Add to ORKGService life of hot forging dies is affected by different damage mechanisms such as wear, plastic deformation and thermo-mechanical fatigue (TMF): the last one consists on crack initiation at the die surface and its propagation. Neglecting experience and general guidelines, engineers involved in the design of hot forging processes are not so confident with prediction of tool service life. At the present, estimation of die life can not be achieved neither by experimental tools, nor by simulation software. To this aim a new laboratory test has been developed being able to reproduce on specimen thermo-mechanical conditions derived from industrial cases. Description of the test equipment and the relevant procedure is detailed in the first part ...
Surface of hot work tools is damaged by complex thermomechanical-wear-reactive environment interacti...
Thermo-mechanical fatigue (TMF) can be recognized as one of the three phenomena causing the failure ...
Thermo-mechanical fatigue (TMF) can be recognized as one of the three phenomena causing the failure ...
Dies for hot forging operations are subjected to coupled mechanical and thermal cycles which deeply ...
In hot and warm forging processes, widely adopted in the manufacturing industry when complex shape o...
Hot forging dies are affected by different failure mechanisms, which can mutually influence the tota...
The paper is focused on the investigation of life assessment of dies in hot and warm forging related...
Hot forging dies are affected by different failure mechanisms, which can mutually influence the tota...
This paper deals with thermo-mechanical fatigue (TMF) phenomena that arises in dies for hot and warm...
Hot forging dies experience during service excessive cyclic thermo-mechanical, tribological as well ...
Investigation of thermo-mechanical fatigue (TMF) phenomena usually involves complex experimentation ...
Investigation of thermo-mechanical fatigue (TMF) phenomena usually involves complex experimentation ...
Investigation of thermo-mechanical fatigue (TMF) phenomena usually involves complex experimentation ...
In hot forging operations, the die surfaces and the nearest surface layers of the die undergo mechan...
In the forging industry, tools represent an important part in term of production and costs. Enhancin...
Surface of hot work tools is damaged by complex thermomechanical-wear-reactive environment interacti...
Thermo-mechanical fatigue (TMF) can be recognized as one of the three phenomena causing the failure ...
Thermo-mechanical fatigue (TMF) can be recognized as one of the three phenomena causing the failure ...
Dies for hot forging operations are subjected to coupled mechanical and thermal cycles which deeply ...
In hot and warm forging processes, widely adopted in the manufacturing industry when complex shape o...
Hot forging dies are affected by different failure mechanisms, which can mutually influence the tota...
The paper is focused on the investigation of life assessment of dies in hot and warm forging related...
Hot forging dies are affected by different failure mechanisms, which can mutually influence the tota...
This paper deals with thermo-mechanical fatigue (TMF) phenomena that arises in dies for hot and warm...
Hot forging dies experience during service excessive cyclic thermo-mechanical, tribological as well ...
Investigation of thermo-mechanical fatigue (TMF) phenomena usually involves complex experimentation ...
Investigation of thermo-mechanical fatigue (TMF) phenomena usually involves complex experimentation ...
Investigation of thermo-mechanical fatigue (TMF) phenomena usually involves complex experimentation ...
In hot forging operations, the die surfaces and the nearest surface layers of the die undergo mechan...
In the forging industry, tools represent an important part in term of production and costs. Enhancin...
Surface of hot work tools is damaged by complex thermomechanical-wear-reactive environment interacti...
Thermo-mechanical fatigue (TMF) can be recognized as one of the three phenomena causing the failure ...
Thermo-mechanical fatigue (TMF) can be recognized as one of the three phenomena causing the failure ...