Özet:

Deep drawing is the flow of sheet into the die cavity by applying punch force. In deep drawing, cups have been produced by pushing the sheet from the center part into the die cavity by punches to bring the sheet into the desired cup between flat thin layers. Higher drawing ratios cannot be obtained in deep drawing cups due to neck formation or cracking in the corner radii of the cup. For this, it is important to determine the appropriate parameters correctly for the deep drawing to be successful. In this article, the effects of die geometry on cup wall thickness and its damages were determined by giving angles to the upper surface of the die and the lower surface of the blank holder in deep drawing of rectangular cups. Thus, angles of 0°, 3°, 6°, and 9° were given to the die upper surface/blank holder lower surface. The study was carried out at a constant 1800 daN blank holder force and a constant 4 mm/s punch speed. In the deep drawing, the gap between the die/punch was 1.2 mm, and the bottom of punch and edge radii and the die throat radii were used fixed at 6 mm. St37 steel with a thickness of 1 mm was used in this study. The wall thicknesses were measured using a Mitutoyo LH-600E precision linear measuring device with a precision of 0.001 point contact. It was determined that the wall thickness of the cups increased as the cup heights increased, the maximum wall thickness occurred at the corners of the lower parts of the cups and was 0.373 mm. The region most affected by plastic deformation is the lower part of the cup. Maximum compressive and tensile forces occur in this region due to deformation hardening and therefore maximum stress and hardness have occurred in this region. The maximum hardness was measured in the region of the bottom of the cup and as 61.4 HRC. The minimum hardness was measured in the top region of cup. It was observed that the hardness decreased further towards the upper rim of the cup and was 43.8 HRC. The average hardness value was determined as 53.1 HRC. As a result, it has been determined that the die geometry has a significant effect on cup wall thickness changes and cup damages by giving angles to the upper surface of the die and the lower surface of the blank holder in cold deep drawing of rectangular cups.

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