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Preparation and Hardness Behavior of Al-based Amorphous/Nanocrystalline Composite Coatings on Mg alloy Prepared by High Velocity Arc Spraying Process

机译：高速电弧喷涂镁合金上铝基非晶/纳米晶复合涂层的制备及硬度行为

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High velocity arc spraying (HVAS) process was used to deposit Al-Ni-Y-Co and Al-Ni-Mm-Fe amorphousanocrystalline composite coatings onto AZ91 Mg alloy substrate. Their microstructure was characterized by using X-ray diffraction (XRD), scanning electron microscopy (SEM) and transmission electron microscopy (TEM). The coatings are both about 500 μm in thickness with fully dense and low porosity. The microstructure of the coatings is classified into two regions, namely, a full amorphous phase region and homogeneous dispersion of fcc-Al and some intermetallic nanoscale particles in a residual amorphous matrix region. Vickers micro hardness of the coatings was also measured. The average Vickers micro hardness of Al-Ni-Y-Co and Al-Ni-Mm-Fe coating is about 311 HV and 340 HV, respectively.

机译：高速电弧喷涂（HVAS）工艺用于在AZ91 Mg合金基底上沉积Al-Ni-Y-Co和Al-Ni-Mm-Fe非晶/纳米晶复合涂层。通过使用X射线衍射（XRD），扫描电子显微镜（SEM）和透射电子显微镜（TEM）对它们的微观结构进行了表征。涂层的厚度均为约500μm，具有完全致密和低孔隙率。涂层的微观结构分为两个区域，即完全非晶相区域和fcc-Al和一些金属间纳米级颗粒在残余非晶基质区域中的均匀分散。还测量了涂层的维氏显微硬度。 Al-Ni-Y-Co和Al-Ni-Mm-Fe涂层的平均维氏显微硬度分别约为311 HV和340 HV。

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来源
《Frontier of nanoscience and technology》|2011年|p.256-260|共5页
会议地点 Kunming(CN);Kunming(CN)
作者
Zhi-bin Zhang; Xiu-bing Liang; Yong-xiong Chen; Bin-shi Xu;
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作者单位

College of Materials Science and Engineering, Beijing University of Technology, Beijing 100124,China,Science and Technology on Remanufacturing Laboratory, Academy of Armored Forces Engineering, Beijing 100072, China;

Science and Technology on Remanufacturing Laboratory, Academy of Armored Forces Engineering, Beijing 100072, China;

Science and Technology on Remanufacturing Laboratory, Academy of Armored Forces Engineering, Beijing 100072, China;

Science and Technology on Remanufacturing Laboratory, Academy of Armored Forces Engineering, Beijing 100072, China;

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会议组织
原文格式 PDF
正文语种 eng
中图分类工程材料一般性问题;
关键词
high velocity arc spraying process; Al-based amorphousanocrystalline; microstructure; AZ91 Mg alloy; vickers micro hardness;

机译：高速电弧喷涂工艺； Al基非晶/纳米晶；微观结构AZ91镁合金;维氏显微硬度;

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1. Preparation and Hardness Behavior of Al-based Amorphous/Nanocrystalline Composite Coatings on Mg alloy Prepared by High Velocity Arc Spraying Process [J] . Zhi-bin Zhang, Xiu-bing Liang, Yong-xiong Chen, Materials science forum . 2011,第期

机译：高速电弧喷涂镁合金上铝基非晶/纳米晶复合涂层的制备及硬度行为
2. Wear and Corrosion Behaviors of FeCrBSiNbW Amorphous/Nanocrystalline Coating Prepared by Arc Spraying Process [J] . J. B. Cheng, Z. H. Wang, B. S. Xu Journal of Thermal Spray Technology . 2012,第5期

机译：电弧喷涂法制备的FeCrBSiNbW非晶/纳米晶涂层的磨损性能
3. Formation and Properties of Fe-Based Amorphous/Nanocrystalline Alloy Coating Prepared by Wire Arc Spraying Process [J] . Dan Wu, Zi Shuan Fan, Yan Yang Materials science forum . 2019,第PTa1期

机译：电弧喷涂铁基非晶态/纳米晶合金涂层的形成与性能
4. Preparation of Al-based Amorphous/Nanocrystalline Composite Coating on Mg-based Alloys Precipitated by Arc Spraying Process [C] . Zhang Zhibin, Liang Xiubing, Xu Binshi Symposia on light metal;TMS annual meeting exhibition . 2013

机译：电弧喷涂沉淀的Mg基合金上Al基非晶/纳米晶复合涂层的制备
5. Structural characterization of nanocrystalline and amorphous tungsten(molybdenum)-iron(manganese) alloys prepared by mechanical alloying. [D] . Yang, Enyao. 1993

机译：机械合金化制备的纳米晶和非晶态钨（钼）-铁（锰）合金的结构表征。
6. High strength nanostructured Al-based alloys through optimized processing of rapidly quenched amorphous precursors [O] . Song-Yi Kim, Gwang-Yeob Lee, Gyu-Hyeon Park, -1

机译：通过对快速淬火的非晶态前驱体进行优化处理而制成的高强度纳米结构Al基合金
7. Electrochemical Corrosive Behaviors of Fe-Based Amorphous/ Nanocrystalline Coating on Stainless Steel Prepared by HVOF-Sprayed [O] . Jifu Zhang, Chunming Deng, Jinbing Song, 2019

机译：HVOF喷涂制备的不锈钢中Fe基无定形/纳米晶体涂层的电化学腐蚀性行为
8. Processing and Deposition of Nanocrystalline Oxide Composites for Thermal Barrier Coatings [R] . Ying, J. Y. , McCue, J. T. 2001

机译：用于热障涂层的纳米晶氧化物复合材料的加工和沉积

Preparation and Hardness Behavior of Al-based Amorphous/Nanocrystalline Composite Coatings on Mg alloy Prepared by High Velocity Arc Spraying Process

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