Impact Joining of Similar and Dissimilar Metal Plates at their Edges

Minoru Yamashita; Yuki Tokushige; Makoto Nikawa

doi:10.4028/www.scientific.net/MSF.910.25

Paper Titles

Experimental Study on the Shock Consolidation of Ti+Si Powders
p.3

Wire Mesh/Ceramic Particle Reinforced Aluminium Based Composite Using Explosive Cladding
p.9

Metallurgical and Mechanical Properties of Wire-Mesh Reinforced Dissimilar Explosive Cladding
p.14

Comparison between Simple Seam Welding and Adjacent Parallel Seam Welding by Magnetic Pulse Sheet-Welding Method
p.19

Impact Joining of Similar and Dissimilar Metal Plates at their Edges
p.25

Detonation Synthesis of TiO₂/Na₂Ti₆O₁₃ Powders
p.31

Effect of Post Weld Heat Treatment on Al 5052-SS 316 Explosive Cladding with Copper Interlayer
p.35

Production of Wire Mesh Reinforced Aluminium Composites through Explosive Compaction
p.41

Production of AlN Nanopowders by Electrical Wire Explosion in Liquid Nitrogen
p.46

HomeMaterials Science ForumMaterials Science Forum Vol. 910Impact Joining of Similar and Dissimilar Metal...

Impact Joining of Similar and Dissimilar Metal Plates at their Edges

Abstract:

Impact joining device was developed to achieve the joining at plate edge. The sheared faces obtained by high-speed shear are availed in the joining method. The temperature remarkably elevates and the material softens in the thin severely deformed layer. The cut faces are contacted each other with sliding motion immediately after shearing process. Slight overlap for the opposed cut faces is set. In the similar material combination of mild steel (SPC), the effect of overlap length on the average joining efficiency was not clear. The data spread became smaller for the shorter overlap length. Microscopic observation discovered that there is a narrow band where the grain flow was not visible due to the remarkable temperature rise. In the dissimilar material combination of titanium (TP340C) and SPC, generation of a certain metallic compound was implied by energy dispersive X-ray analysis.