Abstract
This chapter discusses the experimental and computational analysis of the fabrication process of unidirectional porous (UniPore) structures, a type of cellar material, by using industrial pure copper and industrial pure aluminum as base materials. One outer pipe and many paraffin-filled inner pipes were compressed and then welded together to fabricate a UniPore structure using cylindrical explosive compaction and welding assembly. The bonding state between the pipe walls was characterized through microstructural observations. Further, the deformation process including the collision velocity between pipes and pipe failures problem during compaction process was analyzed through computational simulations to clarify the optimal fabrication conditions for a UniPore structures.
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