In the car body stamping process, trim/blank die cutting edges are subjected to very high tribological loads that result in loss of tool material from both the punch and die cutting edges. According to Archard’s wear model, normal contact force and sliding distance directly affects the wear. Therefore, knowledge of the acting forces on local contact areas has a pivotal role towards the prediction of tool wear. This paper presents a finite element modelling approach to determining the contact pressure distribution on the tool cutting edges during a trimming/blanking process. Characteristic areas on sheared edge profile, variation of punch force and high contact pressures affected areas have also been analysed.<br /
This thesis deals with sheet metal forming process. There are two main objectives of this research, ...
The cost of tooling in sheet metal industries contributes a considerable part to the overall cost of...
Prediction of tool wear pattern for sheet metal stamping die for processing of advanced high strengt...
Blanking is one of the most important processes for manufacturing sheet metal parts with complex geo...
For a given sheet metal forming process, an accurate determination of the contact pressure distribut...
For a given sheet metal forming process, an accurate determination of the contact pressure distribut...
Wear is the principal cause of tool failure in most sheet metal forming processes. It is well known ...
The contact conditions at the die radius are of primary importance to the wear response for many she...
This paper discusses our recent research on wear at the die radius in sheet metal stamping. Accordin...
Due to the requirements of higher strength components and lower carbon dioxide emission, press harde...
This paper directly examines the contact sliding distance experienced during a typical sheet metal s...
Advanced high strength steels (AHSS) are increasingly used in sheet metal stamping in the automotive...
Tool wear has become a significant issue associated with the forming of high strength sheet steels i...
One of the most widely used cutting techniques in sheet metal forming processes for mass production ...
International audienceThe cutting surface obtained through the blanking process is often characteriz...
This thesis deals with sheet metal forming process. There are two main objectives of this research, ...
The cost of tooling in sheet metal industries contributes a considerable part to the overall cost of...
Prediction of tool wear pattern for sheet metal stamping die for processing of advanced high strengt...
Blanking is one of the most important processes for manufacturing sheet metal parts with complex geo...
For a given sheet metal forming process, an accurate determination of the contact pressure distribut...
For a given sheet metal forming process, an accurate determination of the contact pressure distribut...
Wear is the principal cause of tool failure in most sheet metal forming processes. It is well known ...
The contact conditions at the die radius are of primary importance to the wear response for many she...
This paper discusses our recent research on wear at the die radius in sheet metal stamping. Accordin...
Due to the requirements of higher strength components and lower carbon dioxide emission, press harde...
This paper directly examines the contact sliding distance experienced during a typical sheet metal s...
Advanced high strength steels (AHSS) are increasingly used in sheet metal stamping in the automotive...
Tool wear has become a significant issue associated with the forming of high strength sheet steels i...
One of the most widely used cutting techniques in sheet metal forming processes for mass production ...
International audienceThe cutting surface obtained through the blanking process is often characteriz...
This thesis deals with sheet metal forming process. There are two main objectives of this research, ...
The cost of tooling in sheet metal industries contributes a considerable part to the overall cost of...
Prediction of tool wear pattern for sheet metal stamping die for processing of advanced high strengt...