XXXI International Mineral Processing Congress 2024 Proceedings/Washington, DC/Sep 29–Oct 3 527
Lv, N. N., Chen, H., Su, C., Wang, H. C., Dong, Y. C., &
Wu, L. S. (2023). Kinetics Investigation of Phosphorus
Leaching from Steelmaking Slag. Mineral Processing
and Extractive Metallurgy Review, 44(8), 571–576.
Martins, A. C. P., De Carvalho, J. M. F., Costa, L. C. B.,
Andrade, H. D., de Melo, T. V., Ribeiro, J. C. L., &
Peixoto, R. A. F. (2021). Steel slags in cement-based
composites: An ultimate review on characteriza-
tion, applications and performance. Construction and
Building Materials, 291, 123265.
Menad, N., Kanari, N., &Save, M. (2014). Recovery of
high grade iron compounds from LD slag by enhanced
magnetic separation techniques. International Journal
of Mineral Processing, 126, 1–9.
Mercado-Borrayo, B. M., González-Chávez, J. L.,
Ramírez-Zamora, R. M., &Schouwenaars, R. (2018).
Valorization of metallurgical slag for the treatment of
water pollution: an emerging technology for resource
conservation and re-utilization. Journal of Sustainable
Metallurgy, 4, 50–67.
Nippon Steel, 2024, Promotion of innovative technology
development (https://www.nipponsteel.com/en/csr
/env/warming/future.html)
Pasetto, M., Baliello, A., Giacomello, G., &Pasquini, E.
(2017). Sustainable solutions for road pavements: A
multi-scale characterization of warm mix asphalts con-
taining steel slags. Journal of Cleaner Production, 166,
835–843.
REDMS, Product Profile, IMSC Group,https://www.imsc
-group.com/rare-earth-drum-magnetic-separators
(page accessed on 22nd May 2024).
Tang, Z., Liang, J., Jiang, W., Liu, J., Jiang, F., Feng, G.,
...&Wang, T. (2020). Preparation of high strength
foam ceramics from sand shale and steel slag. Ceramics
International, 46(7), 9256–9262.
Tripathy, S. K., Singh, V., Murthy, Y. R., Banerjee, P. K.,
&Suresh, N. (2017). Influence of process param-
eters of dry high intensity magnetic separators on
separation of hematite. International Journal of Mineral
Processing, 160, 16–31.
Tripathy, S. K., Banerjee, P. K., Suresh, N., Murthy, Y. R.,
&Singh, V. (2017a). Dry high-intensity magnetic sep-
aration in mineral industry—a review of present status
and future prospects. Mineral Processing and Extractive
Metallurgy Review, 38(6), 339–365.
Tripathy, S. K., Rao, D. S., Eswaraiah, C., &Sahoo, D.
(2021). Applied Mineralogical Investigation on the
Nature of Phosphorous in the Basic Oxygen Furnace
Slag. Transactions of the Indian Institute of Metals, 74(9),
2319–2334.
Wan, J., Du, H., Gao, F., Wang, S., Gao, M., Liu, B., &
Zhang, Y. (2021). Direct leaching of vanadium from
vanadium-bearing steel slag using NaOH solutions: a
case study. Mineral Processing and Extractive Metallurgy
Review, 42(4), 257–267.
WSA, (2021). Steel industry co-products, Fact Sheet, World
Steel Association, Brussels, Belgium, Apr. 2021.
Wu, Q., &Huang, Z. (2021). Preparation and performance
of lightweight porous ceramics using metallurgical steel
slag. Ceramics International, 47(18), 25169–25176.
Wu, Z. Huang, Wu, Q., &Huang, Z. (2021). Preparation
and performance of lightweight porous ceramics using
metallurgical steel slag. Ceramics International, 47(18),
25169–25176.
Zhang, J., Zhang, W., &Xue, Z. (2017). Oxidation kinet-
ics of vanadium slag roasting in the presence of calcium
oxide. Mineral Processing and Extractive Metallurgy
Review, 38(5), 265–273.
Zheng, Y., Luo, X., Yang, J., Huo, W., &Kang, C.
(2020). A novel approach to fabricate foam ceram-
ics from steel slag. Advances in Materials Science and
Engineering, 2020, 1–7.
Zhu, L. (2020). Influence of waste residue treatment in
metallurgical iron and steel plant on environmental
protection. China Metal Bull., 191–192.
Lv, N. N., Chen, H., Su, C., Wang, H. C., Dong, Y. C., &
Wu, L. S. (2023). Kinetics Investigation of Phosphorus
Leaching from Steelmaking Slag. Mineral Processing
and Extractive Metallurgy Review, 44(8), 571–576.
Martins, A. C. P., De Carvalho, J. M. F., Costa, L. C. B.,
Andrade, H. D., de Melo, T. V., Ribeiro, J. C. L., &
Peixoto, R. A. F. (2021). Steel slags in cement-based
composites: An ultimate review on characteriza-
tion, applications and performance. Construction and
Building Materials, 291, 123265.
Menad, N., Kanari, N., &Save, M. (2014). Recovery of
high grade iron compounds from LD slag by enhanced
magnetic separation techniques. International Journal
of Mineral Processing, 126, 1–9.
Mercado-Borrayo, B. M., González-Chávez, J. L.,
Ramírez-Zamora, R. M., &Schouwenaars, R. (2018).
Valorization of metallurgical slag for the treatment of
water pollution: an emerging technology for resource
conservation and re-utilization. Journal of Sustainable
Metallurgy, 4, 50–67.
Nippon Steel, 2024, Promotion of innovative technology
development (https://www.nipponsteel.com/en/csr
/env/warming/future.html)
Pasetto, M., Baliello, A., Giacomello, G., &Pasquini, E.
(2017). Sustainable solutions for road pavements: A
multi-scale characterization of warm mix asphalts con-
taining steel slags. Journal of Cleaner Production, 166,
835–843.
REDMS, Product Profile, IMSC Group,https://www.imsc
-group.com/rare-earth-drum-magnetic-separators
(page accessed on 22nd May 2024).
Tang, Z., Liang, J., Jiang, W., Liu, J., Jiang, F., Feng, G.,
...&Wang, T. (2020). Preparation of high strength
foam ceramics from sand shale and steel slag. Ceramics
International, 46(7), 9256–9262.
Tripathy, S. K., Singh, V., Murthy, Y. R., Banerjee, P. K.,
&Suresh, N. (2017). Influence of process param-
eters of dry high intensity magnetic separators on
separation of hematite. International Journal of Mineral
Processing, 160, 16–31.
Tripathy, S. K., Banerjee, P. K., Suresh, N., Murthy, Y. R.,
&Singh, V. (2017a). Dry high-intensity magnetic sep-
aration in mineral industry—a review of present status
and future prospects. Mineral Processing and Extractive
Metallurgy Review, 38(6), 339–365.
Tripathy, S. K., Rao, D. S., Eswaraiah, C., &Sahoo, D.
(2021). Applied Mineralogical Investigation on the
Nature of Phosphorous in the Basic Oxygen Furnace
Slag. Transactions of the Indian Institute of Metals, 74(9),
2319–2334.
Wan, J., Du, H., Gao, F., Wang, S., Gao, M., Liu, B., &
Zhang, Y. (2021). Direct leaching of vanadium from
vanadium-bearing steel slag using NaOH solutions: a
case study. Mineral Processing and Extractive Metallurgy
Review, 42(4), 257–267.
WSA, (2021). Steel industry co-products, Fact Sheet, World
Steel Association, Brussels, Belgium, Apr. 2021.
Wu, Q., &Huang, Z. (2021). Preparation and performance
of lightweight porous ceramics using metallurgical steel
slag. Ceramics International, 47(18), 25169–25176.
Wu, Z. Huang, Wu, Q., &Huang, Z. (2021). Preparation
and performance of lightweight porous ceramics using
metallurgical steel slag. Ceramics International, 47(18),
25169–25176.
Zhang, J., Zhang, W., &Xue, Z. (2017). Oxidation kinet-
ics of vanadium slag roasting in the presence of calcium
oxide. Mineral Processing and Extractive Metallurgy
Review, 38(5), 265–273.
Zheng, Y., Luo, X., Yang, J., Huo, W., &Kang, C.
(2020). A novel approach to fabricate foam ceram-
ics from steel slag. Advances in Materials Science and
Engineering, 2020, 1–7.
Zhu, L. (2020). Influence of waste residue treatment in
metallurgical iron and steel plant on environmental
protection. China Metal Bull., 191–192.