Energy generation systems must operate at higher temperatures and pressures in order to achieve increased efficiency. This may require the utilization of high temperature, high strength Ni-base alloys. However, the high thermal expansion coefficients (CTE) of commercially available Ni-base alloys relative to low cost ferritic steels may make it difficult to employ Ni-base alloys in hot sections. Utilizing prior work by Yamamoto et al. [In: Materials for advanced power engineering-2002. Proceedings of the seventh Leige conference; September 30-October 3, 2002. Energy and technology, Volume 21. Forschungszentium Julich Gmbh Inst. Fur Werkstoffe und Verfahren der Energietechnik; 2002] and the Thermo-Calc phase prediction software, a series of Ni-based alloys were developed at the National Energy Technology Laboratory based on the composition range of Ni-(18-25)Mo-(8-15)Cr-1Ti-0.5Mn, with CTEs similar to ferritic steels. The oxidation behavior was measured at 800 degrees C in moist air. The tensile properties were measured at 25 and 750 degrees C after aging at 750 degrees C for upwards of 1000h. The results were compared to Haynes 230 and Crofer 22 APU. Published by Elsevier Ltd on behalf of the International Association for Hydrogen Energy.