强流脉冲离子束辐照改善W9Cr4V轴承钢的表面性能

薛彦庆; 汪诚; 王学德; 赖志林

引用本文:	薛彦庆, 汪诚, 王学德, 赖志林.强流脉冲离子束辐照改善W9Cr4V轴承钢的表面性能[J].中国表面工程,2012,25(3):76~80
	XUE Yan-qing, WANG Cheng, WANG Xue-de, LAI Zhi-lin.Surface Modification of W9Cr4V Airbearing Steel Through High Intense Pulsed Ion Beams Irradiation[J].China Surface Engineering,2012,25(3):76~80

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强流脉冲离子束辐照改善W9Cr4V轴承钢的表面性能
薛彦庆, 汪诚, 王学德, 赖志林
空军工程大学工程学院, 西安 710038

摘要:

为改善W9Cr4V轴承钢表面性能，提高轴承使用寿命，研究强流脉冲离子束(HIPIB主要由C⁺(70%)、H⁺(30%组成))技术辐照处理效果。用1、10、20、30不同脉冲次数分别对W9Cr4V试片进行处理。采用倒置金相显微镜、X射线衍射仪、显微硬度仪、pin-on-disc（POD）方法、电化学工作站分别测量辐照前后试样的表面形貌和性能。结果表明，HIPIB辐照处理使W9Cr4V轴承钢试片近表层晶粒细化，产生了奥氏体相和碳化物，并且马氏体择优面发生改变，衍射峰向高角方向偏移并宽化。同时，由于HIPIB辐照处理快速升降温和冲击波的影响，处理后试片表面显微硬度最高提高了19.63%，表面耐磨性提高近2倍，耐腐蚀性显著改善。

关键词: 强流脉冲表面改性硬度耐磨性

DOI：

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基金项目:装备预先研究项目(代号略)

Surface Modification of W9Cr4V Airbearing Steel Through High Intense Pulsed Ion Beams Irradiation

XUE Yan-qing, WANG Cheng, WANG Xue-de, LAI Zhi-lin

Engineering Institute of Air Force Engineering University, Xi’an 710038

Abstract:

To improve surface properties of W9Cr4V and increase the bearing life, W9Cr4V sample was treated by high intensity pulsed ion beam (HIPIB), which consists mainly of C⁺(70%) and H⁺(30%). The processing was conducted with the parameters of 150 A/cm² high beam current density, 250 kV acceleration voltage, 80 ns pulse duration, and the irradiation times were 1,10,20 and 30, respectively. The changes of performance and morphology can be found on the surface after the process. The sample was analyzed with MAT, XRD, pin-on-disc(POD) methods, and mecrohardness tester. The results show that the grains are refined on the nearsurface, resulting in the austensite phase, carbides and martensite, which proves that the surface changes, the direction of the diffraction peaks shifts to the higher angle and broadens. At the same time, influenced by the sharp increasing temperature and shock wave from HIPIB irradiation, the microhardness increases by 19.63%, which is the highest, the wear resistance of surface layer increases nearly two times, and a remarkable improvement of corrosion resistance can be found on the surface.

Key words: high intensity pulse surface modification microhardness wear resistance