Cr13Ni5Si2-Based Composite Coating on Copper Deposited Using Pulse Laser Induction Cladding

Cr13Ni5Si2-Based Composite Coating on Copper Deposited Using Pulse Laser Induction Cladding

A Cr13Ni5Si2-based composite coating was successfully deposited on copper by pulse laser induction hybrid cladding (PLIC), and its high-temperature wear behavior was investigated. Temperature evolutions associated with crack behaviors in PLIC were analyzed and compared with pulse laser cladding (PLC...

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Main Authors: Ke Wang, Hailin Wang, Guangzhi Zhu, Xiao Zhu
Format: Article
Language:English
Published: MDPI AG 2017-02-01
Series:Materials
Subjects:
pulse laser induction cladding
copper
metal silicide
experimental and numerical study
high-temperature wear resistance
Online Access:http://www.mdpi.com/1996-1944/10/2/160
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spelling doaj-44493aaf96e74777948096e94f07e1f52020-11-25T01:36:45ZengMDPI AGMaterials1996-19442017-02-0110216010.3390/ma10020160ma10020160Cr13Ni5Si2-Based Composite Coating on Copper Deposited Using Pulse Laser Induction CladdingKe Wang0Hailin Wang1Guangzhi Zhu2Xiao Zhu3National Engineering Research Center of Laser Processing, School of Optical and Electronic Information, Huazhong University of Science and Technology, Wuhan 430074, ChinaNational Engineering Research Center of Laser Processing, School of Optical and Electronic Information, Huazhong University of Science and Technology, Wuhan 430074, ChinaNational Engineering Research Center of Laser Processing, School of Optical and Electronic Information, Huazhong University of Science and Technology, Wuhan 430074, ChinaNational Engineering Research Center of Laser Processing, School of Optical and Electronic Information, Huazhong University of Science and Technology, Wuhan 430074, ChinaA Cr13Ni5Si2-based composite coating was successfully deposited on copper by pulse laser induction hybrid cladding (PLIC), and its high-temperature wear behavior was investigated. Temperature evolutions associated with crack behaviors in PLIC were analyzed and compared with pulse laser cladding (PLC) using the finite element method. The microstructure and present phases were analyzed using scanning electron microscopy and X-ray diffraction. Compared with continuous laser induction cladding, the higher peak power offered by PLIC ensures metallurgical bonding between highly reflective copper substrate and coating. Compared with a wear test at room temperature, at 500 °C the wear volume of the Cr13Ni5Si2-based composite coating increased by 21%, and increased by 225% for a NiCr/Cr3C2 coating deposited by plasma spray. This novel technology has good prospects for application with respect to the extended service life of copper mold plates for slab continuous casting.http://www.mdpi.com/1996-1944/10/2/160pulse laser induction claddingcoppermetal silicideexperimental and numerical studyhigh-temperature wear resistance
collection DOAJ
language English
format Article
sources DOAJ
author Ke Wang
Hailin Wang
Guangzhi Zhu
Xiao Zhu
spellingShingle Ke Wang
Hailin Wang
Guangzhi Zhu
Xiao Zhu
Cr13Ni5Si2-Based Composite Coating on Copper Deposited Using Pulse Laser Induction Cladding
Materials
pulse laser induction cladding
copper
metal silicide
experimental and numerical study
high-temperature wear resistance
author_facet Ke Wang
Hailin Wang
Guangzhi Zhu
Xiao Zhu
author_sort Ke Wang
title Cr13Ni5Si2-Based Composite Coating on Copper Deposited Using Pulse Laser Induction Cladding
title_short Cr13Ni5Si2-Based Composite Coating on Copper Deposited Using Pulse Laser Induction Cladding
title_full Cr13Ni5Si2-Based Composite Coating on Copper Deposited Using Pulse Laser Induction Cladding
title_fullStr Cr13Ni5Si2-Based Composite Coating on Copper Deposited Using Pulse Laser Induction Cladding
title_full_unstemmed Cr13Ni5Si2-Based Composite Coating on Copper Deposited Using Pulse Laser Induction Cladding
title_sort cr13ni5si2-based composite coating on copper deposited using pulse laser induction cladding
publisher MDPI AG
series Materials
issn 1996-1944
publishDate 2017-02-01
description A Cr13Ni5Si2-based composite coating was successfully deposited on copper by pulse laser induction hybrid cladding (PLIC), and its high-temperature wear behavior was investigated. Temperature evolutions associated with crack behaviors in PLIC were analyzed and compared with pulse laser cladding (PLC) using the finite element method. The microstructure and present phases were analyzed using scanning electron microscopy and X-ray diffraction. Compared with continuous laser induction cladding, the higher peak power offered by PLIC ensures metallurgical bonding between highly reflective copper substrate and coating. Compared with a wear test at room temperature, at 500 °C the wear volume of the Cr13Ni5Si2-based composite coating increased by 21%, and increased by 225% for a NiCr/Cr3C2 coating deposited by plasma spray. This novel technology has good prospects for application with respect to the extended service life of copper mold plates for slab continuous casting.
topic pulse laser induction cladding
copper
metal silicide
experimental and numerical study
high-temperature wear resistance
url http://www.mdpi.com/1996-1944/10/2/160
work_keys_str_mv AT kewang cr13ni5si2basedcompositecoatingoncopperdepositedusingpulselaserinductioncladding
AT hailinwang cr13ni5si2basedcompositecoatingoncopperdepositedusingpulselaserinductioncladding
AT guangzhizhu cr13ni5si2basedcompositecoatingoncopperdepositedusingpulselaserinductioncladding
AT xiaozhu cr13ni5si2basedcompositecoatingoncopperdepositedusingpulselaserinductioncladding
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