Compatible polymers

Heterogeneous alloys can be formed when graft or block copolymers are combined with a compatible polymer. Alloys of incompatible polymers can be formed if an interfacial agent can be found. [Pg.1014]

M. Akashi, H. Iwasaki, N. Miyauchi, T. Sato, J. Suna-moto, and K. Takemoto, J. Bioact. Compat. Polymers 4 124 (1989). [Pg.187]

The term compatibility is used extensively in the blend literature and is used synonymously with the term miscibility in a thermodynamic sense. Compatible polymers are polymer mixtures that do not exhibit gross symptoms of phase separation when blended or polymer mixtures that have desirable chemical properties when blended. However, in a technological sense, the former is used to characterize the ease of fabrication or the properties of the two polymers in the blend [3-5]. [Pg.634]

Compatible Polymer Blends A term indicating commercially useful materials, mixture of polymers with strong repulsive forces that is homogeneous to the eye. [Pg.650]

There are many definitions of polymer compatibility. On one hand, compatible polymers are the polymer mixtures that have desirable physical properties when... [Pg.654]

Ehrenfreund-Kleinman T, Domh AJ, Golenser J (2003) J Bioact Compat Polym 18 323... [Pg.200]

Mattioli-Belmonte M, Biagini G, Muzzarelli RAA, Castaldini C, Gandolfi MG, Krajew-ski A, Ravaglioli A, Fini M, Giardino R (1995) J Bioact Compat Polym 10 249... [Pg.208]

Muzzarelli RAA, Bicchiega V, Biagini G, Pugnaloni A, Rizzoli R (1992) J Bioact Compat Polym 7 130... [Pg.208]

Davison CJ, Smith KE, Hutchinson LEF, O Mullane JE, Harding SE, Brookman L, Pe-trak K (1990) J Bioactive Compatible Polym 5 7... [Pg.254]

In certain cases polyhlends of two very compatible polymers also show just one Tg. The value of such a can be predicted from either of the following equations ... [Pg.48]

Aldini NN, Fini M, Rocca M, Martini L, Giardino R, Caliceti P, Veronese FM, Lora S, Maltarello MC (1997) J Bioact Compat Polym 12 3... [Pg.250]

Furthermore, our results on the characterization of the physico-mechanical properties of tyrosine-derived poly(iminocarbonates) provide preliminary evidence for the soundness of the underlying experimental rationale The incorporation of tyrosine into the backbone of poly(iminocarbonates) did indeed result in the formation of mechanically strong yet apparently tissue-compatible polymers. [Pg.225]

Yamamoto M, Tabata Y, Bcada Y (1999) Growth factor release from gelatin hydrogel for tissue engineering. J Bioact Compat Polym 14 474-489... [Pg.161]

Foumie P, Domurado D, Guerin P, Braud C, Vert M, Madelmont JC (1990) J Bioact Compat Polym 5 381... [Pg.108]

Ohya Y, Nakai T, Nagahama K, Ouchi S, Tanaka S, Kato K (2006) J Bioact Compat Polym 21 557... [Pg.110]

Veronese FM, Caliceti P, Schiavon O (1997) Branched and linear poly(ethylene glycol) Influence of the polymer structure on enzymological, pharmacokinetic and immunological properties of proteinconjugates. J Bioact Compatible Polym 12 196-207... [Pg.137]

Dumitriu S,Magny P, Montane D, Vidal PF, Chornet E (1994) J Bioact Compat Polymers 9 184... [Pg.50]

PVA and PAcr.Ac. are compatible polymers on the whole range of composition [40-45], These blends are homogeneous and the films are transparent evidencing a good clarity [43,57] or semitransparency [43], However a heterogeneous IPN [45] was obtained by acrylic acid polymerization in a PVA matrix. [Pg.129]

Netti, P. A., Ambrosio, L., Del Nobile, M. A., Mensitieri, G., and Nicolais, L. Water transport in hyaluronic acid esters. J. Bioactive Compatible Polymers 1996, 11,312-316. [Pg.185]

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