FarnworthF., JonesS. L. and McAlpineI. The production, properties and uses of zirconium chemicals. InThompsonR. ed. Speciality inorganic chemicals (London: Royal Society of Chemistry, 1981), 248–79.
2.
WelhamN. J. Enhancement of the dissolution of ilmenite (FeTiO3) by extended milling. Trans. lnstn Min. Metall. (Sect. C: Mineral Process. Extr. Metall.), 106, 1997, 141–4.
3.
WelhamN. J. and LlewellynD. J. Mechanical enhancement of the dissolution of ilmenite. Min. Engng, 11, 1998, 827–41.
4.
FletcherN. H. and WelhamN. J. Enhanced dissolution follow-ing extended milling. J. Am. Inst. chem. Engrs, 46, 2000, 666–9.
5.
WelhamN. J. Ambient-temperature formation of metal titanates from ilmenite (FeTiO3). J. Mat. Sci., 33, 1998, 1795–9.
6.
International Centre for Diffraction Data. Powder diffraction file, 1996.
7.
VogelA. I. Macro and semimicro qualitative inorganic analysis (London: Longman, 1960), 663 p.
8.
PuclinT., KaczmarekW. A. and NinhamB. W. Mechanochemical processing of ZrSiO4. Materials Chemistry & Physics, 40, 1995, 73–81.
9.
RoineA. HSC Chemistry for Windows, 2.0. (Pori: Outokompu Research Oy, 1994).
10.
TkacovaK. Mechanical activation of minerals (London: Elsevier, 1989), 179 p.
11.
MauriceD. and CourtneyT. H. Milling dynamics 2: dynamics of a Spex mill and a one-dimensional mill. Metall. Mat. Trans. A, 27, 1996, 1973–9.
