航空航天和国防用无六价铬转化涂料的评价

IF 0.9 Q3 ENGINEERING, AEROSPACE Journal of Aerospace Technology and Management Pub Date : 2022-01-01 DOI:10.1590/jatm.v14.1248
Gregory Morose, D. Pinsky, Chandler Humphrey, Kent DeFranco
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引用次数: 2

摘要

含有六价铬的转化涂层目前用于航空航天和国防制造的各种铝合金上,以提供防腐和增强后续涂层的附着力。然而,六价铬对人类有毒,急性和慢性接触会对健康产生负面影响。由于含有六价铬的材料具有毒性,监管规定加快了全球范围内取代它们的努力。建立了一个联盟来评估更安全的转化涂层材料,包括在应用转化涂层之前对表面进行的化学处理。将四种不含六价铬的转化涂层与六价铬基转化涂层进行了以下测试:涂层重量、电接触电阻、涂料附着力、裸涂和涂涂中性盐雾腐蚀测试、涂涂SO2盐雾腐蚀测试和涂涂户外海滨腐蚀测试。四种不含六价铬的转化涂层的测试结果令人鼓舞,因为一些候选涂层超出了一些规范要求或协会的期望。特别是,Socosurf TCS/PACS转换涂层在涂层重量、电接触电阻、涂料附着力和腐蚀测试中表现良好。该评价结果为在铝上应用传统六价铬材料提供替代材料提供了重大进展。
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Evaluation of Conversion Coatings Without Hexavalent Chromium for Aerospace and Defense Applications
Conversion coatings containing hexavalent chromium are currently used in aerospace and defense manufacturing on various aluminum alloys to provide corrosion protection and enhanced adhesion of subsequent coatings. However, hexavalent chromium is toxic to humans with negative health effects from acute and chronic exposure. Regulatory mandates have accelerated a global effort to replace hexavalent chromium-containing materials because of their toxicity. A consortium was established to evaluate safer conversion coating materials, including the chemical processing of the surfaces prior to applying the conversion coatings. Four conversion coatings without hexavalent chromium were compared against a hexavalent chromium-based conversion coating for the following tests: coating weight, electrical contact resistance, paint adhesion, bare and painted neutral salt fog corrosion tests, painted SO2 salt fog corrosion test, and painted outdoor beachfront corrosion test. The test results for the four conversion coatings without hexavalent chromium were encouraging since several candidates exceeded some of the specification requirements or consortium expectations. In particular, the Socosurf TCS/PACS conversion coating performed well in the coating weight, electrical contact resistance, paint adhesion, and corrosion tests. The results of this evaluation provide significant progress toward providing a replacement material for a traditionally hexavalent chromium material application on aluminum.
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来源期刊
CiteScore
2.00
自引率
0.00%
发文量
16
审稿时长
20 weeks
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