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2 2022

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Modeling and numerical analysis of the process of punching aluminum sheets taking into account punch wear

Bohdal Łukasz, Kośka Katarzyna, Miksza Mateusz, Patyk Radosław, Kalata Franciszek

Journal of Mechanical and Energy Engineering

2022

Vol. 6, No 1

13--20

The paper presents a modeling and analysis algorithm as well as the results of simulation tests with the use of FEM of a process of punching aluminum sheets used for casings. In industrial practice, the difficulty lies in the correct selection of punching clearance. In order to predict the effect of clearance on the quality of the edge cut, a numerical model was developed taking into account the geometric and physical nonlinearity with damage. The model makes it possible to simulate all the phases of the cutting process, including the fracture phase, which is of key importance to the formation of the workpiece edge. A new approach of creating a real geometry of the punch edge was presented. The geometries developed take into account the most common defects of the punch cut edges. Owing to this, it is possible to predict the course of the proces depending on the type and degree of the wear of the cutting edges of the punch. The results obtained showed that for clearances below the value of a = 0.16 mm, the crack has the shape of a straight line. Clearance values a = 0.16 mm and below allow one to obtain a perpendicular shear area and a considerable width of the smooth cutting zone. As the clearance increases, the width of the cutting zone decreases. Punch wear significantly reduces the smooth zone and it increases perpendicular deviation of cut surface.

Analysis of the influence of the blanking clearance size to the burr development on the sheet of mild steel, brass and aluminium in blanking process

Kamarul Adnan A. A., Azinee S. N., Norsilawati N., Izzul K. A. M.

Journal of Achievements in Materials and Manufacturing Engineering

2022

Vol. 111, nr 1

26--32

Purpose: This research aims to analyse the influence of blanking clearance size on the burr development for mild steel sheet, brass and aluminium. The main reason for this research is estimating the burr size on blank parts. It is still significant since the quality of the products is determined by evaluating the amount of allowable burr in the parts. Design/methodology/approach: For the blanking process on the 3.00 mm thick sheets, various sizes of blanking clearance for a 20 mm diameter of the die opening are employed, as is the technique for obtaining the parts. Then the height of the burr on each product was measured using a micrometre and toolmaker microscope. The height of burr for each size of blanking clearance have been recorded and compared using a graph. Comparison made to identify which measure of blanking clearance and which type of material will produce a small size of burr. Findings: For mild steel, brass, and aluminium, blanking clearance 0.15 mm produced burr heights of 0.088 mm, 0.015 mm, and 0.024 mm, and blanking clearance 0.13 mm produced bur heights of 0.192 mm, 0.055 mm, and 0.046 mm, respectively. The brass had a lower burr height than mild steel and aluminium, according to the results. More significant blanking clearance (0.15 mm) produced a smaller size of burr compared to a smaller blanking clearance (0.13 mm). Practical implications: This study focuses on burr height rather than the wear of the punch and die cutting edge; burr height can affect punch and die sharpness. It also can guide practitioners in estimating blanking clearance and the burr height of mild steel, brass and aluminium. Originality/value: This paper demonstrates that the gap between the punch and die influences the burr height. The material strength also affects the burr height, with a high tensile strength resulting in a larger burr.