本文選題：固體滲硼 + TC鈦合金　； 參考：《航空學(xué)報(bào)》2015年05期

【摘要】：采用單體硼為供硼劑對(duì)TC21鈦合金表面進(jìn)行稀土催化表面強(qiáng)化熱處理,對(duì)滲硼層組織形貌、硬度、磨痕形貌和磨損率進(jìn)行了研究。結(jié)果表明單體硼滲劑中CeO2配比為7wt%左右的滲硼層連續(xù)致密,耐磨性較好;溫度對(duì)于表層TiB2的厚度影響較大,提高溫度可顯著增大滲硼層厚度,隨著保溫時(shí)間的延長,表層TiB2層逐漸增厚并且更為連續(xù),時(shí)間超過一定值后滲硼層厚度增加緩慢;滲硼層表層硬度隨滲硼溫度提高顯著增大,隨保溫時(shí)間延長增加緩慢,滲硼溫度在1 000℃時(shí)滲硼層近表層硬度可達(dá)3 200HV0.01左右,高硬度區(qū)域厚度可達(dá)20μm以上;TC21鈦合金滲硼層表現(xiàn)出了良好的摩擦磨損性能,滲硼試樣的比磨損率比未滲硼試樣低50~60倍。
[Abstract]:Rare-earth catalytic surface hardening heat treatment was carried out on the surface of TC21 titanium alloy with monomeric boron as boron donor. The microstructure, hardness, wear scar morphology and wear rate of boronized layer were studied. The results show that the boronizing layer with CeO2 ratio of about 7 wt% is continuous dense and has good wear resistance, and the temperature has a great effect on the thickness of surface TiB2, and increasing the temperature can significantly increase the thickness of boronizing layer, with the prolongation of the holding time. The thickness of boronized layer increases slowly after the time exceeds a certain value, and the hardness of the surface layer increases significantly with the increase of boronizing temperature, and increases slowly with the prolongation of holding time. When the boronizing temperature is 1 000 鈩，

本文編號(hào)：1839921