Finite element analysis considering fracture strain of sheath material and die lubricant in extrusion process of Al/Cu clad composites and its experimental investigation
✍ Scribed by C.-G. Kang; H.C. Kwon
- Publisher
- Elsevier Science
- Year
- 2002
- Tongue
- English
- Weight
- 595 KB
- Volume
- 44
- Category
- Article
- ISSN
- 0020-7403
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✦ Synopsis
Clad composite materials consist of stacks of di erent materials. During the extrusion process of clad composites, fracture of the sheath or core materials frequently occurs because of the discontinuity of deformation caused due to the di erences in the ow stress of the sheath material and core material. In order to predict fracture of the sheath material with oxygen-free high conductivity copper, the theory of ductile fracture has been applied. The e ect of lubrication behavior on fracture of core material has been investigated. A technique to predict the fracture strain rate has been proposed. The calculated interface bonding force between the core material and the sheath material has been used to assist in die design for the indirect and direct extrusion processes.