Laboratories
Processing for Manufacturing

Novel Joining Technology Area

We aim at manufacturing engineering oriented to sustainable development goals (SDGs). In other words, we will pioneer interdisciplinary engineering that spins conventional engineering knowledge that humanity has accumulated and the biological knowledge acquired by natural selection. We will create dissimilar material bonding (and debonding) technology where materials once have been considered incompatible with each other, and innovative bonding technology for advanced materials with highly complex structures and functions. In order to realize this, various elements related to the hybrid manufacturing process from combination of atoms and molecules to multi-materialization and further integration of products and their relation, the aim is to transform the future manufacturing (MONODZUKURI) through; 1) understanding of science by computational science and experimental method, 2) concept exploration and introduction demonstration of self-assembly (self-formation), biomimetic, and 3) academic deepening and social implementation in this area.

Professor :
Akio Hirose

Associate Professor :
 Kiyokazu Yasuda

Assistant Professor :  
Wataru Takahara

Assistant Professor : 
Noboru Niiguchi

Specially Appointed Professor : Jenn-Ming Song

Research Topics
  • Adsorption behavior analysis of metal atoms by computational chemical method
  • Electronic state analysis of atoms, ions and clusters in metal vapor
  • Electronic interpretation of the influence of additive elements on liquid metal properties
  • Physical property analysis of high temperature metal melt by molecular simulation
  • Self-forming material processing of metal particle-polymer mixture system
  • Design and evaluation of bio-interface materials with self-restoring properties
  • Research on self-formation of solder micro bumps
  • Solid-state bonding of microelectrodes by surface nano-roughening and particle atomization
  • Direct bonding of dissimilar materials by singular surface creation
  • Integrated process of metal/resin hybrid function and structural materials
  • Dissimilar material joining of carbon fiber reinforced resin and steel materials
  • Dissimilar material joining of carbon fiber reinforced resin and high specific strength alloys
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