Role Of Molecular Architecture And Chain Length In The Flotation-Separation Of Oxidised Copper-Lead-Zinc Minerals Using Salicylaldoxime Derivatives

Society for Mining, Metallurgy & Exploration

Kalyan K. Das Pradip B. Suresh

Organization:: Society for Mining, Metallurgy & Exploration
Pages:: 4
File Size:: 225 KB
Publication Date:: Jan 1, 1995

Abstract

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A series of salicylaldoxime derivatives with alkyl group substitution in the main chain and the side chain were synthesized and evaluated for the flotation of malachite, cerussite and smithsonite. The effect of chain length and the position of the substituent group on the selectivity of separation amongst oxidized copper, lead and zinc minerals are discussed in this paper.

Citation

APA: Kalyan K. Das Pradip B. Suresh (1995) Role Of Molecular Architecture And Chain Length In The Flotation-Separation Of Oxidised Copper-Lead-Zinc Minerals Using Salicylaldoxime Derivatives

MLA: Kalyan K. Das Pradip B. Suresh Role Of Molecular Architecture And Chain Length In The Flotation-Separation Of Oxidised Copper-Lead-Zinc Minerals Using Salicylaldoxime Derivatives. Society for Mining, Metallurgy & Exploration, 1995.

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