Funder
Kementerian Riset Teknologi Dan Pendidikan Tinggi Republik Indonesia
Publisher
Springer Science and Business Media LLC
Reference29 articles.
1. Li YJ, Yu HC, Wang DQ, Yin WX, Bai YS (2010) The current status of laterite ore resources and its processing technology. Jinshu Kuangshan/Metal Mine 11:5–9
2. Rao MJ, Li GH, Jiang T, Luo J, Zhang YB, Fan XH (2013) Carbothermic reduction of nickeliferous laterite ores for nickel pig iron production in China: a review. JOM 65(11):1573–1583. https://doi.org/10.1007/s11837-013-0760-7
3. Wang CY, Yin F, Chen YQ, Wang Z, Wang J (2008) Worldwide processing technologies and progress of nickel laterites. Chinese J Nonferrous Metals 18(S1):1–8
4. Dalvi AD, Bacon WG, Osborne RC (2004) The past and the future of nickel laterites. PDAC 2004 Int. Conf. Trade Show and Investors Exchange, Toronto, 7–10 March, 1–27
5. Bahfie F, Manaf A, Astuti W, Nurjaman F, Prasetyo E, Sumardi S (2022) Characterization of thermal upgrading of nickel from limonite by selective reduction. Izvestiya Ferrous Metallurgy 65(7):471–478. https://doi.org/10.17073/0368-0797-2022-7-471-478. Бaxфи Ф., Maнaф A., Acтyти B., Hypджaмaн Ф., Пpaceтиo Э., Cyмapди C. Tepмичecкoe oбoгaщeниe никeля из лимoнитa мeтoдoм ceлeктивнoгo вoccтaнoвлeния. Извecтия вyзoв. Чepнaя мeтaллypгия. 2022; 65(7): 471–478. https://doi.org/10.17073/0368-0797-2022-7-471-478