Development of slight amount lubricant supply control method by electric field controlled technology for high accuracy and low negative environmental impact processing achievement

开发利用电场控制技术的微量润滑剂供应控制方法，以实现高精度和低负面环境影响的加工成果

• 批准号: 18560124
• 负责人: AKAGAMI Yoichi
• 金额: $ 2.57万
• 依托单位: Akita Research and Development Center
• 依托单位国家: 日本
• 项目类别: Grant-in-Aid for Scientific Research (C)
• 财政年份: 2006
• 资助国家: 日本
• 起止时间: 2006 至 2007
• 项目状态: 已结题
• 来源: https://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-18560124/
• 关键词: abrasives; functional fluid; AC electric field; Diamond; silicone oil; channel of micro; クーロンカ; 潤滑油; 電界砥粒制御技術

A new high precision processing technology that uses the electric field controlled technology is developed. It proposes the silicone oil that is the non-conductivity fluid and it proposes a new processing technology by using the phenomenon being able-to control arrangement under the electric field when a particle decentralized fluid that distributes solvent is adjusted, and the exchange electric field is given so far. In this research and development, it is controlled that the surface is rough after it pays attention to the permittivity that the lubricant (insulation oil) used possesses, the low frequency exchange electric field is given to the lubricant, and the work material is processed to the tip of the blade of the tool by arranging controlling the lubricant maintained abrasives on the top of tool edge, and, controls the dispersion according to Coulomb's force that obtains it. The basic finding of the new processing method that finished.Results :(1) Development of basic processing device: Completion(2)The processing experiment was executed with the obtained experimental apparatus, therefore the creation of the micro passage was able to be confirmed.(3)Abrasive gathered in the tool point and the appearance that had acted was able to be confirmed.(4)It is possible to process it promptly. (5mm/10sec)

提出了一种利用电场控制技术的高精度加工新技术。它提出了硅油，这是非导电性流体，它提出了一种新的处理技术，通过使用的现象，能够控制的安排下的电场时，分散溶剂的颗粒分散流体进行调整，并交换电场迄今为止。在本研究开发中，在注意润滑剂的介电常数后，控制了表面粗糙度所使用的（绝缘油）具有，对润滑剂施加低频交换电场，通过在工具刃口的顶部配置控制润滑剂保持磨料，将被加工材料加工到工具的刀刃的尖端，并且，结果：（1）基本加工装置的开发：完成（2）使用所获得的实验装置进行加工实验，确认了微通道的形成。（3）磨料聚集在刀尖上，并且能够确认已经起作用的外观。(4)It可以迅速处理。(5mm/10秒）

项目成果

電界制御技術を用いた環境配慮型マイクロ切削加工技術の開発I

利用电场控制技术开发环保型微切削技术Ⅰ

• 发表时间: 2006
• 期刊: 日本機械学会 第6回生産加工・工作機械部門講演会講演論文集
• 作者: M. TAKIGUCHI;T. YOSHIDA;M. FUNAKI;F. YOSHIDA;赤上陽一
• 通讯作者: 赤上陽一

電界スラリー制御研磨技術に関する基礎研究

电场浆液控制抛光技术基础研究

• 发表时间: 2007
• 作者: Kenjiro;T.;Miura;Makoto;Fujisawa;赤上 陽一
• 通讯作者: 赤上 陽一

Improvement of a life of small ball-end mills using new ER pohshing

使用新型 ER 抛光技术提高小型球头铣刀的使用寿命

• 发表时间: 2007
• 期刊: 11th International Conference on Metrology&Properities of Engineering Surface 1
• 作者: Y. Akagami;N. Umehara
• 通讯作者: N. Umehara

新しい道を拓く電界砥粒研磨技術

开辟新路径的电场磨料抛光技术

• 发表时间: 2007
• 作者: Yanada;H.;Tran;K;D.;Kojima;Y;赤上陽一
• 通讯作者: 赤上陽一

Improvement of a life of small ball-end mills using new ER polishing

使用新型 ER 抛光技术提高小型球头铣刀的使用寿命

• 发表时间: 2007
• 期刊: 11th International Conference on Metrology&Properities of Engineering Surface 1
• 作者: Mariko;Yagi;Kenjiro;T.;Miura;Y.Akagami,N.Umehara
• 通讯作者: Y.Akagami,N.Umehara