Structure and High-temperature Wear Behavior of Zr Modified Silicide Coatings Prepared on TC4 Alloy

Zr modified silicide coatings were prepared on TC4 alloy by Si-Zr co-deposition, the wear behavior of the coatings were investigated at 600℃, and the wear mechanisms were discussed. The results show that the obtained coating has a multi-layer structure, consisting of a（Ti, X）Si2（X represents Zr, Al...

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Veröffentlicht in:	Wu ji cai liao xue bao 2017-10, Vol.32 (10), p.1102
Hauptverfasser:	Xuan, LI, Jin, TIAN, Wei, TIAN, Wen-Ling, XIE, Xiu-Lan, LI
Format:	Artikel
Sprache:	chi ; eng
Schlagworte:	Adhesive wear Aluminum oxide Coating effects Fatigue wear High temperature Intermetallic compounds Microhardness Multilayers Oxidation Protective coatings Residual stress Silicides Silicon Substrates Titanium base alloys Wear mechanisms Zirconium
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creator	Xuan, LI Jin, TIAN Wei, TIAN Wen-Ling, XIE Xiu-Lan, LI
description	Zr modified silicide coatings were prepared on TC4 alloy by Si-Zr co-deposition, the wear behavior of the coatings were investigated at 600℃, and the wear mechanisms were discussed. The results show that the obtained coating has a multi-layer structure, consisting of a（Ti, X）Si2（X represents Zr, Al and V elements） outer layer, a Ti Si middle layer and an inner layer composed of a mixture of Ti5 Si4+Ti5 Si3. Addition of Zr in the pack mixtures can reduce the residual stress in the coating by lowering the coating growth rate, leading to a more compact coating structure. The micro-hardness of the coating is obviously higher than that of TC4 alloy, which shows a decrease tendency from the coating surface to its substrate. The high temperature wear tests reveal that the Zr modified silicide coating can offer effective protection for TC4 alloy at high temperatures. When using GCr15 ball as the counterpart, very slight wear occurred on the worn surface of the coating, and the main wear manners should be the transfers of GCr15 to the coating surface besides a certain extent of oxidation wear. Sliding against Al2 O3 ball, the main wear mechanisms of the coating are considered to be plough wear, fatigue wear, adhesive wear, and oxidation wear.
doi_str_mv	10.15541/jim20170006
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The results show that the obtained coating has a multi-layer structure, consisting of a（Ti, X）Si2（X represents Zr, Al and V elements） outer layer, a Ti Si middle layer and an inner layer composed of a mixture of Ti5 Si4+Ti5 Si3. Addition of Zr in the pack mixtures can reduce the residual stress in the coating by lowering the coating growth rate, leading to a more compact coating structure. The micro-hardness of the coating is obviously higher than that of TC4 alloy, which shows a decrease tendency from the coating surface to its substrate. The high temperature wear tests reveal that the Zr modified silicide coating can offer effective protection for TC4 alloy at high temperatures. When using GCr15 ball as the counterpart, very slight wear occurred on the worn surface of the coating, and the main wear manners should be the transfers of GCr15 to the coating surface besides a certain extent of oxidation wear. Sliding against Al2 O3 ball, the main wear mechanisms of the coating are considered to be plough wear, fatigue wear, adhesive wear, and oxidation wear.</description><identifier>ISSN: 1000-324X</identifier><identifier>DOI: 10.15541/jim20170006</identifier><language>chi ; eng</language><publisher>Beijing: Chinese Academy of Sciences</publisher><subject>Adhesive wear ; Aluminum oxide ; Coating effects ; Fatigue wear ; High temperature ; Intermetallic compounds ; Microhardness ; Multilayers ; Oxidation ; Protective coatings ; Residual stress ; Silicides ; Silicon ; Substrates ; Titanium base alloys ; Wear mechanisms ; Zirconium</subject><ispartof>Wu ji cai liao xue bao, 2017-10, Vol.32 (10), p.1102</ispartof><rights>Copyright Chinese Academy of Sciences 2017</rights><lds50>peer_reviewed</lds50><oa>free_for_read</oa><woscitedreferencessubscribed>false</woscitedreferencessubscribed></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><link.rule.ids>314,780,784,27922,27923</link.rule.ids></links><search><creatorcontrib>Xuan, LI</creatorcontrib><creatorcontrib>Jin, TIAN</creatorcontrib><creatorcontrib>Wei, TIAN</creatorcontrib><creatorcontrib>Wen-Ling, XIE</creatorcontrib><creatorcontrib>Xiu-Lan, LI</creatorcontrib><title>Structure and High-temperature Wear Behavior of Zr Modified Silicide Coatings Prepared on TC4 Alloy</title><title>Wu ji cai liao xue bao</title><description>Zr modified silicide coatings were prepared on TC4 alloy by Si-Zr co-deposition, the wear behavior of the coatings were investigated at 600℃, and the wear mechanisms were discussed. 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The results show that the obtained coating has a multi-layer structure, consisting of a（Ti, X）Si2（X represents Zr, Al and V elements） outer layer, a Ti Si middle layer and an inner layer composed of a mixture of Ti5 Si4+Ti5 Si3. Addition of Zr in the pack mixtures can reduce the residual stress in the coating by lowering the coating growth rate, leading to a more compact coating structure. The micro-hardness of the coating is obviously higher than that of TC4 alloy, which shows a decrease tendency from the coating surface to its substrate. The high temperature wear tests reveal that the Zr modified silicide coating can offer effective protection for TC4 alloy at high temperatures. When using GCr15 ball as the counterpart, very slight wear occurred on the worn surface of the coating, and the main wear manners should be the transfers of GCr15 to the coating surface besides a certain extent of oxidation wear. Sliding against Al2 O3 ball, the main wear mechanisms of the coating are considered to be plough wear, fatigue wear, adhesive wear, and oxidation wear.</abstract><cop>Beijing</cop><pub>Chinese Academy of Sciences</pub><doi>10.15541/jim20170006</doi><oa>free_for_read</oa></addata></record>
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subjects	Adhesive wear Aluminum oxide Coating effects Fatigue wear High temperature Intermetallic compounds Microhardness Multilayers Oxidation Protective coatings Residual stress Silicides Silicon Substrates Titanium base alloys Wear mechanisms Zirconium
title	Structure and High-temperature Wear Behavior of Zr Modified Silicide Coatings Prepared on TC4 Alloy
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