Abstract:Fe-20Ni-xMn-3.5C-2.5Si solid self-lubricating materials with property of high-wearing were prepared by melting method. The spheroidization effect of rare earth Ce on graphite and the effect of Mn addition on mechanical properties and tribological performances of Fe-20Ni-xMn-3.5C-2.5Si alloys were studied. The results show that the austenite hardness of solidifying structures increases as the manganese content increases. The surface hardness of Fe-20Ni-xMn-3.5C-2.5Si-0.75Ce alloy increases widely after being worn and it appears the work-hardening of surface as like the high manganese-containing steel. The type of compound twin martensite on surface can be observed by TEM. The spheroidization effect of 0.75%(in mass fraction)of rare earth cerium on the graphite during crystallization is effective. The spheroidized alloy has higher tensile strength and flexural strength which is about 3−5.8 times higher than those of the non-spheroidized alloy. With the addition of rare earth Ce, the second phase Fe1.1Mn3.9C2, which makes the wear resisting property further increase, appears in matrix. Fe-20Ni-12Mn-3.5C-2.5Si -0.75Ce alloy has the lowest wear rate which is about 13 times lower than that of the spheroidal cast iron.

Key words: Fe-Ni-Mn-C-Si-Ce alloy; high manganese austenite; Mn; Ce; work-hardening; friction; wear