Fe-C-B alloy,with excellent wear resistance and cost-effectiveness,has the potential to become the new generation of wear-resistant materials,whose broad application is limited due to its relatively low toughness caused by meshed boride.The progress of research on Fe-C-B alloy toughening mechanism is reviewed,including adjustment to boron content,heat treatment under high temperature,alloying and modification.It can be suggested that alloys with boron content ranging in 2.0% —4.0% has good performance,as the hardness reaches 60HRC and the impact toughness is about 6 J/cm2.High temperature heat treatment at 1 000—1 050 ℃ is favorable for alloy toughening.Also,toughness can be improved to a certain extent through alloying or modification.In-depth studies on the toughening mechanism of Fe-CB alloy are necessary for further improvement of toughness by combining various toughening methods.%新一代耐磨材料Fe-C-B合金具有较高的经济效益和优异的耐磨损性能,但网状硼化物的存在导致其韧性较低,限制了其发展和应用.阐述了Fe-C-B合金B含量优化、高温热处理、合金化、变质处理等增韧方法的研究进展.综合大量研究发现:B含量在2.0%~4.0%范围内时,合金性能较好,硬度可达到60HRC,冲击韧性在6J/cm2左右;在1 000~1 050℃范围内进行高温热处理更利于合金增韧;合金化和变质处理对韧性有一定改善作用.为了进一步提高FeC-B合金韧性,需要结合各种增韧方法,深入探讨韧性机制.
展开▼
