期刊
APPLIED SCIENCES-BASEL
卷 11, 期 22, 页码 -出版社
MDPI
DOI: 10.3390/app112211013
关键词
punch fixing; tool wear; fracture; optimization; finite elements method
This paper investigates how to improve the technique of fixing a punch to increase productivity and prevent parts from failing to be produced. By analyzing the tool and process using finite element analysis, it is found that improvements in geometry and fixing methods can increase tool lifespan.
The punching process allows large quantities of parts to be produced at very low cost. This paper studies how the technique used for fixing a punch can be improved in order to increase productivity before punch fracture, which results in large numbers of parts failing to be produced, thus creating a significant shortfall. In this context, the study deals with an industrial case, specifically the manufacturing (metal sheeting and metal forming) of a connector made of stainless steel. A broken tool is first analyzed in order to identify the source of the premature breakage. Then, the tool and the process are modeled using finite element analysis (FEA) to act as a reference. Then, the improvements in the geometry and fixing method, intended to increase the tool lifespan, are assessed and modeled using FEA. Finally, the modified profile with only one central hole proves to be very efficient.
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