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基于TiC-VC的抗磨粒磨损堆焊焊条
引用本文:杨尚磊,吕学勤,邹增大,楼松年. 基于TiC-VC的抗磨粒磨损堆焊焊条[J]. 机械工程材料, 2004, 28(6): 20-22
作者姓名:杨尚磊  吕学勤  邹增大  楼松年
作者单位:1. 上海交通大学焊接研究所,上海,200030;青岛科技大学高分子工程材料研究所,山东青岛,266042
2. 上海交通大学焊接研究所,上海,200030
3. 山东大学材料科学与工程学院,山东济南,250061
摘    要:用钛铁、钒铁、石墨、人造金红石等组成焊条药皮,通过高温电弧,台金反应生成TiC-VC,研制了硬度高、抗裂性好的耐磨粒磨损堆焊焊条。通过扫描电镜、工艺性能试验、磨粒磨损试验等,系统地研究了焊条药皮组分对堆焊层硬度、工艺性能、耐磨性及显微组织的影响。结果表明:随着药皮中钛铁、钒铁、石墨组分增加,堆焊层硬度提高,但焊接工艺性能恶化。堆焊层显微组织为低碳马氏体和碳化物。堆焊抗裂性优于D618、D667焊条,相对耐磨性可达D667焊条的8倍。

关 键 词:抗裂性 磨粒磨损 堆焊焊条
文章编号:1000-3738(2004)06-0020-03

Development of Abrasive Wearability Surfacing Electrode Based on TiC-VC
YANG Shang-lei. Development of Abrasive Wearability Surfacing Electrode Based on TiC-VC[J]. Materials For Mechanical Engineering, 2004, 28(6): 20-22
Authors:YANG Shang-lei
Affiliation:YANG Shang-lei~
Abstract:Based on carbides of TiC-VC which were formed by high-temperiture arc metallurgic reaction between the contents of Fe-Ti, Fe-V, graphite and rutile in the coat, an abrasive wearability surfacing electrode with high hardness and fine cracking resistance was developed. The effects of coat contents on hardness, welding technology, wearability and microstructure were systemically studied by means of SEM, welding technical test and abrasive wear test. The results show that with the increase of contents of Fe-Ti, Fe-V and graphite, the hardness of surfacing metal increases, however, the cracking resistance and welding technology become worse. The microstructure of surfacing metal is lath martensite and carbide. The cracking resistance of surfacing metal excelled that of D618, D667, and its relative wearability is eight times that of D667.
Keywords:cracking resistance  abrasive wearability  surfacing electrode
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