摘要
A new surfacing electrode is developed with cracking resistance andwearability based on high microhardness of TiC and VC, carbides of Ti and V are formed in depositedmetal by means of high temperature arc metallurgic reaction. The results show the hardness ofsurfacing metal increases with the increase of ferrotitanium (Fe-Ti), ferrovanadium (Fe-V) andgraphite in the coat. However, when graphite reaches the volume fraction of 11 percent, the hardnessreaches its peak value, and when beyond 11 percent, the hardness falls off. As Fe-Ti, Fe-V andgraphite increase, the cracking resistance of deposited metal and usability of electrode declines.Carbides are dispersedly distributed in the matrix structure. The matrix micro structure ofdeposited metal is lath martensite. Carbides present irregular block. When using the researchedsurfacing electrode to continue weld with non-preheated, no seeable crack or only a few micro-crackscan be observed in the surface of deposited metal. The hardness is above 60 HRC. The wearresistance is better than that of EDZCr-C-15.
A new surfacing electrode is developed with cracking resistance andwearability based on high microhardness of TiC and VC, carbides of Ti and V are formed in depositedmetal by means of high temperature arc metallurgic reaction. The results show the hardness ofsurfacing metal increases with the increase of ferrotitanium (Fe-Ti), ferrovanadium (Fe-V) andgraphite in the coat. However, when graphite reaches the volume fraction of 11 percent, the hardnessreaches its peak value, and when beyond 11 percent, the hardness falls off. As Fe-Ti, Fe-V andgraphite increase, the cracking resistance of deposited metal and usability of electrode declines.Carbides are dispersedly distributed in the matrix structure. The matrix micro structure ofdeposited metal is lath martensite. Carbides present irregular block. When using the researchedsurfacing electrode to continue weld with non-preheated, no seeable crack or only a few micro-crackscan be observed in the surface of deposited metal. The hardness is above 60 HRC. The wearresistance is better than that of EDZCr-C-15.
基金
This project is supported by Provincial Natural Science Foundation of Shandong, China(No.Z2000F02).
