Add to ORKGThe aim of the work described in this paper is to provide a computational method for fatigue life prediction of high temperature components, in which the time and temperature dependent fatigue crack growth is a relevant damage mechanism. The fatigue life prediction is based on a law for microcrack growth and a fracture mechanics estimate of the cyclic crack tip opening displacement. In addition, a powerful model for nonisothermal cyclic plasticity is employed, and an efficient laboratory test procedure is proposed for the determination of the model parameters. The models are efficiently implemented into finite element programs and are used to predict the fatigue life of a cast iron exhaust manifold and a notch in the perimeter of a turbine ...
International audienceThe lifetime to initiate an engineering crack is usually predicted from S–N cu...
In the forging industry, tools represent an important part in term of production and costs. Enhancin...
In this paper the fatigue life of three cast iron materials, namely EN-GJS-700, EN-GJV-450 and EN-GJ...
The aim of the work described in this paper is to provide a computational method for fatigue life pr...
In this paper the thermomechanical fatigue properties of 1.4849 cast steel, which is used for exhaus...
HiSiMo cast irons are frequently used as material for high temperature components in engines as e.g....
The combination of cyclic mechanical and cyclic thermal loading leads to thermomechanical fatigue (T...
HiSiMo cast irons are frequently used as material for high temperature components in engines as e.g....
The issue of service life prediction of hot metallic components subjected to cyclic loadings is addr...
High temperature components in internal combustion engines and exhaust systems must withstand severe...
The situation in which a component or structure is maintained at high temperature under the action o...
HiSiMo cast irons are frequently used as material for high temperature components in engines as e.g....
Turbocharger housings in internal combustion engines are subjected to severe mechanical and thermal ...
Many power generation facilities equipped with turbomachinery are designed to provide electric energ...
The work focuses on predictive capabilities of fundamental cyclic plasticity and fatigue life models...
International audienceThe lifetime to initiate an engineering crack is usually predicted from S–N cu...
In the forging industry, tools represent an important part in term of production and costs. Enhancin...
In this paper the fatigue life of three cast iron materials, namely EN-GJS-700, EN-GJV-450 and EN-GJ...
The aim of the work described in this paper is to provide a computational method for fatigue life pr...
In this paper the thermomechanical fatigue properties of 1.4849 cast steel, which is used for exhaus...
HiSiMo cast irons are frequently used as material for high temperature components in engines as e.g....
The combination of cyclic mechanical and cyclic thermal loading leads to thermomechanical fatigue (T...
HiSiMo cast irons are frequently used as material for high temperature components in engines as e.g....
The issue of service life prediction of hot metallic components subjected to cyclic loadings is addr...
High temperature components in internal combustion engines and exhaust systems must withstand severe...
The situation in which a component or structure is maintained at high temperature under the action o...
HiSiMo cast irons are frequently used as material for high temperature components in engines as e.g....
Turbocharger housings in internal combustion engines are subjected to severe mechanical and thermal ...
Many power generation facilities equipped with turbomachinery are designed to provide electric energ...
The work focuses on predictive capabilities of fundamental cyclic plasticity and fatigue life models...
International audienceThe lifetime to initiate an engineering crack is usually predicted from S–N cu...
In the forging industry, tools represent an important part in term of production and costs. Enhancin...
In this paper the fatigue life of three cast iron materials, namely EN-GJS-700, EN-GJV-450 and EN-GJ...