Research field (1):
Manufacturing and production engineering
Research theme for competitive and other funds (2):
2019 - 2022 Creation of high-strength and high-ductility composite steel materials using wire and arc additive manufacturing technique
2013 - 2013 板厚内部を含めた高精度三次元残留応力場評価手法の提案と評価技術の確立
Papers (27):
Wenjia Huang, Qian Wang, Ninshu Ma, Houichi Kitano. Characteristics of residual stress distribution in wire-arc additive manufactured layers of low transformation temperature material. International Communications in Heat and Mass Transfer. 2023. 148
Wenjia Huang, Qian Wang, Ninshu Ma, Houichi Kitano. Distribution characteristics of residual stresses in typical wall and pipe components built by wire arc additive manufacturing. JOURNAL OF MANUFACTURING PROCESSES. 2022. 82. 434-447
Sukeharu Nomoto, Masahiro Kusano, Houichi Kitano, Makoto Watanabe. Multi-Phase Field Method for Solidification Microstructure Evolution for a Ni-Based Alloy in Wire Arc Additive Manufacturing. METALS. 2022. 12. 10
Ikumu Watanabe, Ta-Te Chen, Sachiko Taniguchi, Houichi Kitano. Heterogeneous microstructure of duplex multilayer steel structure fabricated by wire and arc additive manufacturing. MATERIALS CHARACTERIZATION. 2022. 191
Houichi Kitano, Yoshiki Mikami. Constructing a heat source parameter estimation model for heat conduction finite element analysis using deep convolutional neural network. MATERIALS TODAY COMMUNICATIONS. 2022. 31
2009/07 - The American Society of Mechanical Engineers ASME PVPD Honorable Mention Award Effects of HAZ Softening on Tensile Strength Limit in Girth-Welded Pipe Joints
