李立,李忠盛,丛大龙,张敏,杨九州,陈汉宾.Al2O3/Ni-P-SiC复合涂层组织与性能的研究[J].装备环境工程,2023,20(1):112-118. LI Li,LI Zhong-sheng,CONG Da-long,ZHANG Min,YANG Jiu-zhou,CHEN Han-bin.Micro-structure and Properties of Al2O3/Ni-P-SiC Composite Coatings[J].Equipment Environmental Engineering,2023,20(1):112-118.
Al2O3/Ni-P-SiC复合涂层组织与性能的研究
Micro-structure and Properties of Al2O3/Ni-P-SiC Composite Coatings
  
DOI:10.7643/issn.1672-9242.2023.01.016
中文关键词:  铝合金  微弧氧化  化学复合镀  烧蚀中图分类号:TG174 文献标识码:A 文章编号:1672-9242(2023)01-0112-07
英文关键词:aluminum alloy  micro-arc oxidation  composite electroless plating  ablation
基金项目:
作者单位
李立 西南技术工程研究所,重庆 401329 
李忠盛 西南技术工程研究所,重庆 401329 
丛大龙 西南技术工程研究所,重庆 401329 
张敏 西南技术工程研究所,重庆 401329 
杨九州 西南技术工程研究所,重庆 401329 
陈汉宾 西南技术工程研究所,重庆 401329 
AuthorInstitution
LI Li Southwest Institute of Technology and Engineering, Chongqing 401329, China 
LI Zhong-sheng Southwest Institute of Technology and Engineering, Chongqing 401329, China 
CONG Da-long Southwest Institute of Technology and Engineering, Chongqing 401329, China 
ZHANG Min Southwest Institute of Technology and Engineering, Chongqing 401329, China 
YANG Jiu-zhou Southwest Institute of Technology and Engineering, Chongqing 401329, China 
CHEN Han-bin Southwest Institute of Technology and Engineering, Chongqing 401329, China 
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中文摘要:
      目的 采用化学复合镀技术对微弧氧化进行封孔,进而得到抗烧蚀性能优良的Al2O3/Ni-P-SiC复合涂层。方法 通过采用扫描电镜(SEM)、光学金相显微镜(OM)、显微硬度仪(Microhardness Tester)、X射线衍射仪(XRD)、氧–乙炔烧蚀试验(Oxy-Acetylene Ablation Test)等方法,对复合涂层的表面形貌、截面形貌、厚度、显微硬度、物相和抗烧蚀性能等进行分析。结果 陶瓷层原始表面完全被化学镀层覆盖,所制得的复合涂层厚度均匀,化学镀层与陶瓷层紧密嵌合。镀液中的SiC浓度对镀覆的速度、镀层中SiC粒子的共沉积量有着较大的影响。当粒子质量浓度为16~20 g/L时,颗粒的共沉积量较大。化学复合镀60 min可以得到厚度20 μm左右的Ni-P-SiC镀层,SiC颗粒分布均匀。当镀液中SiC质量浓度为16 g/L时,镀层具有最高的硬度。对比未处理、仅微弧氧化和Al2O3/Ni-P-SiC复合涂层试样,Al2O3/Ni-P-SiC复合涂层试样具有最佳的抗烧蚀性能。结论 Al2O3/Ni-P-SiC复合涂层均匀、致密,具有良好的抗烧蚀。
英文摘要:
      The work aims to seal the holes of micro-arc oxidation (MAO) through the chemical composite plating technique to obtain Al2O3/Ni-P-SiC composite coatings with excellent anti-ablation performance. Scanning electron microscope (SEM), optical metallographic microscope (OM), microhardness tester, X-ray diffraction (XRD), microhardness tester and Oxy-acetylene ablation test were adopted to analyze the surface morphology, section morphlogy, thickness, microhardness, phase and anti-ablative performance. The results of this thesis showed that the original surface of the ceramic layer was completely covered by chemical plating. The prepared composite coating was uniform in thickness. The chemical plating was closely embedded with the ceramic layer. The concentration of SiC in the plating bath had a great influence on the plating speed and the co-deposition rate of SiC particles in the plating. When the mass concentration of particles was 16-20 g/L, the co-deposition rate of particles was large. Ni-P-SiC coating with a thickness of about 20 μm could be obtained by composite electroless plating for 60 min, and the SiC particles were evenly distributed. The plating had the maximum harness when the mass concentration of SiC in the plating bath was 16 g/L. Compared with the untreated, micro-arc oxidation and Al2O3/Ni-P-SiC composite coating samples, Al2O3/Ni-P-SiC composite coating had the best ablative resistance. The Al2O3/Ni-P-SiC composite coating is uniform and dense, and has excellent anti-ablation performance.
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