Polymer degradation thermoplastics

Jha, A. and Bhowmick, A.K., Thermal degradation and ageing behaviour of novel thermoplastic elastomeric nylon-6/acrylate rubber reactive blends, Polym. Degrad. Stab., 62, 575, 1998. 

Al-Malaika, S. and Amir, E.J., Thermoplastic elastomers Part III—Ageing and mechanical properties of natural rubber-reclaimed rubber/polypropylene systems and their role as solid phase dispersants in polypropylene/polyethylene blends, Polym. Degrad. Stab., 26, 31, 1989. 

Kumar, R.C., Fuhrmann, I., and Kocsis, J.K., LDPE-based thermoplastic elastomers containing ground tire rubber with and without dynamic curing, Polym. Degrad. Stab., 76, 137, 2002. 

Wehrenberg, R. J., Lactic acid polymers Strong degradable thermoplastics, Mater. Eng., 3, 163, 1981. 

J. Pickett, M. Gardner, D. Gibson, and S. Rice, Global weathering of aromatic engineering thermoplastics, Polym. Degrad. Stab., 90(3) 405-417, December 2005. 

Duquesne, S., Magnet, S., Jama, C., and Delobel, R. 2005. Thermoplastic resins for thin film intumes-cent coatings—Towards a better understanding of their effect on intumescence efficiency. Polymer Degradation and Stability 88(l) 63-69. 

Solid organophosphite antioxidant that provides color stability, reduces polymer degradation, and improves gas fading performance in many resins. It may be used in polyethylene, polypropylene, polystyrene, polyesters, elastomers, PVC and thermoplastics. 

Application Scope applicable for non-oxidizing and non-degradable thermoplastic or inorganic polymer materials near the softening point or melting point. 

Shi, Q., Chen, C., Gao, L., Jiao, L., Xu, H., Guo, W. Physical and degradation properties of binary or ternary blends composed of poly (lactic acid), thermoplastic starch and GMA grafted POE. Polym. Degrad. Stab. 96, 175-182 (2011)... 

Degradative Thermoplastic Oil-like/wax-like, Polymer chain degradation in... 

Ale Alessi, S., Conduruta, D., Pitarresi, G., Dispenza, C., Spadaro, G. Accelerated ageing due to moisture absorption of thermally cured epoxy resin/polyethersulphone blends Thermal, mechanical and morphological behaviour. Polym. Degradation Stability 96 (2011) 642-648. llAsi Asif, A., Rao, V. L., Ninan, K. N. Preparation, characterization, thermo-mechanical, and barrier properties of exfoliated thermoplastic toughened epoxy clay ternary nanocomposites. Polym. Adv. Technol. 22 (2011) 437 47. 

A remarkable characteristic of PHAs is their biodegradability in various environments. The PHA-degrading microorganisms were first isolated by Chowdhury in 1963. Subsequently, however, only a few studies on isolation and characterization of PHA-degrading microorganisms were reported for three decades. With the increased demand to use microbial PHA polymers as environmentally degradable thermoplastic, the... 

Figure 3.5 Programmed TGA to 800 °C under nitrogen at 5 °C/min of stoichiometric thermoset resins based on DGEBA. DDM resin cured with diamino diphenyl methane, mPDA resin cured with m-phenylene diamine, pPDA resin cured with p-phenylene diamine, mXDA resin cured with weto-xyylene diamine, AN the stoichiometric thermoplastic reaction product of DGEBA and aniline (included for comparison). Reproduced with permission from T. Dyakonov, P.J. Mann, Y. Chen and W.T.K. Stevenson, Polymer Degradation and Stability, 1996,...

Carvalho A.J.E, Zambon M.D., Curvelo A.A.S., Gandini A., Size exclusion chromatography characterization of thermoplastic starch composites 1. Influence of plasticizer and fibre content, Polym. Degrad. Stab., 79, 2003,133-138. 

Seidenstucker X, Fritz H.G., Innovative biodegradable materials based upon starch and thermoplastic poly(ester-urethane) (TPU), Polym. Degrad. Stab., 59,1998, 279-285. 

Thompson, M. R. and Yeung, K. K. 2006. Recyclability of a layered silicate-thermoplastic olefin elastomer nanocomposite. Polymer Degradation and Stability 91 2396-2407. 

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