机构地区:[1]北京航空航天大学大型金属构件增材制造国家工程实验室,北京100191 [2]北京航空航天大学前沿科学技术创新研究院,北京100191
出 处:《表面技术》2022年第10期10-19,29,共11页Surface Technology
基 金:国家重点研发计划(2018YFB2002000);国家科技重大专项(2017–Ⅶ–0003–0096)。
摘 要:目的增大16Cr3NiWMoVNbE钢经渗碳强化后的强化层深度,细化晶粒尺寸,提高表面力学性能,并减小工件热变形,缩短工艺周期。方法将渗碳与激光相变强化相结合,利用“短时”渗碳提高表面含碳量,再通过激光快速局部加热,为碳原子扩散提供理想通道,改善强化层深度。通过光学显微镜、扫描电子显微镜、透射电子显微镜,分别评价材料的金相组织、高倍显微组织,并通过显微硬度计、纳米力学探针对激光相变强化处理后的硬化层截面硬度、纳米硬度、弹性模量进行测试,揭示渗碳和激光相变复合强化16Cr3NiWMoVNbE钢的组织演化和强韧化机理。结果随着激光能量输入量的增加,复合强化层的深度提高了约50%,显微硬度最大值为792HV,显微硬度提高了约30%,弹性模量、显微硬度呈先增加后降低的趋势,强化层显微组织板条逐渐减少,且尺寸不断粗化,残余奥氏体由薄膜状转变为块状,数量逐渐增加,碳化物聚集球化且数量减少。结论16Cr3NiWMoVNbE钢经渗碳和激光相变复合强化后,得到了塑韧性优异的复合强化层,为航空发动机关键传动部件表面强化提供了新思路和理论支撑。As a special grade high-quality steel,16Cr3NiWMoVNbE is the representative of the material of transmission components such as gear and shaft of aeroengine.At present,16Cr3NiWMoVNbE steel is faced with the problems of large thermal deformation,long process cycle and poor matching of strength and toughness after carburizing strengthening.Laser phase transformation strengthening technology has the advantages of high processing efficiency,small thermal deformation and high surface quality,which can significantly improve the surface performance of the workpiece.However,this technology is often suitable for medium and high carbon steel.Therefore,the work aims to further increase the depth of the strengthened layer,refine the grain size,improve the mechanical property of surface,reduce the thermal deformation of the workpiece and shorten the process circle.The carburizing was combined with laser phase transformation strengthening.The"short-time"carburizing was used to improve the surface carbon content,and then the laser local rapid heating was used to provide an ideal channel for carbon atom diffusion.The microstructure evolution and strengthening-toughening mechanism of 16Cr3NiWMoVNbE steel strengthened by carburizing and laser phase transformation were revealed,providing new ideas and theoretical support for surface strengthening of key transmission parts of aero-engine.The metallographic structure and high-power microstructure were evaluated by optical microscopy(OM),scanning electron microscope(SEM)and transmission electron microscope(TEM).The section hardness and modulus of elasticity of strengthened layer after laser transformation strengthening treatment was tested by microhardness tester and nano indenter to reveal the microstructure evolution and strengthening and toughening mechanism of 16Cr3NiWMoVNbE steel strengthened by carburizing and laser transformation.After the composite strengthening of 16Cr3NiWMoVNbE steel by carburizing and laser transformation,the composite strengthened layer had a good matching r
关 键 词:渗碳 激光相变强化 16Cr3NiWMoVNbE钢 强化层 显微组织 力学性能
分 类 号:TG111.5[金属学及工艺—物理冶金]
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