Based on the assumption of quasibrittle failure under high-cycle fatigue for the metal material, the damage constitutive equation and the modified damage evolution equation are obtained with continuum damage mechanics. Then, finite element method (FEM) is used to describe the failure process of metal material. The increment of specimen’s life and damage state can be researched using damage mechanics-FEM. Finally, the lifetime of the specimen is got at the given stress level. The damage mechanics-FEM is inserted into ABAQUS with subroutine USDFLD and the Python language is used to simulate the fatigue process of titanium alloy specimens. The simulation results have a good agreement with the testing results under constant amplitude loading, w...
Fatigue in engineering components and structures subjected to cyclic loading is characterised by the...
In this paper a multiscale damage criterion for fatigue life prediction is introduced. A damage evol...
Metal additive manufacturing (AM) while offering advantages such as generating parts with intricate ...
Based on the assumption of quasibrittle failure under high-cycle fatigue for the metal material, the...
Based on continuum damage mechanics, a probabilistic method of predicting high-cycle fatigue life fo...
Metallic materials are extensively used in engineering structures and fatigue failure is one of the ...
The generation of reliable data in the high cycle fatigue domain is crucial to support further metal...
This paper presents a constitutive modeling of material damage capable of characterizing fatigue dam...
The scatter in the fatigue life of the metallic structures seems to be mainly caused by internal def...
In this paper, Continuum Damage Mechanics (CDM) theory is applied to low cycle and high cycle fatigu...
This article presents an approach related to the modeling of the fatigue life of constructional meta...
In this study, the phenomenon of residual stress relaxation from foreign object damage (FOD) is nume...
This work presents a non-linear continuum damage mechanics model based on general thermodynamic fram...
According to the change characteristics in the toughness of the metal material during the fatigue da...
The aim of this research work is to develop a finite element numerical tool able to predict accurate...
Fatigue in engineering components and structures subjected to cyclic loading is characterised by the...
In this paper a multiscale damage criterion for fatigue life prediction is introduced. A damage evol...
Metal additive manufacturing (AM) while offering advantages such as generating parts with intricate ...
Based on the assumption of quasibrittle failure under high-cycle fatigue for the metal material, the...
Based on continuum damage mechanics, a probabilistic method of predicting high-cycle fatigue life fo...
Metallic materials are extensively used in engineering structures and fatigue failure is one of the ...
The generation of reliable data in the high cycle fatigue domain is crucial to support further metal...
This paper presents a constitutive modeling of material damage capable of characterizing fatigue dam...
The scatter in the fatigue life of the metallic structures seems to be mainly caused by internal def...
In this paper, Continuum Damage Mechanics (CDM) theory is applied to low cycle and high cycle fatigu...
This article presents an approach related to the modeling of the fatigue life of constructional meta...
In this study, the phenomenon of residual stress relaxation from foreign object damage (FOD) is nume...
This work presents a non-linear continuum damage mechanics model based on general thermodynamic fram...
According to the change characteristics in the toughness of the metal material during the fatigue da...
The aim of this research work is to develop a finite element numerical tool able to predict accurate...
Fatigue in engineering components and structures subjected to cyclic loading is characterised by the...
In this paper a multiscale damage criterion for fatigue life prediction is introduced. A damage evol...
Metal additive manufacturing (AM) while offering advantages such as generating parts with intricate ...