Pan, Yuhua, Sun, Shouyi, Jahanshahi, Sharif (2011) Mathematical modelling of heat transfer in six-in-line electric furnaces for sulphide smelting, Journal of the South African Institute of Mining and Metallurgy, 111 (10), 717-732.
Chen, C., Jahanshahi, S. (2010) Thermodynamics of arsenic in FeOx-CaO-SiO2 slags, Metallurgical and Materials Transactions B, 41 (6), 1166-1174.
Zhang, L., Sun, S. Y., and Jahanshahi, S. (2007) An approach to modeling Al2O3 containing slags with the cell model, Journal of Phase Equilibria and Diffusion, 28 (1), 121-129.
Zhang, L., Jahanshahi, S., Sun, S. Y., Chen, C., Bourke, B., Wright, S., and Somerville, M. A. (2002). CSIRO's multiphase reaction models and their industrial applications. JOM: the Journal of the Minerals, Metals & Materials Society, 54 (11): 51-56.
Simpson, I., Moore, L., Lee, M., and Jahanshahi, S. (2002). Implementation of a thermodynamic model for inclusion engineering. Iron and Steelmaker, 29 (3): 53-59.
Zhang, L., Jahanshahi, S., Sun, S. Y., Lim, M., Bourke, B., Wright, S., and Somerville, M. A. (2001). Development and applications of models for pyrometallurgical processes. Materials Forum, 25: 136-153.
Zhang, L., and Jahanshahi, S. (2001). Modelling viscosity of alumina-containing silicate melts. Scandinavian Journal of Metallurgy, 30 (6): 364-369.
Sun, S.Y., Jahanshahi, S. An empirical phase diagram model for MgO-containing steelmaking type slags. CAMP-ISIJ. 1993; 6:223.
Turner, G. and Jahanshahi, S. (1987), "A Model Investigation on Emulsification of Metal Droplets in the Basic Oxygen Steelmaking Processes "Trans ISIJ, Vol. 27, pp. 734-739.
Chen, Chunlin; Zhang, Ling and Jahanshahi, Sharif (2013) Application of MPE model to smelting of complex copper containing materials and deportment of minor elements. In Copper 2013, Santiago, Chile, 2013, CD ROM.
Chen Chunlin, Zhang Ling, Wright Steven, Sun Shouyi, Jahanshahi Sharif and Honeyands Tom (2010) Modelling the Effect of MnO on Slag Properties and Mn, Si and S Distribution in Blast Furnaces, 5th International Congress on the Science and Technology of Ironmaking (ICSTI 2009), J Iron Steel Res Int, Vol.16, 2009, (Part 2 Supp 2), pp.1116-20
Zhang, L., Sun, S. Y., and Jahanshahi, S. (2009). Modelling Cr containing slags for PGM smelting. In: Molten 2009: 8th International Conference on Molten Slags, Fluxes and Salts, 18-21 January 2009, Santiago, Chile. Sanchez, M., Parra, R., Riveros, G., and Diaz, C. (Eds.). 391-401.
Zhang, L., Sun, S. Y., and Jahanshahi, S. (2006) Thermodynamic modelling of multi component oxide systems. In: TMS 2006 - 135th Annual Meeting and Exhibition, 225. CD ROM
Pan, Y., Sun, S. Y., and Jahanshahi, S. (2006) Efficient and portable mathematical models for simulating heat transfer in electric furnaces for sulphide smelting. In: K. Kongoli, and R. G. Reddy; International Symposium on Sulfide Smelting 2006 (incorporated in Sohn International Symposium on Advanced Processing of Metals and Materials), 599-614.
Jahanshahi, S., Zhang, L., Sun, S. Y., Langberg, D. E., Xie, D., and Chen, C. (2004). Modelling physico-chemical properties of melts and kinetics of coal-slag reactions. In: 7th International Conference on Molten Slags, Fluxes and Salts, 493-502.
Zhang, L., and Jahanshahi, S. (2004). Modelling viscosity of TiOx containing silicate melts. In: 7th International Conference on Molten Slags, Fluxes and Salts, 51-56.
Jahanshahi, S., Zhang, L., and Bessinger, D. (2003). Development of MPE package and its application in ilmenite smelting. In: 4th International Heavy Minerals Conference, 119-126.
Jahanshahi, S, Sun, S., Xie, D., and Zhang, L. (2002), “Melt Chemistry and Application of Multi-Phase Reaction Models”, In: 1st Australia-Japan Symposium on Iron and Steelmaking, Kyoto, Japan, CD-ROM.
Jahanshahi, S., Zhang, L., Sun, S. Y., and Chen, C. (2002). Current capability and future development of CSIRO Minerals' multi-phase reaction models. In: 4th Australian Melt Chemistry Symposium, 2.
Zhang, L., Jahanshahi, S., Hurst, H. J., and Pattison, J. H. (2001). A predictive viscosity model for coal ash slags. In: 18th International Annual Pittsburgh Coal Conference, 2321-2330.
Zhang L., and Jahanshahi, S. (2001). Development of structurally related viscosity model for silicate melts. In: Chen Nianyi 6th International Symposium on Molten Salt Chemistry and Technology, 398-401.
Zhang, L., and Jahanshahi, S. (1997). Modelling viscosity of silicate melts. In: 5th International Conference on Molten Slags, Fluxes and Salts, 861-871.
Zhang, L., Sun, S. Y., and Jahanshahi, S. (1996). Thermodynamic modelling of silicate systems. In: International Conference on Modelling and Simulation in Metallurgical Engineering and Materials Science, 88-93.
Zhang, L., and Jahanshahi, S. (1996). Modelling viscosity of silicate melts. In: 3rd Australian Melt Chemistry Symposium, 115-125.
Somerville, M. A., Zhang, L., and Jahanshahi, S. (1996). Thermodynamic modelling of fluoride molten salts using the cell model. In: 3rd Australian Melt Chemistry Symposium, 75-81.
Lim, M., Sun, S. Y., and Jahanshahi, S. (1996). Modelling of the solid-liquid equilibrium for the Al2O3-MgO-MnO ternary system. In: 3rd Australian Melt Chemistry Symposium, 61-67.
Zhang, L., Sun, S. Y., and Jahanshahi, S. (1995). Thermodynamic modelling of silicate systems. In: 2nd Australian Melt Chemistry Symposium, 93-99.
Sun, S. Y., and Jahanshahi, S. (1995). Thermodynamic modelling of sulphur and fluorine-containing slags. In: 2nd Australian Melt Chemistry Symposium, 101-102.
Sun, S. Y., and Jahanshahi, S. (1995). Thermodynamic modelling of sulphur and fluorine-containing slags. In: International Conference on Modelling and Simulation in Metallurgical Engineering and Materials Science, 97-99.
Lee, M., Strezov, L., Goldsworthy, D., Simpson, I., Murgas, I., Jahanshahi, S., Sun, S. Y., and Wright, S. (1995). Implementation of a thermodynamic model for slag-refractory interaction in ladle and tundish and for inclusion engineering. In: Scaninject 7, 7th International Conference on Refining Processes, 123-148.
Zhang, L., and Jahanshahi, S. (1994). Modelling the viscosity of binary silicate melts. In: 6th AusIMM Extractive Metallurgy Conference, 57-62.
Sun, S. Y., and Jahanshahi, S. (1993). An empirical phase diagram model for MgO-containing steelmaking type slags. CAMP-ISIJ, 6: 223.
Jahanshahi, S., Sun, S. Y., Wright, S., and Zhang, L. (1993). Approaches to modelling the thermodynamics and physical properties of melts. In: APCChE & Chemeca 93. Official Proceedings, 353-357.
Jahanshahi, S. (1993). The two cellular model - a tool for linking the physico-chemical properties of slags. In: 1st Australian Melt Chemistry Seminar, 12.
Jahanshahi, S., and Wright, S. (1992). Aspects of the regular solution model and its application to metallurgical slags. In: 4th International Conference on Molten Slags and Fluxes, 61-66.
Jahanshahi, S., and Denholm, W. T. (1989). Application of SMELT-2 package to a study of continuous converting in SIROSMELT reactors. In: Non-Ferrous Smelting Symposium, 219-226.
Chen, C., Jahanshahi, S. (2010) Thermodynamics of arsenic in FeOx-CaO-SiO2 slags, Metallurgical and Materials Transactions B, 41 (6), 1166-1174.
Zhang, L., Sun, S. Y., and Jahanshahi, S. (2007) An approach to modeling Al2O3 containing slags with the cell model, Journal of Phase Equilibria and Diffusion, 28 (1), 121-129.
Zhang, L., Jahanshahi, S., Sun, S. Y., Chen, C., Bourke, B., Wright, S., and Somerville, M. A. (2002). CSIRO's multiphase reaction models and their industrial applications. JOM: the Journal of the Minerals, Metals & Materials Society, 54 (11): 51-56.
Simpson, I., Moore, L., Lee, M., and Jahanshahi, S. (2002). Implementation of a thermodynamic model for inclusion engineering. Iron and Steelmaker, 29 (3): 53-59.
Zhang, L., Jahanshahi, S., Sun, S. Y., Lim, M., Bourke, B., Wright, S., and Somerville, M. A. (2001). Development and applications of models for pyrometallurgical processes. Materials Forum, 25: 136-153.
Zhang, L., and Jahanshahi, S. (2001). Modelling viscosity of alumina-containing silicate melts. Scandinavian Journal of Metallurgy, 30 (6): 364-369.
Sun, S.Y., Jahanshahi, S. An empirical phase diagram model for MgO-containing steelmaking type slags. CAMP-ISIJ. 1993; 6:223.
Turner, G. and Jahanshahi, S. (1987), "A Model Investigation on Emulsification of Metal Droplets in the Basic Oxygen Steelmaking Processes "Trans ISIJ, Vol. 27, pp. 734-739.
Chen, Chunlin; Zhang, Ling and Jahanshahi, Sharif (2013) Application of MPE model to smelting of complex copper containing materials and deportment of minor elements. In Copper 2013, Santiago, Chile, 2013, CD ROM.
Chen Chunlin, Zhang Ling, Wright Steven, Sun Shouyi, Jahanshahi Sharif and Honeyands Tom (2010) Modelling the Effect of MnO on Slag Properties and Mn, Si and S Distribution in Blast Furnaces, 5th International Congress on the Science and Technology of Ironmaking (ICSTI 2009), J Iron Steel Res Int, Vol.16, 2009, (Part 2 Supp 2), pp.1116-20
Zhang, L., Sun, S. Y., and Jahanshahi, S. (2009). Modelling Cr containing slags for PGM smelting. In: Molten 2009: 8th International Conference on Molten Slags, Fluxes and Salts, 18-21 January 2009, Santiago, Chile. Sanchez, M., Parra, R., Riveros, G., and Diaz, C. (Eds.). 391-401.
Zhang, L., Sun, S. Y., and Jahanshahi, S. (2006) Thermodynamic modelling of multi component oxide systems. In: TMS 2006 - 135th Annual Meeting and Exhibition, 225. CD ROM
Pan, Y., Sun, S. Y., and Jahanshahi, S. (2006) Efficient and portable mathematical models for simulating heat transfer in electric furnaces for sulphide smelting. In: K. Kongoli, and R. G. Reddy; International Symposium on Sulfide Smelting 2006 (incorporated in Sohn International Symposium on Advanced Processing of Metals and Materials), 599-614.
Jahanshahi, S., Zhang, L., Sun, S. Y., Langberg, D. E., Xie, D., and Chen, C. (2004). Modelling physico-chemical properties of melts and kinetics of coal-slag reactions. In: 7th International Conference on Molten Slags, Fluxes and Salts, 493-502.
Zhang, L., and Jahanshahi, S. (2004). Modelling viscosity of TiOx containing silicate melts. In: 7th International Conference on Molten Slags, Fluxes and Salts, 51-56.
Jahanshahi, S., Zhang, L., and Bessinger, D. (2003). Development of MPE package and its application in ilmenite smelting. In: 4th International Heavy Minerals Conference, 119-126.
Jahanshahi, S, Sun, S., Xie, D., and Zhang, L. (2002), “Melt Chemistry and Application of Multi-Phase Reaction Models”, In: 1st Australia-Japan Symposium on Iron and Steelmaking, Kyoto, Japan, CD-ROM.
Jahanshahi, S., Zhang, L., Sun, S. Y., and Chen, C. (2002). Current capability and future development of CSIRO Minerals' multi-phase reaction models. In: 4th Australian Melt Chemistry Symposium, 2.
Zhang, L., Jahanshahi, S., Hurst, H. J., and Pattison, J. H. (2001). A predictive viscosity model for coal ash slags. In: 18th International Annual Pittsburgh Coal Conference, 2321-2330.
Zhang L., and Jahanshahi, S. (2001). Development of structurally related viscosity model for silicate melts. In: Chen Nianyi 6th International Symposium on Molten Salt Chemistry and Technology, 398-401.
Zhang, L., and Jahanshahi, S. (1997). Modelling viscosity of silicate melts. In: 5th International Conference on Molten Slags, Fluxes and Salts, 861-871.
Zhang, L., Sun, S. Y., and Jahanshahi, S. (1996). Thermodynamic modelling of silicate systems. In: International Conference on Modelling and Simulation in Metallurgical Engineering and Materials Science, 88-93.
Zhang, L., and Jahanshahi, S. (1996). Modelling viscosity of silicate melts. In: 3rd Australian Melt Chemistry Symposium, 115-125.
Somerville, M. A., Zhang, L., and Jahanshahi, S. (1996). Thermodynamic modelling of fluoride molten salts using the cell model. In: 3rd Australian Melt Chemistry Symposium, 75-81.
Lim, M., Sun, S. Y., and Jahanshahi, S. (1996). Modelling of the solid-liquid equilibrium for the Al2O3-MgO-MnO ternary system. In: 3rd Australian Melt Chemistry Symposium, 61-67.
Zhang, L., Sun, S. Y., and Jahanshahi, S. (1995). Thermodynamic modelling of silicate systems. In: 2nd Australian Melt Chemistry Symposium, 93-99.
Sun, S. Y., and Jahanshahi, S. (1995). Thermodynamic modelling of sulphur and fluorine-containing slags. In: 2nd Australian Melt Chemistry Symposium, 101-102.
Sun, S. Y., and Jahanshahi, S. (1995). Thermodynamic modelling of sulphur and fluorine-containing slags. In: International Conference on Modelling and Simulation in Metallurgical Engineering and Materials Science, 97-99.
Lee, M., Strezov, L., Goldsworthy, D., Simpson, I., Murgas, I., Jahanshahi, S., Sun, S. Y., and Wright, S. (1995). Implementation of a thermodynamic model for slag-refractory interaction in ladle and tundish and for inclusion engineering. In: Scaninject 7, 7th International Conference on Refining Processes, 123-148.
Zhang, L., and Jahanshahi, S. (1994). Modelling the viscosity of binary silicate melts. In: 6th AusIMM Extractive Metallurgy Conference, 57-62.
Sun, S. Y., and Jahanshahi, S. (1993). An empirical phase diagram model for MgO-containing steelmaking type slags. CAMP-ISIJ, 6: 223.
Jahanshahi, S., Sun, S. Y., Wright, S., and Zhang, L. (1993). Approaches to modelling the thermodynamics and physical properties of melts. In: APCChE & Chemeca 93. Official Proceedings, 353-357.
Jahanshahi, S. (1993). The two cellular model - a tool for linking the physico-chemical properties of slags. In: 1st Australian Melt Chemistry Seminar, 12.
Jahanshahi, S., and Wright, S. (1992). Aspects of the regular solution model and its application to metallurgical slags. In: 4th International Conference on Molten Slags and Fluxes, 61-66.
Jahanshahi, S., and Denholm, W. T. (1989). Application of SMELT-2 package to a study of continuous converting in SIROSMELT reactors. In: Non-Ferrous Smelting Symposium, 219-226.