Prediction of machining induced surface integrity using elastic-viscoplastic simulations and temperature-dependent flow softening material models in titanium and nickel-based alloys

Advanced Materials Research

Volumn 223, Issue , 2011, Pages 401-410

  Ulutan, D ^a   Sima, M ^a   Ozel T ^a  

^a DEPARTMENT OF INDUSTRIAL AND SYSTEMS ENGINEERING   (United States)

Author keywords

Finite element method; Machining; Nickel based alloy; Surface integrity; Titanium alloy

Indexed keywords

ALLOY COMPONENTS; CHIP FORMATIONS; CONSTITUTIVE MATERIALS; ELASTIC VISCOPLASTIC; ELASTO-VISCOPLASTIC; FATIGUE LIFE; FINITE ELEMENT SIMULATIONS; FLANK WEAR; FLOW SOFTENING; FRICTION COEFFICIENTS; MATERIAL MODELS; MICROSTRUCTURE ALTERATION; NICKEL BASED ALLOY; RESIDUAL STRESS PROFILES; SURFACE INTEGRITY; TEMPERATURE DEPENDENT; TOOL FLANK WEAR;

ALLOYS; CERIUM ALLOYS; COMPUTER SIMULATION; FINITE ELEMENT METHOD; FORECASTING; FRICTION; IRON ALLOYS; MACHINING; MACHINING CENTERS; NICKEL; RESIDUAL STRESSES; SURFACES; TITANIUM; TRIBOLOGY;

TITANIUM ALLOYS;

EID: 79956290037     PISSN: 10226680     EISSN: None     Source Type: Book Series    
DOI: 10.4028/www.scientific.net/AMR.223.401     Document Type: Conference Paper

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