XXXI International Mineral Processing Congress 2024 Proceedings/Washington, DC/Sep 29–Oct 3 2201
Peng, Y., Seaman, D., The flotation of slime–fine fractions
of Mt. Keith pentlandite ore in de-ionised and saline
water. Minerals Engineering, 2011, 24(5), 479–481.
Peng, Y., Wang, B., Bradshaw, D., Pentlandite oxidation
in the flotation of a complex nickel ore in saline water.
Minerals Engineering, 2011, 24(1), 85–87.
Pereira, D., Yenes, M., Sánche, J., Moreno, M.,
Characterization of serpentinites to define their appro-
priate use as dimension stone. Geological Society
London Special Publications, 2007, 271.
Sharma, R., Deep-Sea Mining: Economic, Technical,
Technological, and Environmental Considerations for
Sustainable Development. Marine Technology Society
Journal, 2011, 45(5), 28–41.
Xia, F., Pring, A., Brugger, J., Understanding the mecha-
nism and kinetics of pentlandite oxidation in extractive
pyrometallurgy of nickel. Minerals Engineering, 2012,
27–28, 11–19.
Yang, Z., Wang, Y., Gao, Q., Wu, S., Present Situation
and Development Strategy and Key Technologies of
China’s Nickel Resources Sustainable Development.
Conservation and Utilization of Mineral Resources,
2016(2), 58–69.
Yuan, Z.-t., Lu, J.-w., Liu, J.-t., Li, L.-x., Wang, S.-y.,
Enhancement of pentlandite surface magnetism and
implications for its separation from serpentine via mag-
netic separation. Transactions of Nonferrous Metals
Society of China, 2017, 27(1), 204–210.
Zhang, X., Li, G., You, J., Wang, J., Luo, J., Duan, J.,
Zhang, T., Peng, Z., Rao, M., Jiang, T., Extraction of
Boron from Ludwigite Ore: Mechanism of Soda-Ash
Roasting of Lizardite and Szaibelyite. Minerals, 2019,
9(9), 533.
Zhou, Y., Albijanic, B., Tadesse, B., Wang, Y., Yang, J.,
Zhu, X., Desulphurization of coals of different ranks
in the presence of slimes by reverse flotation. Energy
Reports, 2019, 5, 1316–1323.
Peng, Y., Seaman, D., The flotation of slime–fine fractions
of Mt. Keith pentlandite ore in de-ionised and saline
water. Minerals Engineering, 2011, 24(5), 479–481.
Peng, Y., Wang, B., Bradshaw, D., Pentlandite oxidation
in the flotation of a complex nickel ore in saline water.
Minerals Engineering, 2011, 24(1), 85–87.
Pereira, D., Yenes, M., Sánche, J., Moreno, M.,
Characterization of serpentinites to define their appro-
priate use as dimension stone. Geological Society
London Special Publications, 2007, 271.
Sharma, R., Deep-Sea Mining: Economic, Technical,
Technological, and Environmental Considerations for
Sustainable Development. Marine Technology Society
Journal, 2011, 45(5), 28–41.
Xia, F., Pring, A., Brugger, J., Understanding the mecha-
nism and kinetics of pentlandite oxidation in extractive
pyrometallurgy of nickel. Minerals Engineering, 2012,
27–28, 11–19.
Yang, Z., Wang, Y., Gao, Q., Wu, S., Present Situation
and Development Strategy and Key Technologies of
China’s Nickel Resources Sustainable Development.
Conservation and Utilization of Mineral Resources,
2016(2), 58–69.
Yuan, Z.-t., Lu, J.-w., Liu, J.-t., Li, L.-x., Wang, S.-y.,
Enhancement of pentlandite surface magnetism and
implications for its separation from serpentine via mag-
netic separation. Transactions of Nonferrous Metals
Society of China, 2017, 27(1), 204–210.
Zhang, X., Li, G., You, J., Wang, J., Luo, J., Duan, J.,
Zhang, T., Peng, Z., Rao, M., Jiang, T., Extraction of
Boron from Ludwigite Ore: Mechanism of Soda-Ash
Roasting of Lizardite and Szaibelyite. Minerals, 2019,
9(9), 533.
Zhou, Y., Albijanic, B., Tadesse, B., Wang, Y., Yang, J.,
Zhu, X., Desulphurization of coals of different ranks
in the presence of slimes by reverse flotation. Energy
Reports, 2019, 5, 1316–1323.