| 原位自生TiC对低合金马氏体钢磨料磨损性能的影响 |
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| 引用本文: | 邱涵,李杰,涂小慧,李卫.原位自生TiC对低合金马氏体钢磨料磨损性能的影响[J].摩擦学学报,2021,41(3):357-364. |
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| 作者姓名: | 邱涵 李杰 涂小慧 李卫 |
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| 作者单位: | 1.暨南大学 先进耐磨蚀及功能材料研究院,广东 广州 510632 |
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| 基金项目: | “十三五”国家重点研发专项(2017YFB0305100)和广东省自然科学基金(2018030310035)资助 |
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| 摘 要: | 以新型含TiC马氏体钢Ti60和商用不含碳化物马氏体钢JFE400为研究对象,通过三体磨料磨损试验机研究在纯煤粉和纯煤粉掺杂40%(质量分数)石英砂为磨料下,TiC硬质相对低合金马氏体钢磨料磨损性能的影响及其作用机理. 结果表明:在纯煤粉环境下,Ti60钢的磨损体积大于JFE400钢;但在纯煤粉掺杂40%(质量分数)石英砂环境下,Ti60钢的磨损体积却小于JFE400钢. 根据磨痕表面的形貌,上述结果是由以下几方面综合作用造成的. 首先,两种环境下材料的磨损机制均主要是犁削磨损;其次,煤粉颗粒的层状结构及低硬度的特性,使得TiC硬质相对其犁削行为起不到阻碍作用,而块状结构且具有高硬度的石英砂颗粒的犁削行为则受到TiC硬质相的阻碍. 所以在纯煤环境下,基体硬度较大的JFE400钢,相对于基体硬度较小的Ti60钢,呈现出较优的抗磨料磨损的性能. 而在纯煤粉掺杂40%(质量分数)石英砂环境下,Ti60钢的抗磨粒磨损性能却优于JFE400钢.
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| 关 键 词: | TiC硬质相 马氏体钢 TiC与磨料间的交互作用 磨料磨损性能 |
| 收稿时间: | 2020-07-23 |
Effect of in-Situ Autogenic TiC on Abrasive Wear Properties of a Low Alloy Martensitic Steel |
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| Institution: | 1.Institute of Advanced Wear&Corrosion Resistant and Functional Materials, Jinan University, Guangdong Guangzhou 510632, China2.National Joint Engineering Research Center of High Performance Metal Wear Resistant Materials Technology, Jinan University, Guangdong Guangzhou 510632, China |
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| Abstract: | A new type of TiC- containing martensitic steel Ti60 and another type of commercial martensitic steel JFE400 without carbide were used as the research objects. The effect of TiC hard phase on the abrasive wear performance and its mechanism of a low alloy martensitic steel were studied using three-body abrasive wear tester under the condition of pure coal powder and 40% quartz sand doped with pure coal powder as the abrasive. The results showed that the wear volume of Ti60 steel was greater than that of JFE400 steel in the pure coal powder environment. However, the wear volume of Ti60 steel was lower than JFE400 steel under the condition of coal powder doped with 40% quartz sand. According to the surface morphology of the worn marks, the above results were caused by the combined action of the following aspects. Firstly, the wear mechanism of materials in both environments mainly was microploughing wear. Secondly, due to the layered structure and low hardness of coal powder particles, TiC hard phase did not play an obstacle role with its ploughing behavior, while the ploughing behavior of massive structure quartz sand particles with high hardness were hindered by TiC hard phase. Therefore, JFE400 steel with a relatively large matrix hardness showed better wear performance compared with Ti60 steel with a relatively small matrix hardness in the pure coal powder environment. However, Ti60 steel had better wear resistance than JFE400 steel under the condition of coal powder doped with 40% quartz sand. |
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