TY - GEN
T1 - On-line sensing, measuring process in ultra-fine machining with micro-tools
AU - Ohmori, Hitoshi
AU - Naruse, Tetsuya
AU - Uehara, Yoshihiro
AU - Kameyama, Yutaka
AU - Ando, Kazu
AU - Mizutani, Masayoshi
AU - Katahira, Kazutoshi
AU - Sasaki, Chikako
PY - 2008
Y1 - 2008
N2 - In recent years, more and more ultra-fine machining necessities are increasing for micro-parts and micro-components fabrication. Although down-sizing of tools are tried for micro-machining, it is not easy to realize smart fabrication because sensing and measurement of micro-machining is difficult. The authors are conducting a research and development on sensing, measurement and analysis of micro-machiring phenomenon for establishment of optimization of machining conditions and automation of high-level machining processes. Under this background, we devised on-line sensing, measuring, and analyzing system for micro-machiring with micro-tools. This system can cope with from fabrication of micro-tools to micro-machining of micro-structures on the all-in-one machine under on-line sensing, measuring functions. Through the application of this system, we investigated the sensing of contact point chip-formation and monitoring in micro-machining, together with fabrication and analysis of micro-tools of even several nierons diameter. In this paper, we introduce the developed system and describe the micro-tools fabrication and micro-machining under on-line sensing and measurement.
AB - In recent years, more and more ultra-fine machining necessities are increasing for micro-parts and micro-components fabrication. Although down-sizing of tools are tried for micro-machining, it is not easy to realize smart fabrication because sensing and measurement of micro-machining is difficult. The authors are conducting a research and development on sensing, measurement and analysis of micro-machiring phenomenon for establishment of optimization of machining conditions and automation of high-level machining processes. Under this background, we devised on-line sensing, measuring, and analyzing system for micro-machiring with micro-tools. This system can cope with from fabrication of micro-tools to micro-machining of micro-structures on the all-in-one machine under on-line sensing, measuring functions. Through the application of this system, we investigated the sensing of contact point chip-formation and monitoring in micro-machining, together with fabrication and analysis of micro-tools of even several nierons diameter. In this paper, we introduce the developed system and describe the micro-tools fabrication and micro-machining under on-line sensing and measurement.
KW - Desktop system
KW - ELID grinding
KW - Micro-tool
KW - Miro-machining
KW - On-line measurement
UR - http://www.scopus.com/inward/record.url?scp=50249123381&partnerID=8YFLogxK
UR - http://www.scopus.com/inward/citedby.url?scp=50249123381&partnerID=8YFLogxK
U2 - 10.1109/ICSMA.2008.4505601
DO - 10.1109/ICSMA.2008.4505601
M3 - Conference contribution
AN - SCOPUS:50249123381
SN - 899500388X
SN - 9788995003886
T3 - ICSMA 2008 - International Conference on Smart Manufacturing Application
SP - 1
EP - 4
BT - ICSMA 2008 - International Conference on Smart Manufacturing Application
T2 - International Conference on Smart Manufacturing Application, ICSMA 2008
Y2 - 9 April 2008 through 11 April 2008
ER -