摘要
为了制备性能优良的Ti-B-N涂层,以Ti-B4C-C—N为反应体系、选用2种粉末配方,采用反应等离子喷涂法在Q235碳钢表面制备了TiN-TiC0.2~0.3N0.7~0.8-TiB2基陶瓷复合涂层,并对其物相、截面微观结构、显微硬度及3.5%NaCl溶液中的耐蚀性能进行了分析。结果表明:制备的陶瓷涂层均由Ti的碳氮硼化物组成,不同粉末配方获得的涂层的相成分有所差异;当粉末配比(摩尔比)为Ti:B4C:C=4:1:1时,涂层厚约120μm,主要为TiN,TiN0.3,TiC0.2N0.8,TiB2;而粉末配比为Ti:B4C:C=14:3:5时涂层主要物相为TiN,TiN0.3,TiC0.3N0.7,TiB2,涂层成分均匀,厚度约为145μm;与基体相比,TiN-TiC0.2~0.3N0.7~0.8-TiB2涂层的显微硬度显著提高;粉末配比为Ti:B4C:C=14:3:5时陶瓷涂层在3.5%NaCl溶液中的耐蚀性能最佳。
TiN-TiC_(0.2-0.3)N_(0.7-0.8)-TiB_2 matrix ceramic coatings were prepared by reactive plasma spray on Q235 carbon steel in the Ti-B_4C-C-N reactive system.The phase composition,cross-section microstructure,micro- hardness and corrosion resistance of the coating in simulated seawater(3.5%NaCl solution) were investigated.Results showed that the ceramic coating was composed of titanium carbide-nitride-borides,and the phase composition of coating made of different powder formulations was different.When the powder formulation was Ti:B_4C:C =4:1:1(molar ratio,the same hereafter),the thickness of coating was about 120 μm and the phase compositions were TiN,TiN_(0.3),TiC_(0.2)N_(0.8) and TiB_2.As the powder formulation was Ti:B_4C:C = 14:3:5,the thickness of coating was about 145μm and the phase compositions were TiN,TiN_(0.3),TiC_(0.3)N_(0.7) and TiB_2.Compared with the substrate,the TiN-TiC_(0.2-0.3)N_(0.7-0.8)-TiB_2 coatings had greatly improved micro-hardness.Besides,the coating prepared with the powder formulation of Ti:B_4C:C =14:3:5 had the best corrosion resistance.
出处
《材料保护》
CAS
CSCD
北大核心
2015年第11期25-27,42,共4页
Materials Protection
基金
河北省自然基金项目(E2013208101)
河北科技大学杰出青年基金项目资助
