Efficiency of mineral additives to binding component for making hardening mixtures at underground operations-Reference-Cited by-同舟云学术

Efficiency of mineral additives to binding component for making hardening mixtures at underground operations

Published:2021-06-21 Issue:6 Volume:77 Page:643-650
ISSN:2619-0753
Container-title:Ferrous Metallurgy. Bulletin of Scientific , Technical and Economic Information
language:
Short-container-title:Černaâ metallurgiâ. Bûlletenʹ naučno-tehničeskoj informacii

Author:

Golik V. I.¹,Razorenov Yu. I.¹,Vagin V. S.¹,Lyashenko V. I.²

Affiliation:

1. South-Russian State Polytechnical University

2. Ukrainian R&D, Design and Survey Institute of industrial technology

Abstract

For effective operation of mining enterprises, including mines of ferrous metallurgy, supply of quality binding components is necessary to make hardening mixtures for packing of goave, aroused at underground development of hard mineral deposits. Results of the study of compositions based on ash-cement, nepheline, belit-aluminates and lime binding component made of mining and metallurgical production wastes presented. Application of vibro-, mechanical- and electrochemical activation methods to obtain filling mixtures from local low-quality raw materials, as well as activation of binding components were analyzed. A model to evaluate efficiency of binding additives presented. It was shown that decrease of cement consumption by addition of binding components of mineral origin requires perfection of mining processes, first of all, grinding and activation. It was proved, that additions of electric filters ash, nephelines, belit-aluminates and lime, obtained by utilization of current and old tailings to the basic binding component – portland cement – makes it possible to obtain hardening filling mixtures, having high enough strength to apply them at goave packing. Application of the study results makes it perspective for depressed mining and related enterprises to survive under conditions of the forming market.

Publisher

JSC Chermetinformatsia

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