Alumina-Forming Austenitic Stainless Steels Strengthened by Laves Phase and MC Carbide Precipitates

摘要

Creep strengthening of Al-modified austenitic stainless-steels by MC carbides or Fe_2Nb Laves phase was explored. Fe-20Cr-15Ni-(0-8)Al and Fe-15Cr-20Ni-5Al base alloys (at. pct) with small additions of Nb, Mo, W, Ti, V, C, and B were cast, thermally-processed, and aged. On exposure from 650 deg C to 800 deg C in air and in air with 10 pct water vapor, the alloys exhibited continuous protective Al_2O_3 scale formation at an Al level of only 5 at. pct (2.4 wt pct). Matrices of the Fe-20Cr-15Ni-5Al base alloys consisted of gamma (fcc) + alpha (bcc) dual phase due to the strong alpha-Fe stabilizing effect of the Al addition and exhibited poor creep resistance. However, adjustment of composition to the Fe-15Cr-20Ni-5Al base resulted in alloys that were single-phase gamma-Fe and still capable of alumina scale formation. Alloys that relied solely on Fe_2Nb Laves phase precipitates for strengthening exhibited relatively low creep resistance, while alloys that also contained MC carbide precipitates exhibited creep resistance comparable to that of commercially available heat-resistant austenitic stainless steels. Phase equilibria studies indicated that NbC precipitates in combination with Fe_2Nb were of limited benefit to creep resistance due to the solution limit of NbC within the gamma-Fe matrix of the alloys studied. However, when combined with other MC-type strengtheners, such as V_4C_3 or TiC, higher levels of creep resistance were obtained.