Cavitation-erosion mechanism of laser cladded SiC particle reinforced metal matrix composite

ZHANG Chun-hua; ZHANG Song; YANG Song

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Cavitation-erosion mechanism of laser cladded SiC particle reinforced metal matrix composite

机译：激光熔覆SiC颗粒增强金属基复合材料的空蚀机理

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摘要

With 2 kW continuous wave Nd-YAG laser, SiC ceramic powder was laser-cladded on the AA6061 aluminium alloy surface. Within the range of process parameters investigated, the parameters were optimized to produce the SiC_p reinforced metal matrix composites(MMC) modified layer on AA6061 alloy surface. After being treated, the modified layer is crack-free, porosity-free, and has good metallurgical bond with the substrate. The microstructure and chemical composition of the modified layer were analyzed by such detection devices as scanning electronic microscope (SEM-EDX) and X-ray diffractometer(XRD). The performance of electrochemical corrosion and cavitation erosion and their mechanism were estimated by the microhardness tester, potentiostat and ultrasonic-induced cavitation device.

机译：使用2 kW连续波Nd-YAG激光器，将SiC陶瓷粉末激光熔覆在AA6061铝合金表面上。在所研究的工艺参数范围内，对参数进行了优化，以在AA6061合金表面上生产SiC_p增强金属基复合材料（MMC）改性层。处理后，改性层无裂纹，无孔隙，并与基材具有良好的冶金结合。用扫描电子显微镜（SEM-EDX）和X射线衍射仪（XRD）等检测装置对改性层的微观结构和化学成分进行了分析。用显微硬度计，恒电位仪和超声诱导的空化装置对电化学腐蚀和空化侵蚀的性能及其机理进行了评估。

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来源
《Transactions of Nonferrous Metals Society of China》 |2005年第1期|p.35-39|共5页
作者
ZHANG Chun-hua; ZHANG Song; YANG Song;
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作者单位

College of Materials Science ck Engineering, Shenyang University of Technology, Shenyang 110023, China;

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原文格式 PDF
正文语种 eng
中图分类有色金属冶炼;
关键词
aluminium alloy; laser-cladding; particle reinforced metal matrix composite; cavitation erosion;

机译：铝合金;激光熔覆;颗粒增强金属基复合材料;气蚀;

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专利

1. Cavitation-erosion mechanism of laser cladded SiC particle reinforced metal matrix composite [J] . ZHANG Chun-hua, ZHANG Song, YANG Hong-gang, 中国有色金属学报（英文版） . 2005,第001期

机译：激光熔覆SiC颗粒增强金属基复合材料的空蚀机理
2. Thermal failure mechanism and failure threshold of SiC particle reinforced metal matrix composites induced by laser beam [J] . Y.C. Zhou, S.G. Long, Y.W. Liu Mechanics of materials . 2003,第10期

机译：激光诱导SiC颗粒增强金属基复合材料的热失效机理和失效阈值
3. Microstructure and tribological properties of in situ synthesized TiC, TiN, and SiC reinforced Ti_3Al intermetallic matrix composite coatings on pure Ti by laser cladding [J] . Yuping Pu, Baogang Guo, Jiansong Zhou, Applied Surface Science . 2008,第5p2期

机译：纯Ti表面激光熔覆原位合成TiC，TiN和SiC增强Ti_3Al金属间化合物复合涂层的组织和摩擦学性能
4. Electroless Deposition of metal oxide on SiC particles Reinforced for Producing Al-Si /SiC Metal Matrix Composites [C] . Anne Zulfia, Tatu Masudah, Syukron Lutfi International Conference on Quality in Research (QiR 2011) . 2011

机译：用于生产Al-Si / SiC金属基质复合材料的SiC颗粒上的金属氧化物的无电沉积
5. Evaluation of titanium carbide metal matrix composites deposited via laser cladding. [D] . Cavanaugh, Daniel Thomas. 2015

机译：评估通过激光熔覆沉积的碳化钛金属基复合材料。
6. Anodization Mechanism on SiC Nanoparticle Reinforced Al Matrix Composites Produced by Power Metallurgy [O] . Sonia C. Ferreira, Ana Conde, María A. Arenas, 2014

机译：动力冶金生产SiC纳米颗粒增强Al基复合材料的阳极氧化机理
7. Comparison of cutting mechanism when machining micro and nano-particles reinforced SiC/Al metal matrix composites [O] . Xiangyu Teng, Wanqun Chen, Dehong Huo, 2018

机译：加工微纳米粒子加固SiC / Al金属基复合材料切割机理的比较

Cavitation-erosion mechanism of laser cladded SiC particle reinforced metal matrix composite

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