Microporosity formation in Mg alloys and its effect on protective coatings

Liu B. -S.; Wei Y. -H.; Chen W. -Y.; Hou L. -F.

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Microporosity formation in Mg alloys and its effect on protective coatings

机译：镁合金中的微孔形成及其对保护层的影响

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A notebook computer component with a complex geometry was manufactured with a die cast process (DCP), using an AZ91D alloy. Chemical conversion and organic coatings were sequentially applied to provide protection against physical and chemical damage. Air content in the component, which gives rise to microporosity, was determined with a DCP computer simulation using MAGMA software. The surface layer characteristics of the component were also investigated using scanning electron microscopy coupled with energy dispersive X-ray spectroscopy. The microporosity content was higher at the end of the filling process compared with the regions that filled first. Corrosion resistance was poorer for discontinuous conversion coatings that resulted from surface microporosity. Moreover, adhesion of an organic coating was degraded at areas with higher microporosity.

机译：使用AZ91D合金，通过压铸工艺（DCP）制造了具有复杂几何形状的笔记本计算机组件。依次施加化学转化和有机涂层以提供针对物理和化学损害的保护。使用MAGMA软件通过DCP计算机模拟确定了产生微孔的组分中的空气含量。还使用扫描电子显微镜和能量色散X射线光谱法研究了组件的表面层特性。与首先填充的区域相比，填充过程结束时的微孔含量更高。对于由表面微孔导致的不连续转化膜，其耐腐蚀性较差。此外，在具有较高微孔率的区域，有机涂层的粘附性降低。

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来源
《Surface Engineering 》 |2014年第12期| 共5页
作者
Liu B. -S.; Wei Y. -H.; Chen W. -Y.; Hou L. -F.;
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正文语种 eng
中图分类金属腐蚀与保护、金属表面处理 ;
关键词
AZ91D; Microporosity; Simulation; Coatings; Corrosion; Adhesion;

机译：AZ91D;微孔;模拟;涂层;腐蚀;粘附;

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1. Microporosity formation in Mg alloys and its effect on protective coatings [J] . Liu B. -S., Wei Y. -H., Chen W. -Y., Surface Engineering . 2014 ,第12期

机译：镁合金中的微孔形成及其对保护层的影响
2. A study of the deformation and failure mechanisms of protective intermetallic coatings on AZ91 Mg alloys using microcantilever bending [J] . Lu Mingyuan, Mead James, Wu Yueqin, Materials Characterization . 2016 ,第Null期

机译：微悬臂梁弯曲对AZ91 Mg合金保护性金属间化合物涂层变形和破坏机理的研究
3. A study of the deformation and failure mechanisms of protective intermetallic coatings on AZ91 Mg alloys using microcantilever bending [J] . Lu Mingyuan, Mead James, Wu Yueqin, Materials Characterization . 2016 ,第Null期

机译：使用微电子弯曲AZ91mg合金保护性金属间涂层的变形及失效机制研究
4. Formation of Protective Coatings on AMg3 Aluminum Alloy Using Fluoropolymer Nanopowder [C] . Valeriia S. Filonina, Konstantine V. Nadaraia, Dmitry V. Mashtalyar, Asia School-Conference on Physics and Technology of Nanostructured Materials . 2020

机译：含氟聚合物纳米粉末AMG3铝合金对保护涂层的形成
5. Design and Study of Protective Coatings on Alloys in High Temperature Oxidizing Environment [D] . Gao, Zhaohe. 2019

机译：高温氧化环境合金保护涂层的设计与研究
6. Fabrication of Sputtered Ce/La La/Ce Oxide Bilayers on AA6061 and AA7075 Aluminum Alloys for the Development of Corrosion Protective Coatings [O] . Silvia B. Brachetti-Sibaja, Miguel A. Domínguez-Crespo, Aidé M. Torres-Huerta, 2018

机译：在AA6061和AA7075铝合金上制备溅射的Ce / LaLa / Ce氧化物双层以开发防腐蚀涂层
7. Protective film formation on AA2024-T3 aluminum alloy by leaching of lithium carbonate from an organic coating [O] . Liu, Y. (author), Visser, P. (author), Zhou, X. (author), 2015

机译：通过从有机涂层中浸出碳酸锂在A2022-T3铝合金上形成保护膜
8. PROTECTIVE COATINGS FOR MAGNESIUM ALLOYS, PART 2 - RESISTANCE OF FLAME-FUSED TEFLON COATED MAGNESIUM AND ALUMINUM ALLOYS TO CORROSION BY 3% SODIUM CHLORIDE SOLUTIONS [R] . D. L. Venezky, A. G. Sands, E. B. Simmons 1965

机译：镁合金的防护涂层，第2部分 - 用3％氯化钠溶液腐蚀火焰熔覆的TEFLON涂层镁和铝合金的腐蚀性

Microporosity formation in Mg alloys and its effect on protective coatings

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