Fe-C-Ti-Cr-B系堆焊合金组织及耐磨性能

冯萌; 王智慧; 贺定勇; 边汉民; 陈勇

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Fe-C-Ti-Cr-B系堆焊合金组织及耐磨性能
冯萌¹, 王智慧¹, 贺定勇¹, 边汉民², 陈勇²
1.北京工业大学材料科学与工程学院, 北京 100124;2.天津水泥工业设计研究院有限公司, 天津 300400

摘要:

采用CO₂气体保护堆焊方法,在Q235钢表面制备不同硼含量的Fe-C-Ti-Cr-B系堆焊层金属,利用扫描电镜(SEM)对堆焊层的组织进行了观察分析.在MLS-225型湿式橡胶轮磨粒磨损试验机上进行磨粒磨损试验,通过对磨损试样表面扫描电子显微镜观察分析并结合能谱成分分析探讨了磨损机理.结果表明,Fe-C-Ti-Cr-B耐磨堆焊合金中随着硼含量增加,基体组织逐渐细化,TiC颗粒数目增多且分布弥散均匀,但当硼含量增大至1.16%时,磨损面上大量碳化物剥落,抗磨损性能降低;当硼含量为0.55%时合金表现出优良的耐磨损性能,其耐磨性比未加硼的Fe-C-Ti-Cr系堆焊合金提高了3.7倍.

关键词: 碳化钛颗粒堆焊组织耐磨性

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基金项目:北京市教育委员会科研基地建设基金资助项目(JJ00901-2201101)

Microstructure and wear resistance performance of Fe-C-Ti-Cr-B hardfacing alloy

FENG Meng¹, WANG Zhihui¹, HE Dingyong¹, BIAN Hanmin², CHEN Yong²

1.School of Materials Science and Engineering, Beijing University of Technology, Beijing 100124, China;2.Tianjin Cement Industry Design and Research Institute Co. Ltd., Tianjin 300400, China

Abstract:

In this paper Fe-C-Ti-Cr system alloys with different B contents were prepared on Q235 steel by CO₂ gas shielded flux cored arc welding method.The microstructure of the Fe-C-Ti-Cr-B alloys were analyzed by scanning electron microscopy(SEM).The abrasive wear resistance performance of the overlayer was evaluated on MLS-225 abrasion testing machine.The mechanism of wear resistauce was studied by the observation of attrited surface topography with SEM and energy dispersive spectrometer(EDS).The results are presented as follows:with the B element increasing,TiC particles distributed more symmetrical and the number of the second phase and hardness of the alloy also increased.When the B content increasesd to 1.16%,a large number of carbides were flake away from the wear surface.The alloy with 0.55% B content exhibits excellent wear resistance,that is 3.7 times better than those without B.

Key words: TiC hardfacing microstructure wear resistance