Tribological Properties of the High Carbon Chromium Alloy Steel after Induction Hardening
碩士 === 崑山科技大學 === 機械工程研究所 === 105 === The effects of heavy loads on the drive elements under extreme contact pressures must be carefully considered. Due to the great contact stress between the steel ball and the track, likely to cause significant deformation, serious wear and fatigue damage and othe...
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ndltd-TW-105KSUT04890112017-07-14T04:27:45Z http://ndltd.ncl.edu.tw/handle/43547055553692160149 Tribological Properties of the High Carbon Chromium Alloy Steel after Induction Hardening 感應硬化之高碳鉻合金鋼的磨潤性質 WANG, HSIANG-YU 王祥宇 碩士 崑山科技大學 機械工程研究所 105 The effects of heavy loads on the drive elements under extreme contact pressures must be carefully considered. Due to the great contact stress between the steel ball and the track, likely to cause significant deformation, serious wear and fatigue damage and other issues. Therefore, it is very important to establish the key technology of well tribological properties for the drive elements under extreme contact pressures in the future. Based on the above statements, this paper is focused on the effects of induction hardening on friction and wear of the original materials by improving the reciprocating friction tester. Moreover, the results are compared with the current production of long-term carburizing low-carbon alloy steel. Therefore, the standards of heat treatments and source materials will be established for the related industries. CHANG, YUH-PING CHOU, HUANN-MING 張育斌 周煥銘 2017 學位論文 ; thesis 188 zh-TW |
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碩士 === 崑山科技大學 === 機械工程研究所 === 105 === The effects of heavy loads on the drive elements under extreme contact pressures must be carefully considered. Due to the great contact stress between the steel ball and the track, likely to cause significant deformation, serious wear and fatigue damage and other issues. Therefore, it is very important to establish the key technology of well tribological properties for the drive elements under extreme contact pressures in the future. Based on the above statements, this paper is focused on the effects of induction hardening on friction and wear of the original materials by improving the reciprocating friction tester. Moreover, the results are compared with the current production of long-term carburizing low-carbon alloy steel. Therefore, the standards of heat treatments and source materials will be established for the related industries.
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author2 |
CHANG, YUH-PING |
author_facet |
CHANG, YUH-PING WANG, HSIANG-YU 王祥宇 |
author |
WANG, HSIANG-YU 王祥宇 |
spellingShingle |
WANG, HSIANG-YU 王祥宇 Tribological Properties of the High Carbon Chromium Alloy Steel after Induction Hardening |
author_sort |
WANG, HSIANG-YU |
title |
Tribological Properties of the High Carbon Chromium Alloy Steel after Induction Hardening |
title_short |
Tribological Properties of the High Carbon Chromium Alloy Steel after Induction Hardening |
title_full |
Tribological Properties of the High Carbon Chromium Alloy Steel after Induction Hardening |
title_fullStr |
Tribological Properties of the High Carbon Chromium Alloy Steel after Induction Hardening |
title_full_unstemmed |
Tribological Properties of the High Carbon Chromium Alloy Steel after Induction Hardening |
title_sort |
tribological properties of the high carbon chromium alloy steel after induction hardening |
publishDate |
2017 |
url |
http://ndltd.ncl.edu.tw/handle/43547055553692160149 |
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