Conclusions drawn from this presentation were that when SPS, HP and Press and Sinter methods were used to form TiPt phase from elemental Ti and Pt powders, Press and Sinter was less successful. Presence of Ti-rich and Pt-rich phases coexisting with TiPt phase after SPS and HP shows incomplete homogenisation, the volume fraction of TiPt phase formed by various solid-state diffusion methods ranges from 40-55%. DSC shows two-stage B2-B19 martensite transformation, an intermediate phase of unknown structure, forms during the phase transition.
Reference:
Chikosha, S, Mahlatji, ML and Chikwanda, HK. 2012. DSC study of martensite transformation in TiPt alloys. Munich, Germany, 11-13 September 2012
Chikosha, S., Mahlatji, M., & Chikwanda, H. (2012). DSC study of martensite transformation in TiPt alloys. http://hdl.handle.net/10204/6632
Chikosha, S, ML Mahlatji, and HK Chikwanda. "DSC study of martensite transformation in TiPt alloys." (2012): http://hdl.handle.net/10204/6632
Chikosha S, Mahlatji M, Chikwanda H, DSC study of martensite transformation in TiPt alloys; 2012. http://hdl.handle.net/10204/6632 .