鄒  艶 華

宇都宮大学・工学部・基盤工学科

機械システム工学コース・教授(工学博士)

学歴・職歴

 

学歴:

宇都宮大学大学院工学研究科エネルギー環境科学専攻博士前期課程 修了(2001.3)

宇都宮大学大学院工学研究科エネルギー環境科学専攻博士後期課程 修了(2004.3)

 

職歴:

宇都宮大学工学部 産学官連携研究員(2004.4-2005.3

日本学術振興会 特別研究員(2005.4-2007.3

中国遼寧科技大学 機械工程・自動化学院 教授2007.4-2008.3

宇都宮大学工学部 基盤工学科機械システム工学コース 准教授2008.4-2022.05

 宇都宮大学工学部 基盤工学科機械システム工学コース 教授(2022.6-現在)

 

E-MAIL      yanhua@cc.utsunomiya-u.ac.jp

 

担当講義

 

   盤:  初期セミナーB

   部:  精密加工学

機械システム工学実験(テーマ:砥粒加工)

機械システム工学実習(テーマ:ダイヤルゲージ,CAD2

大学院: 先端精密加工学特論

マイクロ応用加工学特論

 

所属学会

 

1.   ()精密工学会

2()日本機械学会

3()砥粒加工学会

 

組織・運営情報

 

全学・部局委員会等:

全学:学術国際委員会委員、留学生専門委員会委員(201020152019年度)

学部:工学部・工学研究科学術国際委員会委員長(201020152019年度)

 

学外活動:

平成21年度宇都宮大学・読売新聞共催公開講座(第7回、2009年)

国際ロータリー第2550地区学友会会長(200910月〜20165月)

 

 

受賞

 

1.宇都宮大学学長表彰 優秀賞(総合)(2021年)

2.宇都宮大学学長表彰 優秀賞(総合)(2020年)

3.国際会議ICMMPM2020Best Paper Award2020

4.国際会議CJUMP2018Best Paper Award2018

5.国際会議CJUMP2017Best Paper Award2017

6.日本機械学会 生産加工・工作機械部門 優秀講演論文賞(2006年)

 

専門分野

 

1.生産工学

2.精密加工

3.砥粒加工

4.磁気加工

 

研究分野

 

「磁場」を「精密加工技術」に取り込んだ特殊な超精密加工技術の開発とその応用研究を行っています。例えば、工具が届かない狭い箇所の精密加工、細長いパイプの内面加工、精密バリ取りなどが実現できます。

 

著 書(分担執筆)

 

1.図解バリ取り・エッジ仕上げ・表面仕上げ・エッジ品質用語辞典(日・英・中),共著、BEST-JAPAN研究会監編集,pp.1-70, 2017.

2.最新研磨技術,共著、シーエムシー出版,pp.170-1852012.

3.「バリテクノロジー実務編‐バリ取り・エッジ仕上げ技術の選択法から実例まで‐」, 共著、桜企画出版、pp.120-124, 2008.

4.「光学ガラスレンズの設計・成型加工ノウハウ集」(共著、技術情報協会、pp.87-95, 2006.

 

学協会誌論文

 

1. Nozomi Nakamura,Yanhua Zou. Study on ultra-precision surface finishing of micro-complex shaped parts using magnetic abrasive finishing process. The 6th International Conference on Surface and Interface Fabrication Technologies (ICSIF)At: Tokyo. March 2024.

2. Xie, Huijun, and Yanhua Zou. "Investigation on finishing characteristics of magnetic abrasive finishing process using an alternating magnetic field." Machines 8.4 (2020): 75.

3. Sato, Ryunosuke, Yanhua Zou, and Taiki Koma. "Experimental Investigation of a Fixed-Abrasive Machining with Magnetic Brush for Ti-6Al-4V ELI Alloy." International Journal of Automation Technology 18.2 (2024): 232-239.

4. Liu, Jiangnan, and Yanhua Zou. "Study on elucidation of the roundness improvement mechanism of the internal magnetic abrasive finishing process using a magnetic machining tool." Journal of Manufacturing and Materials Processing 7.1 (2023): 49.

5. Xie, Hui Jun, and Yan Hua Zou. "Application of magnetic abrasive finishing process using alternating magnetic field for finishing polychlorotrifluoroethylene resin." Materials Science Forum. Vol. 1066. Trans Tech Publications Ltd, 2022.

6. Xie, Hui Jun, and Yan Hua Zou. "Application of magnetic abrasive finishing process using alternating magnetic field for finishing polychlorotrifluoroethylene resin." Materials Science Forum. Vol. 1066. Trans Tech Publications Ltd, 2022.

7. Liu, Jiangnan, and Yanhua Zou. "Study on mechanism of roundness improvement by the internal magnetic abrasive finishing process using magnetic machining tool." Machines 10.2 (2022): 112.

8. Zhang, Yulong, and Yanhua Zou. "Study on corrective abrasive finishing for workpiece surface by using magnetic abrasive finishing processes." Machines 10.2 (2022): 98.

9. Xing B, Zou Y, Tojo M. Study on magnetic abrasive finishing combined with electrolytic process?precision surface finishing for SUS 304 stainless steel using pulse voltage[J]. Journal of Manufacturing and Materials Processing, 2022, 6(1): 14.

10. XIE, Huijun, and Yanhua ZOU. "Investigation on surface finishing of polychlorotrifluoroethylene resin by the magnetic abrasive finishing process using alternating magnetic field." Proceedings of International Conference on Leading Edge Manufacturing in 21st century: LEM21 2021.10. The Japan Society of Mechanical Engineers, 2021.

11. Yanhua Zou: Development of a new magnetic abrasive finishing process with renewable abrasive particles using the circulatory system, Precision Engineering 72(11):417-425, June, 2021.

12. Huijun Xie, Yanhua Zou: Study on the magnetic abrasive finishing process using alternating magnetic field—discussion on the influence of current waveform variation, The International Journal of Advanced Manufacturing Technology 114(5), June, 2021.

13. Huijun Xie, Yanhua Zou: Investigation of the application of a magnetic abrasive finishing process using an alternating magnetic field for finishing micro-grooves Investigation of the application of a magnetic abrasive finishing process using an alternating magnetic field for finishing micro-grooves, Nami Jishu yu Jingmi Gongcheng/Nanotechnology and Precision Engineering 4(3):33002, May, 2021.

14. Zhang Yulong, Yanhua Zou: Study of corrective abrasive finishing for plane surfaces using magnetic abrasive finishing processes, Nami Jishu yu Jingmi Gongcheng/Nanotechnology and Precision Engineering 4(3):033001, May, 2021.

15.Yanhua Zou, Ryunosuke Satou, Ozora Yamazaki, Huijun Xie: Development of a New Finishing Process Combining a Fixed Abrasive Polishing with Magnetic Abrasive Finishing Process, Machines 9(4), 81, 2021.

16. Huijun Xie, Yanhua Zou. Study on the magnetic abrasive finishing process using alternating magnetic field—discussion on the influence of current waveform variation. Int J Adv Manuf Technol ,2021.

17.  Yanhua Zou, Huijun Xie: Investigation on the Improvement of Surface Quality by the Magnetic Plate-Assisted Magnetic Abrasive Finishing Process, Materials Science Forum, vol.1018, pp. 111-116, 2021.

18.  Jiang Nan Liu, Yanhua Zou: Discussion on Roundness of Non-Ferromagnetic Tube by Interior Magnetic Abrasive Finishing Using a Magnetic Machining Jig, Materials Science Forum, vol.1018, pp. 105-110, 2021.

19.  Huijun Xie, Yanhua Zou: Study on the Magnetic Abrasive Finishing Process Using an Alternating Magnetic Field - Discussion on the Application of Full-Wave Rectifier Current -, Materials Science Forum, vol. 1018, pp. 117-122 2021.

20. Yu Long Zhang, Yanhua Zou, Huijun Xie: Study on Plan Magnetic Abrasive Finishing - Discussion on Processing Methods for Improving Flatness, Materials Science Forum, vol.1018, pp. 123-128, 2020.

21. Liu Jiangnan, Yanhua Zou: Discussion on Roundness of Non-Ferromagnetic Tube by Internal Magnetic Abrasive Finishing Using a Magnetic Machining Jig, Materials Science Forum, vol.1018, pp. 105-110, 2020.

22. Zhang Yulong, Yanhua Zou, Huijun Xie: Study on Plan Magnetic Abrasive Finishing - Discussion on processing methods for improving flatness-, Materials Science Forum, vol.1018, pp. 123-128, 2020.

23. Huijun Xie, Yanhua Zou: Study on the magnetic abrasive finishing process using an alternating magnetic field - Discussion on the application of full-wave rectifier current -, Materials Science Forum, vol.1018, pp. 117-122, 2020.

24. Yanhua Zou, Huijun Xie: Investigation on the improvement of surface quality by the magnetic plate-assisted magnetic abrasive finishing process, Materials Science Forum, vol.1018, pp. 1111-116, 2020.

25. Xing Baijun, Yanhua Zou: Investigation of Finishing Aluminum Alloy A5052 Using the Magnetic Abrasive Finishing Combined with Electrolytic Process, Machines, 8(4), 78, 2020.

26.  Huijun Xie, Yanhua Zou: Huijun Xie: Investigation on Finishing Characteristics of Magnetic Abrasive Finishing Process Using an Alternating Magnetic Field, Machines, 8(4), 75, 2020.

27. Yanhua Zou, Huijun Xie, Zhang Yulong: Study on surface quality improvement of the plane magnetic abrasive finishing process, The International Journal of Advanced Manufacturing Technology, Vol.109, pp.1825–1839, 2020.

28. Yanhua Zou, Xing Baijun, Xu Sun: Study on the magnetic abrasive finishing combined with electrolytic process—investigation of machining mechanism, The International Journal of Advanced Manufacturing Technology, vol.108, pp.1675–1689, 2020.

29. Chaowen Dong, Yanhua Zou, Huijun Xie: Study on a New Kind of Magnetic Abrasive Finishing by Using Alternating Magnetic Field for Ultra-Precision Plane Finishing, Materials Science Forum, vol.977, pp. 42-49, 2019.

30. Chaowen Dong, Yanhua Zou: New Magnetic Abrasive Finishing for Alumina Ceramic Plane Using Alternating Magnetic Fields, Int. J. Automation Technol., vol.13, No.6, pp. 775-779, 2019.

31. Jinzhong Wu, Shaohui Yin, Xing Baijun, Yanhua Zou: Effect of magnetic pole on finishing characteristics in low-frequency alternating magnetic field for micro-groove surface, The International Journal of Advanced Manufacturing Technology, vol.104, pp.4745–4755, 2019.

32. Huijun Xie, Yanhua Zou, Chaowen Dong, Jinzhong Wu: Study on the magnetic abrasive finishing process using alternating magnetic field: investigation of mechanism and applied to aluminum alloy plate, The International Journal of Advanced Manufacturing Technology, vol.102, pp.1509–1520, 2019.

33. Xu Sun, Yanhua Zou: Study on magnetic abrasive finishing combined with electrolytic process, International Journal of Abrasive Technology (IJAT), vol. 9, No. 2, 2019.

34. Yanhua Zou, Huijun Xie, Chaowen Dong, Jinzhong Wu: Study on complex micro surface finishing of alumina ceramic by the magnetic abrasive finishing process using alternating magnetic field, The International Journal of Advanced Manufacturing Technology, vol97, pp.2193–2202, 2018.

35. Xu Sun, Yanhua Zou: Study on Electrolytic Magnetic Abrasive Finishing for Finishing Stainless Steel SUS304 Plane with a Special Compound Machining Tool, J. Manuf. Mater. Process. 2(3), 41,2018.

36. Xu Sun, Yanhua Zou: Development of magnetic abrasive finishing combined with electrolytic process for finishing SUS304 stainless steel plane, The International Journal of Advanced Manufacturing Technology, vol.92, pp.3373–3384, 2017.

37. Jinzhong Wu, Yanhua Zou, Hitoshi Sugiyama: Study on finishing characteristics of magnetic abrasive finishing process using low-frequency alternating magnetic field, The International Journal of Advanced Manufacturing Technology, vol.85, pp.585–594, 2016.

38. Mohd Ridha Muhamad, Yanhua Zou, Hitoshi Sugiyama: Investigation of the finishing characteristics in an internal tube finishing process by magnetic abrasive finishing combined with electrolysis, The International Journal of Surface Engineering and Coatings, vol.94, Issue 3, 2016.

39. A. Y. Jiao, H. J. Quan, Z. Z. Li , Y. H. Zou: Study on improving the trajectory to elevate the surface quality of plane magnetic abrasive finishing, The International Journal of Advanced Manufacturing Technology, vol.80, pp.1613–1623, 2015.

40. Mohd Ridha Muhamad, Yanhua Zou, Hitoshi Sugiyama: Development of a New Internal Finishing of Tube by Magnetic Abrasive Finishing Process Combined with Electrochemical Machining, International Journal of Mechanical Engineering and Applications, vol.3, Issue 2, April, pp.22-29, 2015.

41. Mohd Ridha Muhamad, Yanhua Zou: Magnetic Abrasive Finishing of Internal Surface of Aluminum Pipe Using Magnetic Machining Jig, Advanced Materials Research, vol.894, pp. 222-226, 2014.

42. Jin Zhong Wu, Yanhua Zou: Study on an Ultra-Precision Plane Magnetic Abrasive Finishing Process by Use of Alternating Magnetic Field, Advanced Materials Research, vol.395-396, pp. 985-989, 2013.

43. Yanhua Zou, Ttt Sssss: Development of a New Ultra-Precision Magnetic Abrasive Finishing Process, Key Engineering Materials, vol.523-524, pp.256-261, 2012.

44. Y. ZOU, J. LIU and T.SHINMURA: Study on Internal magnetic Field Assisted Finishing Process Using a Magnetic Machining Jig for Thick Non-ferromagnetic Tube, Advanced Materials Research, vol.325pp.530-535, 2011

45. 進村武男,鄒艶華,内面磁気バリ取り法に関する研究−円管内面に生じたバリのみを除去する内面磁気バリ取り法の開発,砥粒加工学会誌,第54巻,第10号,pp.619-62110月,2010年.

46. Y. ZOU, Anyuan. Jiao and Toshio. Aizawa: Study on Plane Magnetic Abrasive Finishing Process - Experimental and Theoretical Analysis on Polishing Trajectory -, Advanced Materials Research, vol.126-128pp.1023-1028, 2010.

47. 鄒艶華,阿久津聡,進村武男,新しい超精密磁気研磨法の開発,砥粒加工学会誌,第54巻,第2号,pp.97-1002月,2010.

48. Yan Hua Zou, Takeo Shinmura, F. Wang: Study on a Magnetic Deburring Method by the Application of the Plane Magnetic Abrasive Machining Process, Advanced Materials Research, vol.76-78, pp.276-281, 2009.

49. 進村武男,鄒艶華,交流磁場と磁気異方性工具を利用した内面の磁気援用加工法に関する研究−磁性ピン工具の磁気特性がピン工具の加工挙動に及ぼす影響−,砥粒加工学会誌,第53巻,第7号,pp.440-4457月,2009.

50. Y.ZOU,T.SHINMURA: A New Internal Magnetic Field Assisted Machining Process Using a Magnetic Machining Jig - Machining Characteristics of Inside Finishing of a SUS304 Stainless Steel Tube -, Advanced Materials Research, vol.69-70pp.143-147, 2009.

51. 鄒艶華,進村武男,中橋浩,小型磁性加工ジグを利用した磁気援用加工法,砥粒加工学会誌,第53巻,第1号,pp.49-521月,2009年.

52. 鄒艶華,進村武男,定圧磁気ブラシを利用した新しい平面磁気研磨法に関する研究,砥粒加工学会誌,第53巻,第1号,pp.31-341月,2009年.

53. 鄒艶華,進村武男,磁性加工ジグを用いた内面の磁気バリ取り法に関する研究−SUS304  ステンレス鋼円管内面のドリル加工穴の精密バリ取り−,砥粒加工学会誌,第51巻,第12号,pp.696-69912月,2007年.

54. 鄒艶華,進村武男,永久磁石と磁性砥粒を利用した内面の磁気バリ取り技術の研究開発(加工原理と二,三のバリ取り特性),砥粒加工学会誌,第51巻,第2号,pp.94-992月,2007.

55. Y.Zou , T.ShinmuraMechanism of a Magnetic Field Assisted Finishing Process Using a Magnet Tool and Magnetic Particles, Key Engineering Material, vol. 339, pp.106-113, 2007.

56. Y.Zou , T.ShinmuraDevelopment of Effective Magnetic Deburring Method for a Drilled Hole on the Inside of Tubing Using a Magnetic Machining Jig, Key Engineering Materials, vol.329, pp.243-248, 2007.

57. 鄒艶華,進村武男,電流と磁場の相互作用を利用した新しい加工法の開発研究,砥粒加工学会誌,第50巻,第12号,pp.714-71712月,2006年.

58. 鄒 艶華,進村 武男,磁性工作物材料の精密磁気研磨−複数の永久磁石を工具とした場合の研磨効果−,砥粒加工学会誌,第49巻,第11号,pp.64364411月,2005年.

59. Y.Zou , T.ShinmuraStudy on Internal Magnetic Field Assisted Finishing Process Using a Magnetic Machining JigKey Engineering Materialsvol. 291-292pp.281-2862005

60. 鄒 艶華,進村 武男,磁性加工ジグを用いた磁気援用加工法に関する研究−厚肉ステンレス鋼円管内面の精密仕上げ−,砥粒加工学会誌,第48巻,第8号,pp.4444498月,2004年.

61. Y.Zou , T.ShinmuraA Study on the Magnetic Field Assisted Machining Process for Internal Finishing Using a Magnetic Machining JigKey Engineering Materialsvol. 257-258pp.5055102004

62. 鄒 艶華,進村 武男,磁性加工ジグを用いた磁気援用加工法に関する研究−厚肉ステンレス鋼円管内面の鏡面仕上げ−,砥粒加工学会誌,第47巻,第10号,pp.57057110月,2003年.

63. 鄒 艶華,進村 武男,磁性加工ジグを用いた磁気援用加工法に関する研究−磁性粒子と研磨材スラリーを用いた場合の加工特性−,砥粒加工学会誌,第47巻,第7号,pp.3903957月,2003年.

64.  鄒 艶華,進村 武男,磁性加工ジグを用いた磁気援用加工法に関する研究,日本機械学会論文集(C編),第68巻,第669号,pp.157515815月,2002年.

          

国際会議論文

 

1. Nozomi Nakamura,Yanhua Zou. Study on ultra-precision surface finishing of micro-complex shaped parts using magnetic abrasive finishing process. The 6th International Conference on Surface and Interface Fabrication Technologies (ICSIF)At: Tokyo. March 2024.

2. Sato, Ryunosuke, Yanhua Zou, and Taiki Koma. "Experimental Investigation of a Fixed-Abrasive Machining with Magnetic Brush for Ti-6Al-4V ELI Alloy." International Journal of Automation Technology 18.2 (2024): 232-239.

3. Xie, Hui Jun, and Yan Hua Zou. "Application of magnetic abrasive finishing process using alternating magnetic field for finishing polychlorotrifluoroethylene resin." Materials Science Forum. Vol. 1066. Trans Tech Publications Ltd, 2022.

4. Xie, Hui Jun, and Yan Hua Zou. "Application of magnetic abrasive finishing process using alternating magnetic field for finishing polychlorotrifluoroethylene resin." Materials Science Forum. Vol. 1066. Trans Tech Publications Ltd, 2022.

5. Xing B, Zou Y, Tojo M. Study on magnetic abrasive finishing combined with electrolytic process?precision surface finishing for SUS 304 stainless steel using pulse voltage[J]. Journal of Manufacturing and Materials Processing, 2022, 6(1): 14.

6. XIE, Huijun, and Yanhua ZOU. "Investigation on surface finishing of polychlorotrifluoroethylene resin by the magnetic abrasive finishing process using alternating magnetic field." Proceedings of International Conference on Leading Edge Manufacturing in 21st century: LEM21 2021.10. The Japan Society of Mechanical Engineers, 2021.

7. Xu Jiaye, Yanhua Zou: Study on finishing of polychlorotrifluoroethylene resin by magnetic abrasive finishing process with renewable abrasive particles, ICEME 2021 5th International Conference on Material Engineering and Manufacturing, (Webinar), 2021.

8. Xing Baijun, Yanhua Zou: Investigation on machining characteristics of magnetic abrasive finishing combined with electrolytic process for precision finishing of aluminum alloy A5052, The 3rd International Conference on Surface and Interface Fabrication Technologies (ICSIF), Wako Campus of RIKEN, Saitama, Japan, 2021.

9. Xu Jiaye, Yanhua Zou: Research on Magnetic Abrasive Finishing Process with Renewable Abrasive Particles, The 3rd International Conference on Surface and Interface Fabrication Technologies (ICSIF), Wako Campus of RIKEN, Saitama, Japan, 2021.

10. Huijun Xie, Yanhua Zou: Study on ultra-precision processing of aluminum alloy plates through magnetic abrasive finishing process using alternating magnetic field, China-Japan International Conference on Ultra-Precision Machining Process (CJUMP 2018), 13 – 15 September, Harbin, China, 2018.

11. Yanhua Zou, Huijun Xie: Study on ultra-precision processing of glass lens using magnetic abrasive finishing process, 6th International Conference on Nanomanufacturing, nanoMan2018, 04-06 July 2018, Brunel University London, UK, 2018.

12. Xu Sun, Yanhua Zou: Experimental investigations for plane magnetic abrasive finishing combined with electrolytic process, The 14th China-Japan International Conference on Ultra-Precision Machining Process, CJUMP2017, Shanghai, China, 2017.

13. Mohd Ridha Muhamad, Yanhua Zou: STUDY ON IMPROVING MACHINING EFFICIENCY OF INTERNAL MAGNETIC ABRASIVE FINISHING PROCESS, Proceedings of ASPE 2015 Annual Meeting, Texas,USA, 2015.

14Y.Zou, T.Shinmura and F.Wang: Study on a Magnetic Deburring Method by the Application of the Plane Magnetic Abrasive Machining Process, pp.276-281, proceeding of  the 12th Internal Symposium on Advances in Abrasive Technology, Sponsored by JSAT, ICAT, Gold Coast, Australia, 2009.

15. Yanhua Zou, Takeo Shinmura, A New Internal Magnetic Field Assisted Machining Process Using a Magnetic Machining Jig Machining Characteristics of Inside Finishing of a SUS304 Stainless Steel Tube, The 6th CHINA-JAPAN International Conference on Conference on Ultra-Precision Machining (6th CJICUPM, 2008) Hunan University, Changsha, China.P.R.,24th-25th November, 2008.

16. Yanhua Zou, Takeo Shinmura, Development on a new plane magnetic abrasive machining process by the application of a constant pressure magnetic brush, pp.252-255, Proceeding of the 2007ASPEN Asian Symposium for Precision Engineering and Nanotechnology , Co-sponsored and organized by KSPE, JSPE, CMES, CPMS, Gwangju, Korea, 2007.

17. Yanhua Zou, Takeo Shinmura, A new internal magnetic field assisted machining process using a magnetic machining jig -Study on improvement of the roundness on inside of a tubing-, pp.256-260, Proceeding of the 2007ASPEN Asian Symposium for Precision Engineering and Nanotechnology , Co-sponsored and organized by KSPE, JSPE, CMES, CPMS, Gwangju, Korea, 2007.

18. Y.Zou , T.ShinmuraStudy on a new internal magnetic filed assisted machining process using a magnetic machining jigApplication of internal finishing and deburring, pp.71-78,8th Internal Conference on Precision Surface Finishing and Deburringand 5th Asia-Pacific Forum on Precision Surface Finishing & Deburring TechnologyKansai University 2006.

19. Y.Zou , T.ShinmuraA New Precision Magnetic Filed Assisted Finishing Process for Ferromagnetic Metallic Using Plural Permanents as a Tool, pp.587-590, Proceedings of the 21th Annual Meeting, ASPE, California, 2006.

20. Y.Zou , T.ShinmuraDevelopment of Effective Magnetic Deburring Method for a Drilled Hole on the Inside of Tubing Using a Magnetic Machining Jig,pp.243-248, Proceeding of  the 9th Internal Symposium on Advances in Abrasive Technology, Sponsored by JSAT, ICAT, Dalian University of Technology. Dalian, China, 2006.

21. Y.Zou , T.ShinmuraMechanism of a magnetic field assisted finishing process using a magnet tool and magnetic particles, pp.178-182, Proceeding of the First International Conference on Precision Engineering and Micro/Nano Technology in Asia (ASPEN2005) , Co-sponsored and organized by CMES, JSPE, KSPE, NNSFC, etc. Shenzhen, China, 2005.

22. Y.Zou , T.Shinmura, Study on Internal Magnetic Field Assisted Finishing Process Using a Magnetic Machining Jig, pp.281-286, ISAAT2005, The 8th Internal Symposium on Advances in Abrasive Technology, Sponsored by ICAT, JSAT, The Ministry of Education and Science of the Russian Federation, St. Petersburg StatePolytechnic University, etc. St. Petersburg, Russian, 2005.

23. Y.Zou, T.Shinmura, A new internal magnetic assisted machining process for non-ferromagnetic thick tubing using magnetic machining jig, pp.721-724, Proceedings of the 19th Annual Meeting, ASPE, Floride 2004.

24. Y.Zou, T.Shinmura, Development of a new precision internal finishing process using a magnetic machining jig, pp.613-615, Proceeding of 6th international conference on frontiers of design and manufacturing, Co-sponsored and organized by CMES, ASME, etc. Xi’an, China, 2004.

25. Y.Zou, T.Shinmura, A Study on Magnetic Field-Assisted Machining Process for the Internal Finishing Using a Magnetic Machining Jigpp.505-510,ISAAT2003, The 6th Internal Symposium on Advances in Abrasive Technology, Sponsored by ICAT, JSAT, Institute of Grinding Technology, University of Bristol, etc. Bristol, UK, 2003.

 

解 説

 

1.磁性加工ジグを用いた磁気援用加工法の提案,機械と工具,47巻,第9号,pp102107, (2003).

2.磁気研磨法による精密仕上げ,機械の研究,56巻,第12号,pp.1223-1228, (2004) .

3.バリ取り技術を科学する,機械と工具,第49巻,第12号,pp.5864, (2005).

4. 厚肉円管内面の磁気研磨技術の開発,機械技術,第54巻,第1号,pp.7479,(2006).

5.永久磁石を利用した内面のバリ取り技術の開発,Best-Japanバリ取り研究会 会報第26号,pp.2829, 2006).

6.強力磁気加工技術の開発とその応用,機械と工具,第51巻,第9号,pp.97-102,(2007).

7.フレミングの法則を利用した新しい精密加工技術の開発,機械と工具,第52巻,第2号, pp.57-60, (2008).

8.微細径超硬合金丸棒の精密磁気研磨,機械と工具,第52巻,第6号, pp.86-89, (2008).

9.細長いパイプ内面を精密仕上げできる振動研磨法の開発,機械と工具,第52巻,第10号,pp.76-79,(2008).

10.定圧磁気ブラシを利用した強力・高精度平面磁気研磨法とその応用,機械と工具,第53巻,第7号,pp.59-637月,(2009)

 

外部資金

 

1.科学研究費補助金(2021年度〜2024年度)、基盤研究(C) ・代表、テーマ:磁気研磨法による微細複雑形状部品の表面仕上げ技術の開発

2.財団法人大澤科学技術振興財団,研究助成金(2020年)・代表,テーマ:磁気援用加工法を複合した固定砥粒研磨技術の開発                                  

3.科学研究費補助金(2018年度〜2020年度)、基盤研究(C) ・代表、テーマ:磁気援用加工法を複合した固定砥粒研磨技術の開発

4.宇都宮大学地域共生研究開発センター産学交流振興会共同研究助成金(2010年〜2018年) 

5.財団法人先端加工機械技術振興協会研究助成金(2009年)

6.財団法人大澤科学技術振興財団,国際交流助成金(2009年)

7.財団法人大澤科学技術振興財団,研究助成金(2008年)

8.日本学術振興会特別研究員奨励費(2005年〜2006年)・代表、テーマ:電気・磁気援用超精密研磨技術の研究開発

 

   その他,企業との共同研究、多数.

 

前の画面に戻る