Warm compacted NbC particulate
reinforced ironbase composite(Ⅱ)
reinforced ironbase composite(Ⅱ)
——Microstructure and properties
(Advanced Metallic Materials Research and Processing
Technology Center, South China University of Technology,
Guangzhou 510640, China)
Technology Center, South China University of Technology,
Guangzhou 510640, China)
Abstract: Effects of different sintering temperature and sintering time on the relative density of the sintered compacts were studied to obtain the optimal sintering parameters for the fabrication of NbC particulate reinforced iron-base composite. With optimal sintering temperature of 1280℃ and sintering time of 80min, wear-resisting, high density NbC particulate reinforced iron-base composites can be obtained using warm compaction powder metallurgy. The microstructure, relative density, mechanical properties and tribological behaviors of the sinter ed composites were studied. The results indicate that the mechanical properties of the sintered compacts were closely related to the sintered density. The iron-base composite materials with different combinations of mechanical properties and tribological behaviors were developed for different applications. One of the dev eloped composite, which contains 10%NbC, possesses a high strength of 815MPa with a remarkable friction and wear behaviors. The other developed composite, which contains 15%NbC, possesses a lesser strength of 515MPa but with excellent friction and wear behaviors.
Key words: iron-base composite; NbC particulate; mechanical property; tribological behaviors