AC-HVAF制备Cr3C2-25CoNiCrAlY和Cr3C2-25NiCr涂层的高温氧化及摩擦磨损行为

周小龙; 曾德长; 王刚; 张友生

引用本文:	周小龙,曾德长,王刚,张友生.AC-HVAF制备Cr₃C₂-25CoNiCrAlY和Cr₃C₂-25NiCr涂层的高温氧化及摩擦磨损行为[J].中国表面工程,2017,30(5):102~109
	ZHOU Xiao-long,ZENG De-chang,WANG Gang,ZHANG You-sheng.High Temperature Oxidation and Tribological Behavior of Cr₃C₂-25CoNiCrAlY and Cr₃C₂-25NiCr Coatings Prepared by AC-HVAF[J].China Surface Engineering,2017,30(5):102~109

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AC-HVAF制备Cr₃C₂-25CoNiCrAlY和Cr₃C₂-25NiCr涂层的高温氧化及摩擦磨损行为
周小龙¹, 曾德长¹, 王刚^1,2, 张友生²
1.华南理工大学材料科学与工程学院, 广州 510640;2.广东正德材料表面科技有限公司, 广东中山 528437

摘要:

为提高热作模具的高温氧化和高温耐磨性能，采用活性燃烧高速燃气喷涂（AC-HVAF）技术于H13钢基体上分别制备了Cr₃C₂-25CoNiCrAlY和Cr₃C₂-25NiCr涂层，并对比研究两种涂层的高温氧化和摩擦磨损行为，利用SEM、EDS和XRD分析其组织形貌与结构。结果表明：在800 ℃循环氧化100 h后， Cr₃C₂-25CoNiCrAlY涂层比Cr₃C₂-25NiCr涂层表面生成的氧化保护膜更致密，并生成大量高温稳定性好的尖晶石相，前者的氧化增重（0.80 mg/cm²）略小于后者（0.87 mg/cm²），说明Cr₃C₂-25CoNiCrAlY涂层的抗高温氧化能力略优；在700 ℃下，Cr₃C₂-25CoNiCrAlY涂层也具有更低的摩擦因数和磨损率，这归因于γ-matrix相（Co-Ni-Cr固溶体）具有很好的高温强度和热疲劳性能，对碳化物硬质相起到更强的联结支撑作用，提高了涂层的抗剥落能力。

关键词: 活性燃烧高速燃气喷涂 Cr₃C₂-25CoNiCrAlY涂层 Cr₃C₂-25NiCr涂层高温氧化摩擦磨损

DOI：10.11933/j.issn.1007-9289.20170214001

分类号:

基金项目:广东省中山市科技计划项目（2015F1FC00036）

High Temperature Oxidation and Tribological Behavior of Cr₃C₂-25CoNiCrAlY and Cr₃C₂-25NiCr Coatings Prepared by AC-HVAF

ZHOU Xiao-long¹, ZENG De-chang¹, WANG Gang^1,2, ZHANG You-sheng²

1.School of Materials Science and Engineering, South China University of Technology, Guangzhou 510640;2.Gent Materials Surface Technology(Guangdong) Co., Ltd., Zhongshan 528437, Guangdong

Abstract:

To improve the high temperature oxidation and wear resistance of hot working dies, Cr₃C₂-25CoNiCrAlY and Cr₃C₂-25NiCr coatings were prepared by activated combustion high velocity air fuel (AC-HVAF) spraying on H13 steel, respectively. The high temperature oxidation and wear resistance performances of the coatings were contrastively studied. The microstructure and phase structure were investigated by SEM, EDS and XRD. The results show that the Cr₃C₂-25CoNiCrAlY coating provides superior high temperature oxidation resistance compared with the Cr₃C₂-25NiCr coating. The oxidation weight gain of Cr₃C₂-25CoNiCrAlY coating (0.80 mg/cm²) is less than that of the Cr₃C₂-25NiCr coating (0.87 mg/cm²) after cyclic oxidation at 800℃ for 100 h, which is attributed to the formation of the denser oxidation layer and spinel phase with excellent high temperature stability on surface of the Cr₃C₂-25CoNiCrAlY coating. The Cr₃C₂-25CoNiCrAlY coating has lower friction coefficient and wear rate than that of the Cr₃C₂-25NiCr coating at 700℃ due to the γ-matrix phase (Co-Ni-Cr solid solution) in the Cr₃C₂-25CoNiCrAlY coating having great high temperature strength and thermal fatigue properties, which is better supportive for carbide hard phase and enhances the spalling resistance of the coating.

Key words: AC-HVAF Cr₃C₂-25CoNiCrAlY coating Cr₃C₂-25NiCr coating high temperature oxidation friction and wear