共查询到19条相似文献,搜索用时 91 毫秒
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防腐性能优良的防锈颜料—云母氧化铁 总被引:5,自引:0,他引:5
本文主要介绍了防腐蚀性能优良的防锈颜料——云母氧化铁的特性,天然品和合成品的生产方法,并对其性能进行比较,还详细介绍了云母氧化铁颜料的使用要求和技术条件。 相似文献
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在美国,汽车漆中使用铝颜料可追溯到20年代和30年代。但在欧洲,直到60年代才真正得到普及。其装饰效果与铝颜料的物理特性有直接关系。铝颜料是一种片状铝金属,因此它具有M维特性。通常铝片的厚度在of~10Pm数量级,而长度和宽度在7-45urn数量级,表面包覆一层极薄的脂肪酸 相似文献
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6063铝型材表面斑点腐蚀的成因分析 总被引:4,自引:0,他引:4
6063铝型材料阳级氧化后常会出现斑点腐蚀。通过扫描电镜和电子探针显微分析等手段分析了腐蚀斑点的成分,探讨了斑点腐蚀的原因并提出了预防措施。腐蚀斑点由游离Si和Al-Fe-Si相组成,在加工过程中,游离Si、Al-Fe-Si与FeAl3和Mg2Si一起在晶界处偏析,导致点蚀的发生,另外,锌元素和氯离子也对点蚀起加速作用。 相似文献
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Effect of surface preparation prior to cerium pre-treatment on the corrosion protection performance of aluminum composites 总被引:1,自引:0,他引:1
The effect of surface preparation prior to cerium treatment on the corrosion protection of AA6061 T6–10% Al2O3 in NaCl solution was investigated using electrochemical impedance spectroscopy and DC polarization techniques. A new surface preparation method consisted of pre-etching followed by oxide-thickening is proposed. Optical microscope and scanning electron microscopy showed a marked decrease in the number and depth of pits for the pre-etched as compared to the as-polished specimens. X-ray photoelectron spectroscopy revealed that pre-etching eliminated the active sites where the chloride ions can adsorb. Simultaneously, the adsorption of cerium ions is uniformly on the surface. The oxide-thickening step has a vital role in the protection mechanism. It was found that presence of a thick oxide layer completely changed the mechanism of protection. 相似文献
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铝及铝合金无铬表面处理技术研究进展 总被引:2,自引:0,他引:2
综述了铝及铝合金无铬表面处理技术,包括锆钛类处理、硅烷处理,稀土转化膜、高锰酸盐转化膜、钴盐转化膜、锂盐转化膜、有机酸转化膜等.目前在实践中获得应用的有锆钛转化处理和硅烷处理,但尚无一种无铬处理工艺能够完全代替铬酸盐处理工艺. 相似文献
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弱极化法测评大功率二次雾化电弧喷铝涂层的腐蚀防护寿命 总被引:1,自引:0,他引:1
利用弱极化原理,通过腐蚀速率测量仪测量大功率二次雾化电弧喷铝涂层的腐蚀电位和腐蚀电流密度,计算其深度腐蚀速率,时电弧喷铝涂层的防腐寿命进行评估,获得了不同厚度电弧喷铝涂层所对应的防护寿命,确定了具有不同防护寿命的复合涂层的最佳防腐设计方案.讨论了该法存在的问题.指出电弧喷铝复合涂层的防护寿命不仅取决于涂层系统的选择及其内在质量,而且与腐蚀环境和防腐蚀涂装质量、工程养护质量密切相关,应用中须根据已用工程金属涂层的实际防护寿命对其进行修正. 相似文献
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针对氯碱企业钢筋混凝土的严重腐蚀,从腐蚀机理和各环节的抗腐蚀控制阐述了延长钢筋混凝土使用寿命的方法。 相似文献
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The development of effective anticorrosion pre-treatments for metallic substrates is an issue of great importance for durability of metal structures and components. In this work, we proposed and demonstrated the concept of self-repairing coating for corrosion protection of aluminum alloys, using cagelike oil core/silica gel shell particles. These micron-scale, cagelike smart microspheres with opened and closed pores were successfully fabricated, and at the same time encapsulated repairing agent (methyl methacrylate) and catalysts (potassium persulfate and sodium thiosulfate) into the microspheres, respectively. Such smart particle composites (SPCs) were prepared based on an interfacial self-assembly process and sol–gel reaction. They were then self-assembled on the AA2024 aluminum alloy surface, followed by the application of a sol–gel film. The hybrid film worked as a primer coating featuring the self-repairing property. Both the EIS and SEM/EDS data demonstrated that the encapsulated repairing agent was released as a response to external stimulus (scratches) and polymerized to repair the coating defects. By comparing the corrosion rate of AA2024 in three coating systems, the self-repairing effect is quantified to be 22% after 2 h immersion in deoxidized 3% NaCl solution. 相似文献