Study on the performance of diglycidyl ether of bisphenol-A/ hyperbranched aromatic polyester epoxy resin (HTME) system and their toughness mechanism

Polymer - Plastics Technology and Engineering

Volumn 45, Issue 9, 2006, Pages 1005-1011

  Zhang, Daohong ^a,b   Jia, Demin ^a  

^a SOUTH CHINA UNIVERSITY OF TECHNOLOGY   (China)

^b SOUTH CENTRAL UNIVERSITY FOR NATIONALITIES   (China)

Author keywords

Hyperbranched epoxy resin; Mechanism; Molecular simulation; Toughness

Indexed keywords

ADDITIVES; AMINES; BENDING STRENGTH; EPOXY RESINS; ETHERS; FRACTURE TOUGHNESS; GLASS TRANSITION; MOLECULAR WEIGHT; PHENOLS; POLYESTERS; TEMPERATURE; TENSILE STRENGTH;

DIGLYCIDYL ETHER; HYPERBRANCED AROMATIC POLYESTER EPOXY RESIN (HTME); MOLECULAR SIMULATION; TOUGHNESS MECHANISM;

AROMATIC POLYMERS;

ADDITIVES; AMINES; AROMATIC POLYMERS; BENDING STRENGTH; EPOXY RESINS; ETHERS; FRACTURE TOUGHNESS; GLASS TRANSITION; MOLECULAR WEIGHT; PHENOLS; POLYESTERS; TEMPERATURE; TENSILE STRENGTH;

EPOXY RESIN; GLASS TRANSITION TEMPERATURE; MOLECULAR WEIGHT; POLYESTER; POLYMER BLEND; SCANNING ELECTRON MICROSCOPY; STRENGTH; TENSILE PROPERTY; TOUGHNESS;

EID: 33747598028     PISSN: 03602559     EISSN: 15256111     Source Type: Journal    
DOI: 10.1080/03602550600726277     Document Type: Article

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