• Title/Summary/Keyword: 롤 크럿셔

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Particle-Size Distribution Dependent upon Crushing Mechanism and Crushing Circuit (파쇄 메카니즘과 파쇄회로에 따른 입도분포)

  • Choi, Do-Young;Kim, Wan-Tae;Kim, Sang-Bae
    • Journal of the Mineralogical Society of Korea
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    • v.23 no.4
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    • pp.297-303
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    • 2010
  • We report the particle-size distribution and comminution charactersitics of dolomite depending upon crushing equipment (hammer crusher and roll crusher) and crushing circuit (open and closed). The quantity of fine particles (< 100 mesh) produced by hammer crusher was 34 wt.% which is about three times that by roll crusher. The quantity of 14~25 mesh size fraction by roll crusher was 20 wt.% higher than that produced by hammer crusher. 80 wt.% of the crushing products by hammer crushing was under 35 mesh in size, while the particles produced by roll crushing were relatively coarse. The particle size of both the hammer and roll crushers decreased by employing closed crusing circuit in comparison to open circuit. Products of required particle-size were obtained effectively depending on appropriate crushing equipment and crushing circuit.

Recovery of Tantalum Anode from Waste Tantalum Condenser by Air Classification (공기분급에 의한 폐콘덴서로부터 탄탈륨 회수)

  • Kim Sang-Bae;Cho Sung-Baek;Cho Keon-Joon;Kim Yoon-Jong;Lee Jae-Chun;Kim Won-Baek
    • Resources Recycling
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    • v.12 no.3
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    • pp.3-12
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    • 2003
  • Physical separation containing grinding, sieving, dry magnetic separation and air classification were carried out in order to recover Ta anode from waste Ta condenser. Roll crusher wat used for the liberation of resin and metals in closed circuit system. The liberation between Ta anode and resin was easily achieved, whereat some of metals did not liberated from the Ta anode when the waste condenser was crushed below 8 mesh. When the crushed sample were divided into 8/10 mesh, 10/18 mesh and -18 mesh, metals was mainly remained in 8/10 mesh in contrast to Ta anode was in +18 mesh. It was shown that resin was more easily crushed rather than metals from the result of that resin content was 71.5% in -18 mesh. The liberation efficiency was different with the input size of the crushed sample and average efficiency was 62.3% due to the locked Ta anode particles. The results of air classification test for the crushed samples showed that optimal air flow are 39㎥/h, 32㎥/h, 20㎥/h. respectively. When the sample were separated with optimal condition, 94.45% Ta anode containing 97.47 wt.% Ta anode, 0.93 wt.% resin. 1.61 wt.% metal was recovered with 49.39 wt.% yield.