Multi-phase microstructure design of a low-alloy TRIP-assisted steel through a combined computational and experimental methodology

Acta Materialia

Volumn 60, Issue 6-7, 2012, Pages 3022-3033

  Zhu, R ^a   Li, S ^a   Karaman, I ^a,b   Arroyave, R ^a,b   Niendorf, T ^c   Maier, H J ^c  

^a Texas A and M University   (United States)

^b TEXAS A AND M UNIVERSITY   (United States)

^c UNIVERSITY OF PADERBORN   (Germany)

Author keywords

Computational thermodynamics; Equal channel angular pressing (ECAP); Mechanical behavior; Phase transformations; TRIP assisted steels

Indexed keywords

AS-CAST; COMPUTATIONAL FRAMEWORK; COMPUTATIONAL THERMODYNAMICS; DESIGN METHODOLOGY; EQUAL CHANNEL ANGULAR PRESSING (ECAP); EXPERIMENTAL METHODOLOGY; EXPERIMENTAL OPTIMIZATION; EXPERIMENTAL VALIDATIONS; HIGH TEMPERATURE; HOMOGENIZED MICROSTRUCTURE; INTERCRITICAL ANNEALING; ISOTHERMAL TRANSFORMATIONS; LOW-ALLOY; MECHANICAL BEHAVIOR; MULTIPHASE MICROSTRUCTURE; NOMINAL COMPOSITION; PROCESSING PARAMETERS; PROCESSING STEPS; RESULTING MATERIALS; RETAINED AUSTENITE; TRANSFORMATION-INDUCED PLASTICITY; TREATMENT PARAMETERS; TRIP-ASSISTED STEELS; TRIP-STEEL; TWO STAGE; ULTIMATE TENSILE STRENGTH; UNIFORM ELONGATION;

BAINITE; BAINITIC TRANSFORMATIONS; DESIGN; DUCTILITY; EQUAL CHANNEL ANGULAR PRESSING; FERRITE; HEAT TREATMENT; HIGH STRENGTH STEEL; ISOTHERMAL ANNEALING; MANGANESE; METAL CASTINGS; MICROSTRUCTURE; OPTIMIZATION; PHASE TRANSITIONS; PLASTICITY; STRAIN HARDENING; THERMODYNAMICS;

ALLOY STEEL;

EID: 84862810222     PISSN: 13596454     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.actamat.2012.02.007     Document Type: Article

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