GCr15SiMn贝氏体轴承钢超声滚压表层组织与性能  被引量：1

作　　者：安容升 程志 潘金芝[1,2] 陈春焕[1,2] 刘鹏涛[1,2] 任瑞铭[1,2] AN Rong-sheng;CHENG Zhi;PAN Jin-zhi;CHEN Chun-huan;LIU Peng-tao;REN Rui-ming(School of Material Science and Engineering,Dalian Jiaotong University,Liaoning Dalian 116028,China;Key Laboratory of Key Material of Rail Transit in Liaoning Province,Dalian Jiaotong University,Liaoning Dalian 116028,China)

机构地区：[1]大连交通大学材料科学与工程学院,辽宁大连116028 [2]大连交通大学辽宁省轨道交通关键材料重点实验室,辽宁大连116028

出　　处：《表面技术》2023年第10期430-438,共9页Surface Technology

基　　金：航空科学基金(实验室类)项目;航空科学基金(20200036064001)。

摘　　要：目的 研究超声滚压加工对贝氏体轴承钢的影响,并分析超声滚压工艺参数对贝氏体轴承钢试样表层组织及性能的影响规律,为提升贝氏体轴承表面性能提供理论及试验依据。方法 通过超声滚压加工前后试样对比分析,确定超声滚压处理技术对贝氏体轴承钢组织性能的提升;通过单因素试验法,研究超声滚压工艺试样组织、性能的影响规律;通过表面与截面组织相结合的方法,分析贝氏体轴承钢组织的类别特征。结果 根据试样表面状态可将原始试样分为3类:细晶层存在表面微裂纹的截面组织、细晶层无裂纹的截面组织及无细晶层截面组织。超声滚压后,3类截面组织均产生塑性变形层,无细晶层截面组织形成的塑性变形层最厚。超声滚压处理后,存在于原始试样表面的机加工纹理变细,犁沟变浅;试样表面粗糙度降幅可达75%,试样表面硬度增幅为4%,且试样表面产生了约90μm硬化层。结论 相同静压力下,随电流增加,试样表面粗糙度显著降低,塑性变形层显著增加,硬度、硬化层深度增加但增幅较小;相同电流下,随静压力增加,试样表面硬度、塑性变形层深度、硬化层深度及表面硬度增加,粗糙度变化不大。In contemporary mechanical production,bearings are referred to as "mechanical joints" because they support the rotation of various equipment components,reduce friction during usage,and ensure rotational precision.The failure of bearings,which affects the machine's operational state and potentially its safety,has drawn a lot of attention.Bainitic steel(especially lower bainitic steel) demonstrates significant benefits in rolling contact fatigue resistance due to its high hardness,toughness,and excellent comprehensive qualities.This work involved applying the ultrasonic rolling method to the surface treatment of bainitic bearing steel and examining how it affected the surface microstructures and properties of the GCr15Si Mn bainitic bearing steel.The surface microstructures and properties of the race specimens of bainite bearings were compared and analyzed before and after the ultrasonic rolling treatment,and the effects of different ultrasonic rolling processes(current and static pressure) on the surface microstructures and properties of the samples were investigated,which offered a theoretical and experimental foundation for enhancing contact fatigue resistance and service life of GCr15SiMn bainite bearings.The three-dimensional morphology,surface morphology and cross section of the sample surface before and after ultrasonic rolling were observed with a Leica three-dimensional microscope and a scanning electron microscope,and the surface roughness and microhardness were measured with a roughness meter and a microhardness tester.The surface and cross-sectional microstructures of samples subjected to ultrasonic rolling with different parameters were analyzed.The results indicated that the surface condition of the original samples could be categorized into three types:cross section with surface microcracks in the fine-grained layer,cross section without cracks in the fine-grained layer,and cross section without the fine-grained layer.The ultrasonic rolling process created a plastic deformation layer in the three typ

关 键 词：GCr15SiMn贝氏体轴承钢 表面超声滚压处理 细晶层 表面性能 表层组织 

分 类 号：V261.2[航空宇航科学与技术—航空宇航制造工程]