铸造2026,Vol.75Issue(1):8-13,6.DOI:10.27014/j.cnki.zhuzao.2026.0002
超高锰钢/TiC复合锤头的界面组织及磨损行为
Interfacial Micro structure and Wear Behaviors of Ultra-High Manganese Steel and TiC Cemented Carbide Composite Hammer Head
摘要
Abstract
Through microstructure characterization,hardness testing,impact and friction-wear experiments,the interfacial microstructure characteristics of ultra-high manganese steel/TiC composite hammer heads after service failure were analyzed,and a systematic study was conducted on the wear behaviors of the ultra-high manganese steel matrix of the hammer heads.The results demonstrate that the ultra-high manganese steel matrix consists of a single-phase austenite structure(grain size:700-850 μm)with complex Cr-Mn-Fe carbides being distributed along grain boundaries and within grains,and no significant microstructural characteristics changes are observed before and after service.Although a diffusion layer enriched with Mn and Cr elements formed at the interface between the ultra-high manganese steel and the TiC cemented carbide,but the transverse cracks initiate at this interface after actual service and propagate into the TiC cemented carbide region.A hardened layer of about 2 mm thickness is formed due to work-hardening on the surface of the hammer head after service,and its wear mechanism is not same with the friction-wear,but is similar with the impact-wear,being the synergistic effects of plastic deformation and fatigue wear mechanisms.关键词
超高锰钢/界面/显微组织/磨损/复合锤头Key words
ultra-high manganese steel/interface/microstructure/wear/composite hammer head分类
矿业与冶金引用本文复制引用
郭伍,宋东君,刘薇,郑玉佳,母镕,宋仁伯..超高锰钢/TiC复合锤头的界面组织及磨损行为[J].铸造,2026,75(1):8-13,6.基金项目
国家自然科学基金资助项目(52074033). (52074033)
