Committee |
Date Time |
Place |
Paper Title / Authors |
Abstract |
Paper # |
EMD |
2021-03-08 16:35 |
Online |
Online |
Effect of Contact Oil on Contact Resistance and Friction Hiroki Ikezaki, Yusuke Aoki, Kazuo Iida (Mie Univ) EMD2020-38 |
Currently, it is necessary to decrease the insertion force to the automobile connector. Contact oil is one of the means ... [more] |
EMD2020-38 pp.44-49 |
EMD |
2020-03-06 13:05 |
Chiba |
CHIBA Institute of Technology Tsudanuma Campus (Cancelled but technical report was issued) |
Effect of solid lubricant on electric sliding contact mechanism Syou Ogata, Yuki Kawasima, Tatsuro Iizuka, Yoshitada Watanabe, Koichro Sawa, Takahiro Ueno (NIT) EMD2019-59 |
The electric sliding contact mechanism is a mechanism for energizing while sliding an object such as a pantograph of an ... [more] |
EMD2019-59 pp.1-4 |
EMD |
2020-01-17 14:30 |
Kanagawa |
Rental hall Shonan Hiratsuka |
Sliding characteristics of copper contacts by Molybdenum disulfide shot testment Tatsuro Iizuka, Yuki Kawashima, Syo Ogata, Yoshitada Watanabe, Takahiro Ueno, Koichiro Sawa (NIT) EMD2019-49 |
The electric sliding contact mechanism is a mechanism for energizing a moving object from a stationary object.
It is us... [more] |
EMD2019-49 pp.7-10 |
EMD |
2018-03-02 16:20 |
Saitama |
Nippon Institute of Technology |
Characteristics of molybdenum disulfide under Low speed sliding Contacts Shunya Aragaki, Tomoharu Otsuka, Yoshitada Watanabe, Koichiro Sawa, Takahiro Ueno (NIT) EMD2017-68 |
Electric sliding contacts are a major research subject relating to small power electric motors, electric railways and ar... [more] |
EMD2017-68 pp.49-52 |
EMD, R |
2017-02-17 14:00 |
Shiga |
Omuron Kusatsu Factory |
Effect of Hardness on Wear and Abrasion Resistance of Silver Plating on Copper Alloy Shigeru Sawada (SEI), Song-zhu Kure-chu, Rie Nakagawa, Toru Ogasawara, Hitoshi Yashiro (Iwate Uni.), Yasushi Saitoh (AN-Tech) R2016-63 EMD2016-90 |
This study is aimed at clarifying the mechanism of wear process for Ag plating with different hardness. The samples of A... [more] |
R2016-63 EMD2016-90 pp.19-24 |
EMD |
2016-11-03 13:30 |
Hyogo |
Awaji Yumebutai International Conference Center |
Molybdenum Disulfide Lubricant for Copper-copper Electrical Sliding Contacts Tomoharu Ootsuka, Yoshitada Watanabe, Koichiro Sawa, Takahiro Ueno (NIT) EMD2016-51 |
Sliding contacts are an important mechanical feature of various types of equipment including motors, electric trains, an... [more] |
EMD2016-51 pp.5-9 |
EMD |
2016-11-03 16:15 |
Hyogo |
Awaji Yumebutai International Conference Center |
Effect of hardness on wear and abrasion resistance of Silver plating on copper alloy Shigeru Sawada (AN-Tech), Song-zhu Kure-chu, Rie Nakagawa, Toru Ogasawara, Hitoshi Yashiro (Iwate Uni.), Yasushi Saitoh (AN-Tech) EMD2016-57 |
This study is aimed at clarifying the mechanism of wear process for Ag plating. The samples of different hardness Ag pla... [more] |
EMD2016-57 pp.41-46 |
EMD |
2014-10-17 14:25 |
Tokyo |
|
Research of available sliding contact material to the atmosphere from the vacuum Takuya Furukawa, Yoshitada Watanabe, Takahiro Ueno (Nippon Inst. of Tech.) EMD2014-61 |
Abstract Recently, composite materials that combines properties of both lubricity and conductivity began to be made larg... [more] |
EMD2014-61 pp.7-11 |
EMD |
2013-10-18 15:20 |
Kanagawa |
NTT Atsugi Research and Development Center |
Electrical properties in the high-speed sliding of WS2/W composite materials Yoshitada Watanabe, Masaomi Arai (Kogakuin Univ.) EMD2013-73 |
ecently, excellent mechanical strength, the demand for sliding material superior in electrical characteristics is furthe... [more] |
EMD2013-73 pp.17-21 |
EMD |
2013-03-01 13:30 |
Saitama |
Nippon Institute of Technology |
A study of current dependency and load dependency of the WS2/W based composite material in low speed sliding contacts Takashi Suenaga, Yuya Fukuda, Masaomi Arai, Yoshitada Watanabe (Kogakuin Univ.) EMD2012-111 |
Sliding contact parts is an important factory for conductivity and lubricity and abrasion resistance of sliding surface.... [more] |
EMD2012-111 pp.9-12 |
EMD |
2013-03-01 13:45 |
Saitama |
Nippon Institute of Technology |
A study of the load and rotation speed dependency high-speed when using WS2/W based composite materials Toru Shiono, Yuki Shino, Masaomi Arai, Yoshitada Watanabe (Kogakuin Univ.) EMD2012-112 |
Contact composite material containing a solid lubricant for sliding electrical contacts are many reports have been made ... [more] |
EMD2012-112 pp.13-16 |
EMD |
2012-03-02 12:45 |
Tokyo |
Tanagawa Univ. |
Low speed sliding tests of WS2-W based composite materials Containing solid lubricants by contact load characteristics Naoki Kishida, Hiroko Nakayama, Masaomi Arai, Yoshitada Watanabe (Kogakuin Univ.) EMD2011-127 |
Experiments were performed using sinterd metals was allowed to alloy the metal and low resistivity material with superio... [more] |
EMD2011-127 pp.5-8 |
EMD |
2012-03-02 13:00 |
Tokyo |
Tanagawa Univ. |
High speed and current sliding tests of WS2-W-based composite materials for sliding contacts Meari Hirakawa, Ryosuke Monma, Masaomi Arai, Yoshitada Watanabe (Kogakuin Univ.) EMD2011-128 |
Contact composite material containing a solid lubricant for sliding electrical contacts are many reports have been made ... [more] |
EMD2011-128 pp.9-12 |
EMD |
2011-10-21 15:25 |
Tokyo |
Tachikawa-Shiminn-kaikan |
Characteristics of WS2-C and WS2-W based composite materials of low speed sliding contacts Yoshitada Watanabe, Masaomi Arai (Kogakuin Univ.) EMD2011-63 |
WS2-Graphite Composite materials (KCL) and WS2-W Composite materials (KFC) were tested for each of the three different c... [more] |
EMD2011-63 pp.33-38 |
EMD |
2011-10-21 15:50 |
Tokyo |
Tachikawa-Shiminn-kaikan |
Effect of WC powder addition on various properties of graphite/Ni-base self-lubricating composites Jun-ichi Yuki, Yoshihiro Ogawa, Mamoru Shinomiya, Kozo Kitamura, Osamu Terada, Koji Hayashi (Fuji Die Co., Ltd.) EMD2011-64 |
Our company produces and distributes graphite/Ni-base self-lubricating composites as a solid-lubricated bearing material... [more] |
EMD2011-64 pp.39-44 |
EMD |
2011-03-04 12:15 |
Saitama |
Nippon Institute of Technology |
A study of transfer concerning W based composite materials containing WS2 for low speed sliding test Masaomi Arai, Yoshitada Watanabe, Kota Kawana (Kogakuin Univ.) EMD2010-152 |
Low sliding tests were performed on three kinds of W-based composite materials containing WS2 for electric sliding conta... [more] |
EMD2010-152 pp.1-4 |
EMD |
2011-03-04 12:30 |
Saitama |
Nippon Institute of Technology |
A comparative study of sliding characteristics of Cu-Ni based composite materials and W based composite materials Ryohei Saito, Yoshitada Watanabe, Kohei Maruyama (Kogakuin Univ.) EMD2010-153 |
Sliding characteristics for electrical sliding contact of Cu-Ni based composite materials containing WS2, C of 40,50,60[... [more] |
EMD2010-153 pp.5-8 |
EMD, R |
2011-02-18 13:05 |
Shizuoka |
Shizuoka Univ. (Hamamatsu) |
Peculiar Phenomena for Increase in Friction Coefficient due to Application of Lubrication Terutaka Tamai, Shigeru Sawada (Mie Univ.), Yasuhiro Hattori (AN Lab.) R2010-42 EMD2010-143 |
For tin plated connector contacts, it was found that friction coefficient at lubricated contacts was higher than the fri... [more] |
R2010-42 EMD2010-143 pp.1-6 |
EMD |
2010-11-12 11:15 |
Overseas |
Xi'an Jiaotong University |
Sliding scar analyses of high speed sliding contact characteristics of Cu-Sn based composite materials containing WS2 Yoshitada Watanabe, Ryohei Saito (Kogakuin Univ.) EMD2010-107 |
Three types of composite materials containing lamella solid lubricants, such as WS2,C, etc. in the ratio of 40, 50, and ... [more] |
EMD2010-107 pp.167-170 |
EMD, OPE, LQE, CPM |
2010-08-26 09:45 |
Hokkaido |
Chitose Arcadia Plaza |
High speed and current sliding characteristics of Cu-Sn based composite materials containing WS2 Yoshitada Watanabe, Ryohei Saito (Kogakuin Univ.) EMD2010-27 CPM2010-43 OPE2010-52 LQE2010-25 |
Abstract New composite materials expected for sliding electrical contact materials are evaluated contact resistance and... [more] |
EMD2010-27 CPM2010-43 OPE2010-52 LQE2010-25 pp.7-12 |