连通器是上端开口、下部相连通的容器。其原理是,当连通器内的水不流动时,各容器中的水面总保持相平。岩浆上升的通道形状可以是圆柱状(管状),可以是环状,还可以是板状等(Baker,1998;Legros et al.,2000;Bachmann etal.,2007;Costa et a...连通器是上端开口、下部相连通的容器。其原理是,当连通器内的水不流动时,各容器中的水面总保持相平。岩浆上升的通道形状可以是圆柱状(管状),可以是环状,还可以是板状等(Baker,1998;Legros et al.,2000;Bachmann etal.,2007;Costa et al.,2007)。展开更多
The pulsed power is a potential means for energy saving and presents an alternative to the conventional mechanical communication for minerals.The effect of magnetic pulse treatment on grindability of a magnetite ore w...The pulsed power is a potential means for energy saving and presents an alternative to the conventional mechanical communication for minerals.The effect of magnetic pulse treatment on grindability of a magnetite ore was investigated by grindability tests.The results of the investigation show that the pulsed treatment has little effect on the particle size distribution of the magnetite ore.Significant micro-cracks or fractures are not found by SEM analysis in magnetic pulse treated sample.Magnetic separation of magnetic pulse treated and untreated magnetite ore indicates that iron recovery increases from 81.3% in the untreated sample to 87.7% in the magnetic pulse treated sample,and the corresponding iron grade increases from 42.1% to 44.4%.The results demonstrate that the magnetic pulse treatment does not significantly weaken the mineral grain boundaries or facilitate the liberation of minerals,but is beneficial to magnetic separation.展开更多
文摘连通器是上端开口、下部相连通的容器。其原理是,当连通器内的水不流动时,各容器中的水面总保持相平。岩浆上升的通道形状可以是圆柱状(管状),可以是环状,还可以是板状等(Baker,1998;Legros et al.,2000;Bachmann etal.,2007;Costa et al.,2007)。
基金Projects(N140108001,N150106003)supported by the Fundamental Research Funds for National University of China
文摘The pulsed power is a potential means for energy saving and presents an alternative to the conventional mechanical communication for minerals.The effect of magnetic pulse treatment on grindability of a magnetite ore was investigated by grindability tests.The results of the investigation show that the pulsed treatment has little effect on the particle size distribution of the magnetite ore.Significant micro-cracks or fractures are not found by SEM analysis in magnetic pulse treated sample.Magnetic separation of magnetic pulse treated and untreated magnetite ore indicates that iron recovery increases from 81.3% in the untreated sample to 87.7% in the magnetic pulse treated sample,and the corresponding iron grade increases from 42.1% to 44.4%.The results demonstrate that the magnetic pulse treatment does not significantly weaken the mineral grain boundaries or facilitate the liberation of minerals,but is beneficial to magnetic separation.