A thermo-mechanically-coupled large-deformation theory for amorphous polymers in a temperature range which spans their glass transition

International Journal of Plasticity

Volumn 26, Issue 8, 2010, Pages 1138-1182

  Srivastava, Vikas ^a   Chester, Shawn A ^a   Ames, Nicoli M ^a   Anand, Lallit ^a  

^a Massachusetts Institute of Technology Cambridge   (United States)

Author keywords

Experiments; Finite elements; Polymers; Thermo mechanically coupled; Viscoplasticity

Indexed keywords

A-PLANE; AMORPHOUS POLYMERS; CONSTITUTIVE THEORY; COUPLED THEORY; CYCLO-OLEFIN POLYMERS; DEFORMATION THEORY; DEFORMED SHAPE; ELASTIC VISCOPLASTIC; ENGINEERING MATERIALS; FINITE ELEMENT; FINITE ELEMENT PROGRAMS; FINITE-ELEMENTS; GLASS TRANSITION TEMPERATURE; HOT-EMBOSSING; INTERNATIONAL JOURNALS; KEY FEATURE; LARGE DEFORMATIONS; LARGE STRAINS; LOAD-DISPLACEMENT CURVE; MICRO-SCALES; NON-LINEAR; NUMERICAL IMPLEMENTATION; NUMERICAL SIMULATION; POLYMER-PROCESSING OPERATIONS; POLYMERIC MATERIAL; POLYMERIC PRODUCTS; PREDICTIVE CAPABILITIES; PROCESSING METHOD; ROOM TEMPERATURE; SPHERICAL SHAPE; TEMPERATURE RANGE; THERMO-MECHANICAL; THERMO-MECHANICALLY-COUPLED; THERMOPLASTIC POLYMER; THIN-WALLED; TRUE STRAIN; USER MATERIAL SUBROUTINE;

AMORPHOUS MATERIALS; COMPUTER SIMULATION; DEFORMATION; ESTERS; EXPERIMENTS; GLASS TRANSITION; MECHANICAL PROPERTIES; NUMERICAL METHODS; OLEFINS; ORGANIC POLYMERS; PLASTICITY; POLYMERIC GLASS; PROCESSING; STRAIN RATE; SUBROUTINES; SUPERCONDUCTING TRANSITION TEMPERATURE; UPSETTING (FORMING); VISCOPLASTICITY; VISCOSITY;

POLYMERS;

EID: 77955517183     PISSN: 07496419     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.ijplas.2010.01.004     Document Type: Article

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