倉前宏行 | 研究・メンバー紹介 | 地域産業支援プラットフォーム OIT-P

倉前宏行

技術イノベーション拠点
材料開発（構造）グループ

ロボティクス&デザイン工学部ロボット工学科准教授

◆ これまでの代表的な外部資金獲得実績

1) 2014～2016年度　日本学術振興会科学研究費助成事業（学術研究助成基金助成金）基盤研究(C)，「ミスオリエンテーション結晶塑性有限要素法に基づくプロセスメタラジー最適化」，研究代表者：倉前宏行
2) 2011～2013年度　日本学術振興会科学研究費助成事業（学術研究助成基金助成金）基盤研究(C)，「ミスオリエンテーション理論に基づく新規Al合金板材創製のためのプロセスメタラジー」，研究代表者：倉前宏行
3) 2009～2010年度　文部科学省平成21年度科学研究費補助金若手(B)，「熱・結晶塑性マルチスケール連成解析による最適多段プロセスメタラジー」，研究代表者：倉前宏行
4) 2008年　(財)天田金属加工機械技術振興財団平成20年度一般研究助成金，「高度Al合金板材創製のための多段圧延工程・微視結晶最適設計システムの開発」，研究代表者：倉前宏行
5) 2007年　(財)天田金属加工機械技術振興財団平成19年度国際交流助成金，「7th International Conference on Numerical Simulation of 3D Sheet Metal Forming Process (Numisheet 2008)参加のため」，研究代表者：倉前宏行

◆ 最近の主な研究業績

1) Eiji Nakamachi, Takashi Yoshida, Hiroyuki Kuramae, Toshihiko Yamaguchi and Yusuke Morita, Multi-scale Crystalline Plasticity Finite Element Analysis of Texture Evolution in Drawing Process, Romanian Journal of Technical Sciences - Applied Mechanics, Vol. 63, No. 2 (2018), in print.
2) Tomosumi Kamimura, Hiroyuki Kuramae, Takayuki Yamashiro, Kosuke Nuno, Yuji Umeda, Singo Tsujimoto, Ryosuke Nakamura, Takashi Nishiyama and Hideo Horibe, "Analysis of Resist Removal Phenomenon Using Laser Irradiation", Journal of Photopolymer Science and Technology, Vol. 30, No. 3, pp. 291-295, (2017).
3) Yasutomo Uetsuji, Tetsuya Hata, Tatsuya Oka, Hiroyuki Kuramae and Kazuyoshi Tsuchiya, "Multiscale Simulation of Domain Switching Behavior in Plycrystalline Ferroelectric Materials", Computational Material Science, Vol. 106, pp. 100-110, (2015).
4) Yasutomo Uetsuji, Tetsuya Hata, Hiroyuki Kuramae and Kazuyoshi Tsuchiya, "Homogenization Modeling of Domain Switching in Ferroelectric Materials", Acta Mechanica, Vol. 225, Issue 10, pp. 2969-2986, (2014).
5) Tomosumi Kamimura, Yuta Kuroki, Takuya Kiriyama, Hiroki Muraoka, Takashi Nishiyama, Yoshiyuki Harada, Hiroyuki Kuramae and Hideo Horibe, "Scanning Removal of Iron-implanted Novolak Resist by using a Laser Irradiation", Journal of Photopolymer Science and Technology, Vol. 27, No. 2, pp. 237-241, (2014).
6) Eiji Nakamachi, Takeshi Honda, Hiroyuki Kuramae, Yusuke Morita and Hideo Morimoto, "Process Metallurgy Analyses to Design a High-Bendability and High-Springback Property Sheet by Using Two-Scale Finite Element Method", International Journal of Mechanical Sciences, Vol. 87, pp. 89-101, (2014).
7) Eiji Nakamachi, Takahiro Uchida, Hiroyuki Kuramae and Yusuke Morita, "Multi-Scale Finite Element Analyses for Stress and Strain Evaluations of Braid Fibril Artificial Blood Vessel and Smooth Muscle Cell", International Journal of Numerical Methods in Biomedical Engineering, Vol. 30, Issue 8, pp. 796-813, (2014).
8) Eiji Nakamachi, Takeshi Honda, Hiroyuki Kuramae, Yusuke Morita, Tomiso Ohata and Hideo Morimoto, "Two-scale Finite Element Analysis for Bendability and Springback Evaluation based on Crystallographic Homogenization Method", International Journal of Mechanical Sciences, Vol. 80, pp. 109-121, (2014).
9) 倉前宏行, 仲町英治, 「塑性加工解析に必要なFEM　③結晶塑性」, 塑性と加工, 第55巻, 第640号, pp. 416-420, (2014).
10) 倉前宏行, 「高成形能Al合金板材創製のための多段圧延工程・微視結晶最適設計」, 天田財団FORM TECH REVIEW 2013, Vol. 23, No. 1, pp. 45-50, (2014).
11) Yasutomo Uetsuji, Hiroyuki Kuramae and Kazuyoshi Tsuchiya, "Two-step homogenization simulation for multidomain and multigrain structures in piezoelectric materials", Acta Materialia, Vol. 61, Issue 19, pp. 7304-7312, (2013).
12) Hidetoshi Sakamoto, Yoshifumi Ohbuchi and Hiroyuki Kuramae, "Gun Bullet Deformation Analysis for Protection Board Development", Key Engineering Materials, Vol. 577-578, pp. 409-412, (2013).
13) Yasutomo Uetsuji, Hiroyuki Kuramae, Kazuyoshi Tsuchiya and Hidetoshi Sakamoto, "Development of a New Piezoelectric Actuator with Slits", ISRN Materials Science, Vol. 2013, Article ID 172054, 9 pages(2013).
14) Hidetoshi Sakamoto, Hiroyuki Kuramae, Shigeru Itoh and Eiji Nakamachi, "Visualisation of high-speed fracture phenomena", WIT Transactions on Modelling and Simulation, Vol. 55, pp. 309-316, (2013).
15) Yasutomo Uetsuji, Hiroyuki Kuramae, Kazuyoshi Tsuchiya, "Piezoelectric-fluid interaction finite element analysis of a valve-less piezoelectric pump", WIT Transactions on Modelling and Simulation, Vol. 55, pp. 327-338, (2013).
16) 倉前宏行, 上辻靖智, 「3次元EBSD計測モデルに基づく結晶均質化有限要素解析による圧電セラミックス材料の特性評価」, 日本機械学会論文集(A編), 79巻801号, pp. 633-643, (2013).
17) Eiji Nakamachi, Yasutomo Uetsuji, Hiroyuki Kuramae, Kazuyoshi Tsuchiya and Hwisim Hwang, "Process Crystallographic Simulation for Biocompatible Piezoelectric Material Design and Generation", Archives of Computational Methods in Engineering, Vol. 20, Isuue 2, pp. 155-183, (2013).
18) Yasutomo Uetsuji, Hiroyuki Kuramae, Kazuyoshi Tsuchiya and Marc Kamlah, "Electron Backscatter Diffraction Crystal Morphology Analysis and Multiscale Simulation of Piezoelectric Materials", International Journal of Computational Methods and Experimental Measurements, Vol. 1, No. 2, pp. 199-211, (2013).
19) 森本秀夫, 坂本英俊, 倉前宏行, 仲町英治, 「結晶塑性有限要素解析手法とその適用事例」, 塑性と加工, 第54巻, 第625号, pp. 132-136, (2013).

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