| 激光熔覆高铬铁基合金的组织形成机制及对显微硬度的影响 |
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| 引用本文: | 尹燕,潘存良,赵超,张瑞华,屈岳波.激光熔覆高铬铁基合金的组织形成机制及对显微硬度的影响[J].焊接学报,2019,40(7):114-120. |
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| 作者姓名: | 尹燕 潘存良 赵超 张瑞华 屈岳波 |
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| 作者单位: | 兰州理工大学 省部共建有色金属先进加工与再利用国家重点试验室,兰州,730050;中国钢研科技集团有限公司,北京 100081;阳江市五金刀剪产业技术研究院,阳江 529533 |
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| 基金项目: | 增材制造粉末真空气雾化及设备开发(2017003);阳江市五金刀剪产业技术研究院新型研发机构初创期建设补助(611229498090);阳江市高功率激光应用实验室有限公司新型研发机构初创期建设补助(809099997119) |
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| 摘 要: | 采用2 kW光纤碟片激光器在3Cr13不锈钢刀具表面进行同轴送粉激光熔覆高铬铁基合金,以提高刀刃的硬度.通过SEM,EDS,EPMA,XRD分析了熔覆层的显微组织及相组成,采用显微硬度仪进行了硬度测试.结果表明,在凝固的过程中,成分过冷和散热速度的不同,组织大致分为枝晶区、细晶共晶区、粗晶区三个区域,各区域内均分布有(Fe,Cr)7C3,可增加熔覆层的硬度和耐磨性.由于各区域内晶粒的大小不同,使得熔覆层内硬度呈阶梯分布.Ni元素的加入,促进熔覆层中基体奥氏体化,在刀具使用过程中可对高硬度的碳化物起韧性缓冲作用,从而保证了熔覆层的综合力学性能.
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| 关 键 词: | 激光熔覆 铁基合金 显微组织 显微硬度 |
| 收稿时间: | 2018/2/19 0:00:00 |
Formation mechanism of microstructure of laser cladding high chromium Fe-based alloy and its effect on microhardness |
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| YIN Yan,PAN Cunliang,ZHAO Chao,ZHANG Ruihua and QU Yuebo.Formation mechanism of microstructure of laser cladding high chromium Fe-based alloy and its effect on microhardness[J].Transactions of The China Welding Institution,2019,40(7):114-120. |
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| Authors: | YIN Yan PAN Cunliang ZHAO Chao ZHANG Ruihua and QU Yuebo |
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| Affiliation: | 1.State Key Laboratory of Advanced Processing and Recycling of Nonferrous Metals, Lanzhou University of Technology, Lanzhou 730050, China2.China Iron & Steel Research Institute Group, Beijing 100081, China;Yangjiang Knif-Seissor Hardware Research Institution of Industry Technology, Yangjiang 529533, China |
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| Abstract: | A high chromium iron-base alloy with the coaxial powder laser coating is implemented on the surface of the 3Cr13 stainless steel blade by using 2 kW fibre-optical disc laser to improve the hardness of the blade. SEM, EDS, EPMA and XRD are used to analyze the microstructure of the cladding layer and the microhardness is tested. The results show that the cladding layer is well-formed and metallurgically bonded with the substrate without defects such as cracks, porosity and so on. With the change of the heat dissipation and the constitutional supercooling, microstructure can be roughly divided into three regions:dendritic region, eutectic fine grain region and coarse grain region. The carbides of (Fe,Cr)7C3 is distributed in each region to increase the hardness and abrasion resistance of the cladding layer. As the size of the grain in each region is different, the hardness of the cladding layer is differently distributed. While, the addition of Ni element promotes the austenization of the matrix in the cladding layer. It can play a role in the toughness of the carbides with high hardness during the use of the knife. Thus, the comprehensive mechanical properties of the cladding layer are obtained. |
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| Keywords: | laser cladding Fe-based alloy microstructure microhardness |
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