{"title":"应用矿冶废弃物提高硬化回填料组分活化效率","authors":"Y. Dmitrak, V. Golik, V. Franchuk, V. Lyashenko","doi":"10.32339/0135-5910-2021-10-1023-1031","DOIUrl":null,"url":null,"abstract":"The main operation associated with the preparation of mining and metallurgical wastes for use as a hardening mixture and backfilling of mined-out space is their crushing and activation. Improving the activation processes is an urgent task, since their use can significantly increase the strength of the filling mass or reduce the consumption of the binder while maintaining its strength characteristics. For the efficient operation of mining enterprises, including ferrous metallurgy mines, it is necessary to provide highquality binders for the preparation of hardening mixtures for filling man-made voids formed during underground mining of solid mineral deposits. It has been established that the use of vibration, mechanical and electrical activation of the components of the hardening backfill mixture at mining enterprises leads to an increase in the activity of substandard materials by up to 10–40% for each apparatus. In particular, the enrichment of inert materials on a vibrating screen ГВ-1,2/3,2, Ukraine, increases the activity by 15– 20%. It has been substantiated that the activation of binders (blast-furnace granular slags) in a vertical vibrating mill МВВ-0,7, Ukraine, and a disintegrator ДУ-65 company “Disintegrator”, Estonia, increases the activity of the binder by 20–25%, when the active class of fractions 0.074 mm – by 55% is released versus 40% in ball mills. The recommended vibratory conveying installations increase the activity of the components of the hardening backfill mixture by 10–15%. The use of vibro-gravity transport installations ensures the supply of the filling mixture at a distance 15–20 times higher than the height of the vertical stack.","PeriodicalId":259995,"journal":{"name":"Ferrous Metallurgy. Bulletin of Scientific , Technical and Economic Information","volume":"122 1","pages":"0"},"PeriodicalIF":0.0000,"publicationDate":"2021-10-12","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"1","resultStr":"{\"title\":\"Increase of activation efficiency of hardening backfilling mixture components by application mining and metallurgical wastes\",\"authors\":\"Y. Dmitrak, V. Golik, V. Franchuk, V. Lyashenko\",\"doi\":\"10.32339/0135-5910-2021-10-1023-1031\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"The main operation associated with the preparation of mining and metallurgical wastes for use as a hardening mixture and backfilling of mined-out space is their crushing and activation. Improving the activation processes is an urgent task, since their use can significantly increase the strength of the filling mass or reduce the consumption of the binder while maintaining its strength characteristics. For the efficient operation of mining enterprises, including ferrous metallurgy mines, it is necessary to provide highquality binders for the preparation of hardening mixtures for filling man-made voids formed during underground mining of solid mineral deposits. It has been established that the use of vibration, mechanical and electrical activation of the components of the hardening backfill mixture at mining enterprises leads to an increase in the activity of substandard materials by up to 10–40% for each apparatus. In particular, the enrichment of inert materials on a vibrating screen ГВ-1,2/3,2, Ukraine, increases the activity by 15– 20%. It has been substantiated that the activation of binders (blast-furnace granular slags) in a vertical vibrating mill МВВ-0,7, Ukraine, and a disintegrator ДУ-65 company “Disintegrator”, Estonia, increases the activity of the binder by 20–25%, when the active class of fractions 0.074 mm – by 55% is released versus 40% in ball mills. The recommended vibratory conveying installations increase the activity of the components of the hardening backfill mixture by 10–15%. The use of vibro-gravity transport installations ensures the supply of the filling mixture at a distance 15–20 times higher than the height of the vertical stack.\",\"PeriodicalId\":259995,\"journal\":{\"name\":\"Ferrous Metallurgy. 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引用次数: 1
摘要
采矿和冶金废料制备作为硬化混合物和采空区回填的主要工序是它们的破碎和活化。改进活化工艺是一项紧迫的任务,因为它们的使用可以显着提高填充质量的强度或减少粘合剂的消耗,同时保持其强度特性。为了矿山企业(包括黑色冶金矿山)的高效运行,需要为固体矿床地下开采过程中形成的人为空洞制备硬化混合物提供高质量的粘结剂。已经确定,在矿山企业中使用振动、机械和电活化硬化回填混合物的成分,导致每台设备中不合格材料的活性增加高达10-40%。特别是,在乌克兰的振动筛ГВ-1,2/3,2上富集惰性物质,使活性增加了15 - 20%。已经证实,在乌克兰的垂直振动磨МВВ-0和爱沙尼亚的“解体机”ДУ-65公司中,结合剂(高炉颗粒渣)的活化使结合剂的活性增加了20-25%,当0.074 mm - 55%的活性级分数释放时,而在球磨机中则为40%。推荐的振动输送装置可使硬化回填混合物组分的活性提高10-15%。振动重力输送装置的使用确保了填料混合物在比垂直堆高15-20倍的距离上的供应。
Increase of activation efficiency of hardening backfilling mixture components by application mining and metallurgical wastes
The main operation associated with the preparation of mining and metallurgical wastes for use as a hardening mixture and backfilling of mined-out space is their crushing and activation. Improving the activation processes is an urgent task, since their use can significantly increase the strength of the filling mass or reduce the consumption of the binder while maintaining its strength characteristics. For the efficient operation of mining enterprises, including ferrous metallurgy mines, it is necessary to provide highquality binders for the preparation of hardening mixtures for filling man-made voids formed during underground mining of solid mineral deposits. It has been established that the use of vibration, mechanical and electrical activation of the components of the hardening backfill mixture at mining enterprises leads to an increase in the activity of substandard materials by up to 10–40% for each apparatus. In particular, the enrichment of inert materials on a vibrating screen ГВ-1,2/3,2, Ukraine, increases the activity by 15– 20%. It has been substantiated that the activation of binders (blast-furnace granular slags) in a vertical vibrating mill МВВ-0,7, Ukraine, and a disintegrator ДУ-65 company “Disintegrator”, Estonia, increases the activity of the binder by 20–25%, when the active class of fractions 0.074 mm – by 55% is released versus 40% in ball mills. The recommended vibratory conveying installations increase the activity of the components of the hardening backfill mixture by 10–15%. The use of vibro-gravity transport installations ensures the supply of the filling mixture at a distance 15–20 times higher than the height of the vertical stack.