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St JOHN D.H., MATTHEW S.P. and HAYES P.C., “The breakdown of dense iron layers on wustite in CO/CO2 and H2/H2O systems”, Metall. Trans. B., 15B, 1984, pp 701-8.This AMIRA industry funded project on iron oxide reduction was the first to identify this mechanism of reduction and systematically characterise the conditions under which it occurs.
MATTHEW S.P. and HAYES P.C., “Microstructural changes occurring during the gaseous reduction of magnetite”, Metall. Trans. B., 1990, 21B, pp 153-172.The first systematic study characterising the changes in reaction mechanism on high temperature reduction of magnetite in H2/H2O gas mixtures
MATTHEW S.P., CHO T.R. and HAYES P.C., “Mechanisms of porous iron growth on wustite and magnetite during gaseous reduction”, Metall. Trans B, 1990, 21B, pp 733-741.Seminal research on reaction mechanisms and phase transformations on iron oxide reduction.
JAK E., LUI N., LEE H.G., WU P., PELTON A.D. and HAYES P.C., “Phase equilibria in the system PbO-CaO-SiO2.” Intl. Symp. on Zinc and Lead 95, Sendai, May 1995, pp 747-755. This was a significant study that demonstrated the new research techniques developed by the CI’s could be applied to systems that could not previously be studied using conventional techniques.
Jak E., and Hayes p.c. “Experimental liquidus in the PbO - ZnO -“Fe2O3”- (CaO+SiO2) system in air with CaO/SiO2 weight ratio of 0.35 and PbO/(CaO + SiO2) = 3.2.” Metall. Trans. B, 2002, vol. 33B, pp. 851-863.TMS Science Award-winning study 2004 (co-recipients P.C. Hayes and E. Jak). First characterisation of these complex slag systems critical understanding the chemistry of lead smelting slags.
Jak E., and Hayes p.c. “Experimental liquidus in the PbO - ZnO -“Fe2O3”- (CaO+SiO2) system in air with CaO/SiO2 weight ratio of 0.35 and PbO/(CaO + SiO2) =5.0.” Metall. Trans. B, 2002, vol. 33B, pp. 817-825.TMS Science Award-winning study 2004 (co-recipients P.C. Hayes and E. Jak). First characterisation of these complex slag systems critical understanding the chemistry of lead smelting slags.
Jak E., Zhao B. and Hayes p.c. “Experimental study of phase equilibria in the “FeO”-ZnO-(CaO+SiO2) system with the CaO/SiO2 weight ratio of 0.71 at metallic iron saturation”, Metall. Mater. Trans. B, 2002, vol. 33B, pp. 865-876, ibid , 2003, vol.34B, pp. 383-397. ibid, 2003, vol.34B, pp. 369-382.TMS Science Award-winning study 2004 (co-recipients P.C. Hayes and E. Jak). First characterisation of these complex slag systems critical understanding the chemistry of lead smelting slags.
YAMASHITA T. and HAYES P.C., “Analysis of XPS spectra of Fe2+ and Fe3+ ions in oxide materials”, Applied Surface Sci., 2007, vol. 254(8), pp. 2441-2449.Most Cited paper in Applied Surface Sci., 2008-2010. Scopus citations: 330 times to date. Established a new standard technique for accurate surface analysis of ferrous and ferric iron using XPS.
NIKOLIC S., HAYES P. C. and JAK E., “Phase equilibria in ferrous calcium silicate slags Parts I-III: Copper saturated slag at 1250oC and 1300oC at an oxygen partial pressure of 10-6atm”, Metall. Mater. Trans. B, 2008, vol. 39B, pp. 178-188; ibid. pp. 189-199; ibid. pp. 200-209; ibid. pp.210-217.TMS Science Award-winning study 2010 (co-recipients S. Nikolic, P. C. Hayes, H. Henao, E. Jak) providing fundamental data on liquidus temperatures of complex slags at controlled oxygen partial pressures.
HAYES P.C. “Stability criteria for product microstructures formed on the reduction of solid metal oxides”. Metall. Mater. Trans. B, 2010, vol. 41B(1), pp.19.-34.TMS Science Award-winning paper 2012 (Hayes). An important conceptual advance in understanding establishing the fundamental link between liquid/solid and gas/solid transformation mechanisms, and the theoretical basis for the morphology map concept.