Paper Abstract and Keywords |
Presentation |
2015-06-19 15:55
By means of a statistical method an analysis of degradation phenomenon of electrical contacts using micro-sliding mechanisms
-- A statistical analysis using data of minimal sliding amplitudes under some conditions -- Keiji Koshida, Shin-ichi Wada, Hiroaki Kubota (TMC), Koichiro Sawa (NIT) EMD2015-17 CPM2015-27 OME2015-30 Link to ES Tech. Rep. Archives: EMD2015-17 CPM2015-27 OME2015-30 |
Abstract |
(in Japanese) |
(See Japanese page) |
(in English) |
Authors have designed and developed a mechanism to be capable of micro-sliding electrical contact directly by using a giant magnetostriction actuator and parallel leaf springs (MSM1).They also have designed and developed an improved micro-sliding mechanism (MSM2) using a piezoelectric actuator and elastic hinges.And they have proposed a minimal sliding amplitude as one of the indicators that can analyze the electrical contacts in the the degradation processes.In this paper, the minimal sliding amplitude is a minimal property to increase contact voltages and to cause degradation phenomenon when sliding experiments are carried out for about a day under some conditions.They describe particularly the details of statistical methods for the analysis of the experimental results of minimal sliding amplitude data.They apply an analysis of variance, a point estimation, and an interval estimation for a population mean.They consider that the methods give objectivity to the experimental results. |
Keyword |
(in Japanese) |
(See Japanese page) |
(in English) |
electrical contact / contact resistance / micro-sliding mechanism / statistics analysis / analysis of variance / point estimation / interval estimation / |
Reference Info. |
IEICE Tech. Rep., vol. 115, no. 103, EMD2015-17, pp. 35-40, June 2015. |
Paper # |
EMD2015-17 |
Date of Issue |
2015-06-12 (EMD, CPM, OME) |
ISSN |
Print edition: ISSN 0913-5685 Online edition: ISSN 2432-6380 |
Copyright and reproduction |
All rights are reserved and no part of this publication may be reproduced or transmitted in any form or by any means, electronic or mechanical, including photocopy, recording, or any information storage and retrieval system, without permission in writing from the publisher. Notwithstanding, instructors are permitted to photocopy isolated articles for noncommercial classroom use without fee. (License No.: 10GA0019/12GB0052/13GB0056/17GB0034/18GB0034) |
Download PDF |
EMD2015-17 CPM2015-27 OME2015-30 Link to ES Tech. Rep. Archives: EMD2015-17 CPM2015-27 OME2015-30 |
Conference Information |
Committee |
EMD CPM OME |
Conference Date |
2015-06-19 - 2015-06-19 |
Place (in Japanese) |
(See Japanese page) |
Place (in English) |
Kikai-Shinko-Kaikan Bldg. |
Topics (in Japanese) |
(See Japanese page) |
Topics (in English) |
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Paper Information |
Registration To |
EMD |
Conference Code |
2015-06-EMD-CPM-OME |
Language |
Japanese |
Title (in Japanese) |
(See Japanese page) |
Sub Title (in Japanese) |
(See Japanese page) |
Title (in English) |
By means of a statistical method an analysis of degradation phenomenon of electrical contacts using micro-sliding mechanisms |
Sub Title (in English) |
A statistical analysis using data of minimal sliding amplitudes under some conditions |
Keyword(1) |
electrical contact |
Keyword(2) |
contact resistance |
Keyword(3) |
micro-sliding mechanism |
Keyword(4) |
statistics analysis |
Keyword(5) |
analysis of variance |
Keyword(6) |
point estimation |
Keyword(7) |
interval estimation |
Keyword(8) |
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1st Author's Name |
Keiji Koshida |
1st Author's Affiliation |
TMC System Co. Ltd. (TMC) |
2nd Author's Name |
Shin-ichi Wada |
2nd Author's Affiliation |
TMC System Co. Ltd. (TMC) |
3rd Author's Name |
Hiroaki Kubota |
3rd Author's Affiliation |
TMC System Co. Ltd. (TMC) |
4th Author's Name |
Koichiro Sawa |
4th Author's Affiliation |
Nippon Institute of Technology (NIT) |
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Speaker |
Author-1 |
Date Time |
2015-06-19 15:55:00 |
Presentation Time |
25 minutes |
Registration for |
EMD |
Paper # |
EMD2015-17, CPM2015-27, OME2015-30 |
Volume (vol) |
vol.115 |
Number (no) |
no.103(EMD), no.104(CPM), no.105(OME) |
Page |
pp.35-40 |
#Pages |
6 |
Date of Issue |
2015-06-12 (EMD, CPM, OME) |
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