This paper presents a creep-fatigue life assessment of a cruciform weldment made of the steel AISI type 316N(L) and subjected to reversed bending and cyclic dwells at 550C using the Linear Matching Method (LMM) and considering different weld zones. The design limits are estimated by the shakedown analysis using the LMM and elastic-perfectly-plastic material model. The creep fatigue analysis is implemented using the following material models: 1) Ramberg-Osgood model for plastic strains under saturated cyclic conditions; 2) power-law model in “time hardening” form for creep strains during primary creep stage. The number of cycles to failure N? under creep-fatigue interaction is defined by: a) relation for cycles to fatigue failure N dependent...
Creep-fatigue and creep-ratcheting life assessment of an SS304 weldolet considering full creep-cycli...
This paper describes a new extension of the Linear Matching Method (LMM) for the direct evaluation o...
This paper extends the previous Linear Matching Method (LMM) to allow for the evaluation of plastic,...
This paper presents a creep-fatigue life assessment of a cruciform weldment made of the steel AISI t...
This paper demonstrates the recent extension of the Linear Matching Method (LMM) to include cyclic c...
This paper presents parametric studies on creep-fatigue endurance of the steel AISI type 316N(L) wel...
This paper is devoted to parametric study on creep-fatigue endurance of the steel type 316N(L) weldm...
This work is devoted to parametric study on creep-fatigue endurance of the steel AISI type 316N(L) w...
This paper presents a parametric study on creep-fatigue strength of the steel AISI type 316N(L) weld...
This paper presents a novel direct method, within the Linear Matching Method (LMM) framework, for th...
The paper is concerned with the modeling of the behaviour of welds when subjected to severe thermal ...
This poster discusses Creep-fatigue life assessment of high-temperature weldments using the linear m...
This paper describes a new Linear Matching Method (LMM) technique for the direct evaluation of cycli...
The accurate assessment of creep-fatigue interaction is an important issue for industrial components...
Creep-fatigue and creep-ratcheting life assessment of an SS304 weldolet considering full creep-cycli...
This paper describes a new extension of the Linear Matching Method (LMM) for the direct evaluation o...
This paper extends the previous Linear Matching Method (LMM) to allow for the evaluation of plastic,...
This paper presents a creep-fatigue life assessment of a cruciform weldment made of the steel AISI t...
This paper demonstrates the recent extension of the Linear Matching Method (LMM) to include cyclic c...
This paper presents parametric studies on creep-fatigue endurance of the steel AISI type 316N(L) wel...
This paper is devoted to parametric study on creep-fatigue endurance of the steel type 316N(L) weldm...
This work is devoted to parametric study on creep-fatigue endurance of the steel AISI type 316N(L) w...
This paper presents a parametric study on creep-fatigue strength of the steel AISI type 316N(L) weld...
This paper presents a novel direct method, within the Linear Matching Method (LMM) framework, for th...
The paper is concerned with the modeling of the behaviour of welds when subjected to severe thermal ...
This poster discusses Creep-fatigue life assessment of high-temperature weldments using the linear m...
This paper describes a new Linear Matching Method (LMM) technique for the direct evaluation of cycli...
The accurate assessment of creep-fatigue interaction is an important issue for industrial components...
Creep-fatigue and creep-ratcheting life assessment of an SS304 weldolet considering full creep-cycli...
This paper describes a new extension of the Linear Matching Method (LMM) for the direct evaluation o...
This paper extends the previous Linear Matching Method (LMM) to allow for the evaluation of plastic,...