Aluminum matrix composites reinforced with silicon carbide particles (SiCp) were deposited by laser cladding on AA6082 aluminum alloy. Different compositions of the matrix of the composites coating were used and different amounts of Si and Ti were added to a base of Al-12Si in order to control the reactivity between molten aluminum and SiCp during laser cladding. The corrosion behavior of the coatings deposited was evaluated in 3.5 wt.% NaCl solution using gravimetric analyses and electrochemical polarization tests. The corrosion products observed were Al(OH)3 and Al2O3, and they formed a layer that limited the evolution of corrosion. However, the presence of discontinuities in it reduced the corrosion resistance of the coating. The corrosion mechanisms were different depending on the coating composition. The addiction of Ti to the alloy allowed for better corrosion behavior for the composite coating than that of the aluminum substrate.
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机译:通过碳化硅颗粒(SICP)加强的铝基基复合材料通过激光覆层沉积在AA6082铝合金上。使用复合材料涂层基质的不同组成,并将不同量的Si和Ti加入到Al-12Si的碱中,以控制激光包层期间熔融铝和SICP之间的反应性。沉积涂层的腐蚀行为在3.5重量%的3.5重量%中评价使用重量分析和电化学偏振试验的%NaCl溶液。观察到的腐蚀产物是Al(OH)3和Al 2 O 3,它们形成了一个限制腐蚀的演变的层。然而,在其中存在不连续性降低了涂层的耐腐蚀性。腐蚀机制取决于涂料组合物。 Ti对合金的成瘾允许对复合涂层的更好的腐蚀行为而不是铝基衬底的腐蚀行为。
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