Laser Cladding Of Sic Reinforced Zr_(65)al_(7.5)ni_(10)cu_(17.5) Amorphous Coating On Magnesium Substrate

T.M. Yue; Y.P. Su

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Laser Cladding Of Sic Reinforced Zr_(65)al_(7.5)ni_(10)cu_(17.5) Amorphous Coating On Magnesium Substrate

机译：镁基体上Sic增强Zr_（65）al_（7.5）ni_（10）cu_（17.5）非晶涂层的激光熔覆

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摘要

Zr_(65)Al_(7.5)Ni_(10)Cu_(17.5) amorphous coatings reinforced with SiC particles were fabricated on magnesium substrates using laser cladding with the aim of improving the inherently poor corrosion and wear properties of magnesium. The formation of a reaction layer containing ZrC between SiC particles and the matrix of the glassy phase did not show any significant effects on the thermal stability of the matrix. The wear resistance of the composite coating, measured in terms of volumetric loss, was 2-7 times, and 90 times higher than that of the unreinforced coating and the magnesium substrate respectively. Although the electrochemical stability of the composite coating was inferior to that of the unreinforced coating, it still displayed excellent corrosion resistance.

机译：利用激光熔覆在镁基体上制备了由SiC颗粒增强的Zr_（65）Al_（7.5）Ni_（10）Cu_（17.5）非晶态涂层，目的是改善镁固有的不良腐蚀和磨损性能。在SiC颗粒和玻璃态基体之间形成包含ZrC的反应层对基体的热稳定性没有显示任何显着影响。以体积损失衡量，复合涂层的耐磨性分别是未增强涂层和镁基材的耐磨性的2-7倍和90倍。尽管复合涂层的电化学稳定性低于未增强涂层的电化学稳定性，但仍显示出优异的耐腐蚀性。

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来源
《Applied Surface Science》 |2008年第5p1期|p.1692-1698|共7页
作者
T.M. Yue; Y.P. Su;
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作者单位

The Advanced Manufacturing Technology Research Centre, Department of Industrial and Systems Engineering, The Hong Kong Polytechnic University, Hung Hom, Hong Kong;

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原文格式 PDF
正文语种 eng
中图分类应用物理学;
关键词
laser cladding; amorphous coating; composite; wear; corrosion;

机译：激光熔覆;非晶涂层;复合材料;磨损;腐蚀;

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专利

1. Laser cladding of Zr_(65)Al_(7.5)Ni_(10)Cu_(17.5) amorphous alloy on magnesium [J] . T.M. Yue, Y.P. Su, H.O. Yang Materials Letters . 2007,第1期

机译：Zr_（65）Al_（7.5）Ni_（10）Cu_（17.5）非晶态合金在镁上的激光熔覆
2. Potentiodynamic polarization studies on amorphous Zr_(46.75)Ti_(8.25)Cu_(7.5)Ni_(10)Be_(27.5), Zr_(65)Cu_(17.5)Ni_(10)Al_(7.5), ZrI_(67)Ni_(33) and Ti_(60)Ni_(40) in aqueous HNO_3 solutions [J] . A. Dhawan, K. Sachdev, S. Roychowdhury, Journal of Non-Crystalline Solids: A Journal Devoted to Oxide, Halide, Chalcogenide and Metallic Glasses, Amorphous Semiconductors, Non-Crystalline Films, Glass-Ceramics and Glassy Composites . 2007,第27期

机译：非晶Zr_（46.75）Ti_（8.25）Cu_（7.5）Ni_（10）Be_（27.5），Zr_（65）Cu_（17.5）Ni_（10）Al_（7.5），ZrI_（67）Ni_（33）的电位动力学极化研究）和HNO_3水溶液中的Ti_（60）Ni_（40）
3. Microstructure studies of Zr_(65)Cu_(17.5)Al_(7.5)Ni_(10) and Zr_(65)Cu_(15)Al_(10)Ni_(10) glass forming alloys: Phase morphologies and undercooled melt solidification [J] . T.A.M. Aboki, F. Brisset, J.P. Souron Intermetallics . 2008,第5期

机译：Zr_（65）Cu_（17.5）Al_（7.5）Ni_（10）和Zr_（65）Cu_（15）Al_（10）Ni_（10）玻璃形成合金的微观结构研究：相形态和过冷熔体凝固
4. Effect of Pd Content on the Mechanical Properties of Zr_(65)Al_(7.5)Ni_(10)Cu_(17.5-x)Pd_x (x= 0-17.5) Glassy Alloys [C] . Albertus D. Setyawan, Junji Saida, Hidemi Kato 日本金属学会大会 . 2008

机译：PD含量对Zr_（65）Al_（7.5）Ni_（10）Cu_（17.5-x）Pd_x（x = 0-17.5）玻璃合金的影响
5. Effects of Cu-Coated SiC Content on Microstructure and Properties of Laser Cladding SiCp/Al–Si Composite Coatings [O] . Yang Liu, Guodong Li, Wenting Jiang 2019

机译：镀铜SiC含量对激光熔覆SiCp / Al-Si复合涂层组织和性能的影响
6. Laser cladding of SiC reinforced Zr65Al7.5Ni10Cu17.5 amorphous coating on magnesium substrate [O] . Yue TM, Su YP 2008

机译：镁基体上SiC增强Zr65Al7.5Ni10Cu17.5非晶涂层的激光熔覆

Laser Cladding Of Sic Reinforced Zr_(65)al_(7.5)ni_(10)cu_(17.5) Amorphous Coating On Magnesium Substrate

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