Srnec Novak, Jelena||Moro, Luciano||Benasciutti, Denis
Metal Plasticity and Fatigue at High Temperature
English[eng]
aluminum cast||partial constraint||n/a||fatigue criterion||thermo-mechanical fatigue||stress relaxation aging behavior||stainless steel||constitutive models||environmentally-assisted cracking||initial stress levels||slip system-based shear stresses||thermomechanical fatigue||activation volume||engineering design||pore distribution||experimental set-ups||tensile tests||elevated temperature||creep||economy||LCF||fatigue strength||hardening/softening||hardness||pore accumulation||defects||kinematic model||Sanicro 25||probabilistic design||AA7150-T7751||strain rate||crack growth models||bcc||probabilistic Schmid factors||isotropic model||crack-tip cyclic plasticity||anisotropy||creep fatigue||X-ray micro computer tomography||temperature||transient effects||aluminum-silicon cylinder head||spheroidal cast iron||Probabilistic modeling||pre-strain||crack-tip blunting and sharpening||high temperature steels||lost foam||thermal–mechanical fatigue||cyclic plasticity||flow stress||Ni-base superalloy||pure fatigue||René80||polycrystalline FEA||constitutive modelling