medicine-review of past achievements. Polimery 11-12, 793, in Polish. Wirpsza, Z. (1991

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Polyurethanes from the crystalline prepolymers resistant to abrasive wear

References 1. Nair, L.S., Laurencin, C.T. (2007). Biodegradable polymers as biomaterials Prog. Polym. Sci. 32, 762-798. DOI: 10.1016/j. progpolymsci.2007.05.017. 2. Oledzka, E., Sobczak, M. & Kołodziej, W.L. (2007). Polymers in medicine - review of past achievements. Polimery 11-12, 793, in Polish. 3. Ryszkowska, J.L., Auguścik, M., Sheikh, A. & Boccaccini, A.R. (2010). Biodegradable polyurethane composite scaffolds containing Bioglass® for bone tissue engineering. Comp. Sci. Tech. 70, 1894-1908. DOI: 10.1016/j

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Polyurethane Foams with Pyrimidine Rings

References 1. Frisch, K., Tummers, D. & Nijehuis, A. (1980). U.S. Patent No. 4198,505. 2. Śnieżek, T., Andrysiak, E., Montewski, W., Gniadowski, H. & Wojciechowski, J. (1973). PL Patent No. 69,168. 3. Kijowska, D. & Kucharski, M. (2004). Polyetherols from melamine and alkylene carbonates. Properties and application of foamed polyurethanes. J. Appl. Polym. Sci. 94, 2302-2308. http://dx.doi.org/10.1002/app.21165 4. Lubczak, J. (2007). Polyurethane foams with purine rings. Polimery 52(7-8), 595

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Advanced coating of interior of tanks for rising environmental safety - novel applications of polyurethanes

References Datta J, Pniewska K.: Synthesis and properties of polyurethanes got from glycolysis products obtained from waste polyurethane foams , Polymers (Polimery), 2008, 53, 27. Datta J., Leszkowski K.: Investigation of chemical stability of ether-urethane prepolymers Polymers (Polimery), 2008, 53, 115. Datta J., Haponiuk J. T.: Patent-notification: Novel proposal of obtaining glucolysates semi products from polyurethanes waste , 2007 Datta J

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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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Impact of Water on Rheological Behavior of Polyurethane Glues

References 1. Barnes, H.A., Hutton, J.F.K., & Walters, F.R.S. (1993). An Introduction to Rheology (Third impression). Amsterdam: Elsevier B.V. 2. Carrera, V., Cuadri, A.A., García-Morales, M., & Partal, P. (2014). Influence of the prepolymer molecular weight and free isocyanate content on the rheology of polyurethane modified bitumens. European Polymer Journal. 57, 151-159. 3. Chambon, F., Petrovic, Z.S., MacKnight, W.J., & Winter, H.H. (1986). Rheology of model polyurethanes at the gel point. Macromolecules. 19

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Morphology and the physical and thermal properties of thermoplastic polyurethane reinforced with thermally reduced graphene oxide

/polymer nanocomposites. Macromolecules 43, 6515–6530. DOI: 10.1021/ma100572e. 20. Mya, K.Y., Gose, H.B., Pretsch, T., Bothe, M. & He, C. (2011). Star-shaped POSS-polycaprolactone polyurethanes and their shape memory performance. J. Mater. Chem. 21, 4827–4836. DOI: 10.1039/C0JM04459H. 21. Ma, W.S., Wu, L., Yang, F. & Wang, S.F. (2014). Non-covalently modified reduced graphene oxide/polyurethane nanocomposites with good mechanical and thermal properties. J. Mater. Sci. 49, 562–571. DOI: 10.1007/s10853-013-7736-4. 22. Jung, Y.C., Sahoo, N.G. & Cho, J.W. (2006

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Rigid Polyurethane Foam Thermal Insulation Protected with Mineral Intumescent Mat

References [1] Silva M.C., Takahashi J.A., Chaussy D., Belgacem M.N., Silva G.G. (2010). Composites of rigid polyurethane foam and cellulose residue. Journal of Applied Polymer Science, 117, 3665-3672. [2] Stirna U., Beverte I., Yakushin V., Cabulis U. (2011). Mechanical properties of rigid polyurethane foams at room and cryogenic temperatures. Journal of Cellular Plastics, 47(4), 337-355. [3] Zatorski W., Brzozowski Z.K., Kolbrecki A. (2008). New developments in chemical modification of fire-safe rigid

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Fabrication of Composite Polyurethane/Hydroxyapatite Scaffolds Using Solvent-Casting Salt Leaching Technique

.C., Feng C.Y., Matsuura T.: Synthetic Polymeric Membranes, chapter 2: Synthetic Membranes for membrane processes, Springer 2008, ISBN 978-3-540-73994-4, 7, 8. 12. Asefnejad A., Khorasani M.T., Behnamghader A., Farsadzadeh B.: Manufacturing of biodegradable polyurethane scaffolds based on polycaprolactone using a phase separation method: physical properties and in vitro assay, International Journal of Nanomedicine, 2011, 2375-2384. 13. Yu L., Zhou L., Ding M., Li J., Tan H., Fu Q., He X.: Synthesis and characterization of novel

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Auxetic polyurethane foams – method for determining a softening point

.: Auxetic materials for sports applications . “Procedia Engineering” 2014, Vol. 72. 14. Stręk A.M.: Production and study of polyether auxetic foam . “Mechanics and Control” 2010, Vol. 29, No. 2. 15. Wang Y. C., Lakes R.S., Butenhoff A., Influence of cell size on re-entrant transformation of negative Poisson's ratio reticulated polyurethane foams . “Cellular Polymers” 2001, Vol. 20.

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