Tokyo Institute of Technology
Interdisciplinary Graduate School of Science and Engineering
  Introductory AddressInternational Graduate Course  
   

Laboratory Profile

Name of Professor Masaharu Kato
E-mail Address kato
   (add '@materia.titech.ac.jp' to this address)
About Laboratory http://kamonohashi.iem.titech.ac.jp/kato_folder/kato/index_E.html
Members http://kamonohashi.iem.titech.ac.jp/kato_folder/kato/members.html
Current Research Areas Current interests include mechanical properties, phase transformation, interfaces and boundaries, etc.
Recent Major Publications
  • N. Kobayashi, S. Onaka, T. Fujii and M. Kato: Morphological Stability of Inclusions: Two-dimensional Analysis with a Superelliptic Approximation; Materials Science and Engineering A, 392, 248-253 (2005).
  • T. Nihei, H. G. Suzuki, M. Kato and J. Ma: Effects of Ni Addition on the Mechanical and Electrical Properties of Cu-15mass%Cr in-situ Composites; Materials Transactions 45, 75-80 (2004).
  • H. Miura, T. Sakai and M. Kato: Temperature Dependence of Cyclic Creep Behavior of a Cu-SiO2 Bicrystals with a [011] Twist Boundary; Acta Materialia 51, 6163-6168 (2003).
  • H.Sato, T.Fujii, S.Onaka and M.Kato: Effects of Grain-boundary GeO2 Particles on Intergranular Fracture of Cu-GeO2 Polycrystals; Journal of Materials Science 38, 1689-1693 (2003).
  • C. Watanabe, T. Fujii, S. Onaka and M. Kato: Low-Cycle Fatigue and Microstructure of Cu-Fe Single Crystals with a Double-Slip Orientation; International Journal of Fatigue 24, 795-802 (2002).
  • C. Watanabe, K. Kanmuri, M. Kato, S. Onaka and T. Fujii: Rearrangement of Fatigue Dislocation Structure in Copper Single Crystals Associated with Reduction in the Plastic Strain Amplitude; Philosophical Magazine A 82, 1317-1330 (2002).
  • T. Fujii, T. Tamura, M. Kato and S. Onaka: Size-Dependent Equilibrium Shape of Co-Cr Particles in Cu; Microscopy & Microanalysis 8, Supplement 2, 1434-1435 (2002).
  • M. Kato, S. Onaka and T. Fujii: Energy Consideration for Variant Selection in Precipitation on Dislocations; Science and Technology of Advanced Materials 2 [2], 375-380 (2001).
  • T. Fujii, C. Watanabe, Y. Nomura, N. Tanaka and M. Kato: Microstructural Evolution during Low Cycle Fatigue of a 3003 Aluminum Alloy; Materials Science and Engineering A, A319-321, 592-596 (2001).
   
 
Tokyo Institute of Technology
Interdisciplinary Graduate School of Science and Engineering

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