【摘 要】
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The in-situ formation of TiC/Ti composite coating was achieved by induction cladding (IC) approach. The powder mixture of 90wt% Ti and 10wt% graphite was preplaced on a Ti6Al4V substrate and irradiate
【机 构】
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National Key Laboratory for Remanufacturing, Academy of Armored Forces Engineering, Beijing 100072,C
【出 处】
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第十一届全国表面工程大会暨第八届全国青年表面工程学术会议
论文部分内容阅读
The in-situ formation of TiC/Ti composite coating was achieved by induction cladding (IC) approach. The powder mixture of 90wt% Ti and 10wt% graphite was preplaced on a Ti6Al4V substrate and irradiated with a high frequency induction heating coil in Ar atmosphere. The cladded coating exhibited a practically compact and pore-free microstructure with good metallurgical adherence to the substrate. Fine and evenly dispersed titanium carbide was formed in coating after induction cladding as confirmed by X-ray diffraction (XRD), X-ray photoelectron spectroscopy (XPS) and tran mission electron microscope (TEM) analysis. A two temperature peak phen menon and dissolution- precipitation mechanism were used to explain the formation of the induction cladding composite coating and the in situ synthesized TiC particles, respectively. The microhardness was increased from 340 HV0.2 in the substrate to approximately 600 HV0.2 in the composite coating due to the in-situ formation of hard TiC phase. The hardness evolution, which is consistent with the Rule of Mixtures, is determined by both the fraction of the TiC particles and the type of the matrix used.
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