取締役プロフィール

有本享三

Kyozo Arimoto

博士（工学）

International Federation for Heat Treatment and Surface Engineering (IFHTSE) Fellow

メッセージ

熱処理プロセスによって部品に発生するゆがみと残留応力に関しては，有限要素法をベースとしたシミュレーションが適用され，現象が解明されつつあります．しかし，熱処理シミュレーションの理解には，機械系，材料系，さらにはコンピュータに関する知識が必要であり，その本質を把握することは容易ではありません．アリモテックは，この種のシミュレーションの普及をめざし，種々のコンサルティング活動を行なっています．

略歴

1972年　大阪府立工業高等専門学校　卒業
1972年　日立造船株式会社　入社
1986年　センチュリー・リサーチ・センター株式会社　入社
1997年　米国SFTC社　入社
2002年　有限会社アリモテック　設立
2006年　京都大学　博士（工学）
2006年　サポイン“シミュレーション利用技術による熱処理の高度化手法の開発”の副総括研究代表者
2018年　International Federation for Heat Treatment and Surface Engineering (IFHTSE) Fellow
2020年から近畿大学研究員
2022年から Go-Tech“ロジカル熱処理を実現するシミュレーション援用ゆがみ制御システムの開発”に参画（近畿大学研究員として）

報文

熱処理のシミュレーションと冷却の関係

T. Yoshii, M. Iyota, K. Arimoto, “Elucidation of Blade Curving Mechanism in Japanese Sword Quenching Using the Simulated Strains-Based Approach”, MATERIALS TRANSACTIONS, Article ID MT-H2023002, Advance online publication February 26, 2024,　　　　　　　　　　　　　　　　　　　　　　　　　　　　　　　　　　　　　 https://doi.org/10.2320/matertrans.MT-H2023002
Arimoto, K., "Mechanism of Residual Stress Generation in Quenched Fe-Ni Alloy Cylinders Using Simulated Strains-Based Approach", HTM Journal of Heat Treatment and Materials, Vol. 78, No. 2, 2023, pp. 79-90. https://doi.org/10.1515/htm-2022-1047
Arimoto, K. and Shimaoka, M., “An Overview of Research and Standardization Activities on Test Systems for Quenchant Characterization in Japan”, Berg Huettenmaenn Monatsh, Vol.168, No. 3, 2023, pp. 102-108. https://doi.org/10.1007/s00501-023-01327-6
K. Arimoto, “Simulated Strains-Based Approach for Explaining Distortion and Residual Stress in Quenched Pure Iron Cylinder,” Materials Performance and Characterization, Vol. 11, No. 1, 2022, 244–255.doi.org/10.1520/MPC20220027
Arimoto, K., “An Overview of Researches and Standardization Activities on Test Systems for Quenchant Characterization in Japan”, E-BOOK, 27th IFHTSE Congress & European Conference on Heat Treatment 2022, September 5-8, 2022, Salzburg, Austria, pp. 176-181.
Arimoto, K., “Simulated Strains-Based Approach for Explaining Distortion and Residual Stress in Quenched Steel Cylinder”, E-BOOK, 27th IFHTSE Congress & European Conference on Heat Treatment 2022, September 5-8, 2022, Salzburg, Austria, pp. 75-80.
Arimoto, K., “A Brief Review on Validation for Heat Treatment Simulation”, Heat Treating Society Conference & Exposition, September 14 - 16, 2021, St. Louis, MO, USA.
Arimoto, K., “An Overview of Researches, Standardization Activities, and Developing Prototypes on Test Systems for Quenchant Characterization”, ECHT 2021 and QDE 2021, Online Conference, April 27th – 28th, 2021, pp. 34-44.
Arimoto, K., “Simulated Strains-Based Approach for Explaining Distortion and Residual Stress in Quenched Pure Iron Cylinder”, ECHT 2021 and QDE 2021, Online Conference, April 27th – 28th, 2021, pp. 148-157.
Arimoto, K., “A Brief Review on Test Systems Using a Ball Probe for Determination of Cooling Characteristics of Quenchants”, J. of Materi Eng and Perform (2020) 29:3462-3475, doi.org/10.1007/s11665-020-04615-1
Arimoto, K., “A Brief Review on Test Systems Using a Ball Probe for Determination of Cooling Characteristics of Quenchants”, Heat Treating Society Conference & Exposition, October 14-18, 2019, Detroit, Michigan, USA.
Iyota, M., Yoshii, T., and Arimoto, K., “A Simulation Study on Blade Curving due to Quenching in the Japanese Sword”, International Conference on Quenching and Distortion Engineering 2018, November 27-29, 2018, Nagoya, Japan.
Arimoto, K., Shimaoka, M., and , Ikuta, F., “First Prototype of Container Elevator Type Test System Using a Small Ball Probe for Determination of Cooling Characteristics of Quenchants”, International Conference on Quenching and Distortion Engineering 2018, November 27-29, 2018, Nagoya, Japan.
Arimoto, K., “Learning about Mechanisms of Distortion and Residual Stress Due to Heat Treatment by Simulated-Strain Based Approach”, International Conference on Quenching and Distortion Engineering 2018, November 27-29, 2018, Nagoya, Japan.
Arimoto, K. and Iyota, M., “An Experimental Study on Blade Curving due to Quenching in the Japanese Sword”, 29th Heat Treating Society Conference & Exposition, October 24-26, 2017, Columbus, Ohio, USA.
Arimoto, K., Shimaoka, M., and , Ikuta, F., “Developing Rotary-Arm Type Test System with a Small Platinum Ball Probe for Determination of Cooling Characteristics of Quenchants”, 29th Heat Treating Society Conference & Exposition, October 24-26, 2017, Columbus, Ohio, USA.
Arimoto, K., “Thermally-Processed Steels: Residual Stresses and Distortion”, In Encyclopedia of Iron, Steel, and Their Alloys, Taylor and Francis, New York, Published online: 13 Apr 2016; 3605-3633.
Arimoto, K. “Inverse Quench-hardening Phenomena in Steels and Their Origin”, Int. J, Microstructure and Materials Properties, Vol. 11 (3-4), 2016, pp. 214-228. doi.org/10.1504/IJMMP.2016.079148
Arimoto, K. “Studies on Distortions in a Steel Plate Specimen Carburised on a Single Side and Oil-quenched”, Int. J. Microstructure and Materials Properties, Vol. 10 (3/4), 2015, pp. 201-215. doi: 10.1504/IJMMP.2015.072916
Arimoto, K., “Simulation of Steels Prone to Quench Cracking”, ASM Handbook, Volume 4D, Heat Treating of Irons and Steels, Dossett, J. and Totten, G. E. editors, 2014, pp. 44-57.
Arimoto, K., Ikuta, F., and Yamanaka, S., “Studies on Distortions in Nitrided Steel Cylinders Using Computer Simulation”, Int. J. Microstructure and Materials Properties, Vol. 7(4), 2012, pp. 353-366.
doi.org/10.1504/IJMMP.2012.048525
Arimoto, K., Ikuta, F., Yamanaka, S., and Funatani, K., “Development of Simulation Tool for Predicting Distortion and Residual Stress in Nitrided Parts”, Int. J. Microstructure and Materials Properties, Vol. 5 (4/5), 2010, pp. 386-398. doi.org/10.1504/IJMMP.2010.037615
Arimoto, K., Yamanaka, S., Narazaki, M., and Funatani, K., “Explanation of the Origin of Quench Distortion and Residual Stress in Specimens using Computer Simulation”, Int. J. Microstructure and Materials Properties, 2009, Vol. 4 (2), pp. 168-186. doi.org/10.1504/IJMMP.2009.028631
Arimoto, K., Yamanaka, S., and Funatani, K., “Explanation of the Origin of Distortion and Residual Stress in Carburized Ring Using Computer Simulation”, Journal of ASTM International, Vol. 5 (10), 2008, Paper ID: JAI101797.
Arimoto, K. and Funatani, K., “Historical Review of Residual Stress in Quenched Fe-Ni Alloy Cylinders and Explanation of Its Origin Using Computer Simulation”, Proc. 24th Heat Treating Conference, 17-19, Sep., 2007, Detroit, ASM International, pp. 163-172.
Arimoto, K., Yamanaka, S., and Funatani, K., “Explanation of the Origin of Distortion and Residual Stress in Specimens Using Computer Simulation”, Proc. 5th International Conference and European Conference on Heat Treatment 2007, Berlin, 25-27, April., 2006, pp. 157-164.
Arimoto, K., Yamanaka, S., and Funatani, K., “Explanation of the Origin of Distortion and Residual Stress in Carburized Ring Using Computer Simulation”, 15th Congress of IFHTSE, Vienna, 25-29, Sep., 2006.
Arimoto, K., Horino, T., Ikuta, F., and Jin, C., Tamura, S., and Narazaki, M., “Explanation of the Origin of Distortion and Residual Stress in Water Quenched Cylinders Using Computer Simulation”, Journal of ASTM International, Vol. 3 (5) , 2006, Paper ID: JAI14204.
Arimoto, K., Horino, T., Ikuta, F., Jin, C. and Tamura, S., “Explanation of the Origin of Distortion and Stress Distribution Patterns in Water-Quenched Chromium Steel Cylinders Using Computer Simulation”, ASM Heat Treating Society Conference, September 26-28, 2005, Pittsburgh, PA, pp. 253-262.
Arimoto, K., Horino, T., Ikuta, F., Jin, C., Tamura, S., and Narazaki, M., “Verification of Distortion Characteristics in Water Quenched Cylinders by Computer Simulation”, 1st International Conference on Distortion Engineering, Bremen, Germany, 14-16, September 2005, pp. 425-435.
Arimoto, K., Ikuta, F., Horino, T., Tamura, S., Narazaki, M., and Mikita, Y., “Preliminary Study to Identify Criterion for Quench Crack Prevention by Computer Simulation”, 14th Congress of International Federation for Heat Treatment and Surface Engineering, October 26-28, 2004, Shanghai, China. (Transactions of Materials and Heat Treatment, Vol. 25 (5), 2004, pp. 486-493).
Arimoto, K., Jin, C., Tamura, S., Funatani, K., and M. Tajima, “Verification of Inverse Quench-Hardening Phenomena in Bearing Steel Specimens by Experiment and Computer Simulation”, 14th Congress of International Federation for Heat Treatment and Surface Engineering, October 26-28, 2004, Shanghai, China. (Transactions of Materials and Heat Treatment, Vol. 25 (5), 2004, pp. 465-470).
Arimoto, K., Kim, H., Narazaki, M., Lambert, D., and Wu, W. T., “Mechanism of Quench Distortion on Steel Shaft with Keyway”, 21th Heat Treating Conference, ASM International, 2001, pp. 144-151.
Arimoto, K., Huang, D., Lambert, D., and Wu, W. T., “Computer Prediction and Evaluation of Inverse Quench-Hardening of Steel”, 20th Heat Treating Conference, ASM International, 2000, pp. 737-746.
Arimoto, K., Lee, K., Lambert, D., and Wu, W. T., “Prediction of Quench Cracking by Computer Simulation”, 19th Heat Treating Conference, ASM International, 1999, pp. 435-440.
Arimoto, K., Lee, K., Lambert, D., and Wu, W. T., “Finite Element Analysis of Internal Stresses in Quenched Steel Cylinders”, 19th Heat Treating Conference, ASM International, 1999, pp. 425-434.

配管解析関係

小野泰蔵，小嶋一郎，有本享三，“配管構造解析プログラムHIPIPE80の開発1”，配管技術, No. 4, 1982, pp. 57-67.
小野泰蔵，小嶋一郎，有本享三，“配管構造解析プログラムHIPIPE80の開発2”，配管技術, No. 6, 1982, pp. 65-78.
有本享三，米村誠, 木下正義，古林英樹，“管路系流れシミュレーションプログラムの開発”, 日立造船技報, Vol. 45, No.4, 1984, pp. 189-197.
有本享三，植田正弘，山崎雄一，“配管設計における解析のシステム化”, 配管技術，No.2, 1985, pp. 102-114.
大窪厚男，有本享三，“フランジ継手の漏えいに関する研究・第1報 (I)”，バルカーレビュー，Vol. 30, No. 6, 1986, pp. 1-9.
大窪厚男，有本享三，“フランジ継手の漏えいに関する研究・第1報 (II)”，バルカーレビュー，Vol. 30, No. 7, 1986, pp. 1-8.
有本享三，“配管技術分野における表計算ソフトの活用”，配管技術，1988増刊号，pp. 167-177.
有本享三，“配管解析入門(1)”，配管技術，No.1，1987，pp. 147-157.
有本享三，“配管解析入門(2)”，配管技術，No.3，1987，pp. 140-151.
有本享三，“配管解析入門(3)”，配管技術，No.4，1987，pp. 108-133.
有本享三，“配管解析入門(4)”，配管技術，No.5，1987，pp. 136-145
有本享三，“配管解析入門(5)”，配管技術，No.7，1988，pp. 132-146.
有本享三，“配管解析入門(6)”，配管技術，No.6，1989，pp. 97-104.
有本享三，“配管解析入門(7)”，配管技術，No.2，1990，pp. 107-112.
有本享三，“配管解析入門(8)”，配管技術，No.4，1990，pp. 86-95.
有本享三，“配管解析入門(9)”，配管技術，No.11，1990，pp. 106-113.
有本享三，“配管解析入門(10)”，配管技術，No.2，1991，pp. 132-141.
有本享三，“配管技術者のための有限要素法入門(1)”，配管技術，No.12，1988，pp. 112-139.
有本享三，“配管技術者のための有限要素法入門(2)”，配管技術，No.3，1989，pp. 92-102.
有本享三，“配管技術者のための有限要素法入門(3)”，配管技術，No.4，1989，pp. 77-85.
有本享三，“配管技術者のための有限要素法入門(4)”，配管技術，No.5，1989，pp. 106-134.
有本享三，“配管技術者のための有限要素法入門(5)”，配管技術，No.5，1990，pp. 75-83.
有本享三，“配管技術者のための有限要素法入門(6)”，配管技術，No.8，1990，pp. 105-112.
有本享三，“配管技術者のための有限要素法入門(7)”，配管技術，No.9，1990，pp. 108-113.
有本享三，“配管技術者のための有限要素法入門(8)”，配管技術，No.10，1990，pp. 113-136.
有本享三，“配管技術者のための有限要素法入門(9)”，配管技術，No.1，1991，pp. 113-137.
有本享三，“Mr. E. C. Rodabaughと配管解析のバックグラウンド”，配管技術，Vol. 41, No.5, 1999, pp. 65-68．
有本享三，湯原耕造，“配管解析の基礎(1)”，配管技術，No. 5，2019，pp. 59-69.
有本享三，湯原耕造，“配管解析の基礎(2)”，配管技術，No. 6，2019，pp. 40-49.
有本享三，湯原耕造，“配管解析の基礎(3)”，配管技術，No. 7，2019，pp. 55-63.
有本享三，湯原耕造，“配管解析の基礎(4)”，配管技術，No. 8，2019，pp. 30-36.
有本享三，湯原耕造，“配管解析の基礎(5)”，配管技術，No. 11，2019，pp. 37-49.
有本享三，湯原耕造，“配管解析の基礎(6)”，配管技術，No. 1，2020，pp. 32-44.
有本享三，湯原耕造，“配管解析の基礎(7)”，配管技術，No. 3，2020，pp. 37-46.
有本享三，湯原耕造，“配管解析の基礎(8)”，配管技術，No. 4，2020，pp. 34-43.
有本享三，湯原耕造，“配管解析の基礎(9)”，配管技術，No. 5，2020，pp. 28-38.
有本享三，湯原耕造，“配管解析の基礎(10)”，配管技術，No. 8，2020，pp. 33-42.
有本享三，湯原耕造，“配管解析の基礎(11)”，配管技術，No. 10，2020，pp. 50-62.
有本享三，湯原耕造，“配管解析の基礎(12)”，配管技術，No. 11，2020，pp. 56-67.
有本享三，湯原耕造，“配管解析の基礎-補遺A”，配管技術，No. 12，2020，pp. 51-59.

取締役プロフィール

有本 享三

メッセージ

略歴

報文

熱処理のシミュレーションと冷却の関係

配管解析関係

教育関係

有本享三