The Chemical Structure and Thermal Characteristics of Polymers |
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Page 252
... reaction and chain propagation reaction respectively , [ P * ] is the total concentration of the active macromolecules and M is the molar concentration of the monomer . Under equilibrium conditions the Law of Mass Action can be written ...
... reaction and chain propagation reaction respectively , [ P * ] is the total concentration of the active macromolecules and M is the molar concentration of the monomer . Under equilibrium conditions the Law of Mass Action can be written ...
Page 266
... reactions involved in the thermal decomposition of poly ( ethylene fumarate ) . The first reaction is the scission of the ester bond , followed by disproportionation , which results in the formation of carboxyl and vinyl groups ...
... reactions involved in the thermal decomposition of poly ( ethylene fumarate ) . The first reaction is the scission of the ester bond , followed by disproportionation , which results in the formation of carboxyl and vinyl groups ...
Page 286
... reaction of coke formation will be exemplified by the work of Winslow et al . / 152 / , who studied the pyrolysis of the copolymer of ethylstyrene with divinylbenzene ; this reaction yielded a carbonaceous product with semi- conductor ...
... reaction of coke formation will be exemplified by the work of Winslow et al . / 152 / , who studied the pyrolysis of the copolymer of ethylstyrene with divinylbenzene ; this reaction yielded a carbonaceous product with semi- conductor ...
Contents
Thermodynamic characteristics of heatresistant polymers | 18 |
Bibliography | 24 |
RELATIONSHIP BETWEEN THE HEAT RESISTANCE OF HIGH | 30 |
Copyright | |
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adipamide adipate aliphatic amide aromatic benzene carbon atoms CH-CH CH₂ CH3 CH3 Chem compounds coordination polymers copolymers cross-linked crystalline curve decreases degrees/minute diamine dicarboxylic acids Dynamic thermogravimetric analysis energy fluoride formation Formula of repeating function glycol heat resistance hetero-chain heterocyclic high polymers hydrogen bonds increase isophthalic isotactic Izvestiya AN SSSR Korshak linear Loss in weight macromolecules melting point melting temperature methyl methylene methylene groups mole molecular weight molecule monomer Moskva nitrogen number of carbon number of methylene oxide phenol phenylene poly Poly(hexamethylene poly(vinyl alcohol poly(vinyl chloride polyamides polyarylates polyesters polyethylene Polymer Sci polymeric polyphenylene polystyrene polytetrafluoroethylene properties reaction repeating unit resistance of high rings S. V. Vinogradova sebacate seen shows side groups softening point softening temperature structure substituents T. M. Frunze Table terephthalic acid thermal decomposition thermal degradation thermal resistance thermogravimetric analysis Tvitr V. V. Korshak vinyl vitrification vitrification temperature Vysokomolekulyarnye Soedineniya Weight of residue