Tae-Wan Ku scite author profile

On multi-point forming process, one of the most obvious limitations is the need for a pliable interpolating material such as elastic cushion between punch element tips and sheet metal to prevent the formation of dimples on the surface of final part. In this study, numerical simulations of multi-point bending process in case of different thicknesses of elastic cushion are performed to obtain a specified final shape as a cylindrical surface with curvature radius of 434.65mm and centre angle parameter of 52.73° by using initial blank with length of 800mm, width of 600mm, and thickness of 2mm, respectively. To find the suitable thickness of the elastic cushion, four evaluating indicators including plastic dissipation energy, stress components, shape error and maximum ductile damage are introduced and analyzed. As the results, each value of four evaluating indicators is decreased, and their distributions become more uniform on the deformed blank by adopting the elastic cushion. Resultantly, it is summarized that the formability of AZ31B magnesium alloy can be improved by using the elastic cushion, and the most proper thickness of the elastic cushion is 4 mm for the multi-point bending process of AZ31B sheet with thickness of 2mm.

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Multi-stage cold forging and experimental investigation for the outer race of constant velocity joints

Kim²,

Kang

2013

Materials & Design

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Finite element modeling and simulation for bending analysis of multi-layer printed circuit boards using woven fiber composite

Kim

Song

et al. 2008

Journal of Materials Processing Technology

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Finite element analysis of multi-stage deep drawing process for high-precision rectangular case with extreme aspect ratio

Song

et al. 2002

Journal of Materials Processing Technology

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Tae-Wan Ku

Experimental and Numerical Investigation on Impact Performance of Carbon Reinforced Aluminum Laminates

Constitutive modeling for the dynamic recrystallization evolution of AZ80 magnesium alloy based on stress–strain data

The workability evaluation of wrought AZ80 magnesium alloy in hot compression

Tool design for inner race cold forging with skew-type cross ball grooves

Improvement of formability for multi-point bending process of AZ31B sheet material using elastic cushion

Multi-stage cold forging and experimental investigation for the outer race of constant velocity joints

Finite element modeling and simulation for bending analysis of multi-layer printed circuit boards using woven fiber composite

Finite element analysis of multi-stage deep drawing process for high-precision rectangular case with extreme aspect ratio

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