Add to ORKGIn this paper chalcopyrite, CuFeS2, has been selective leached by H2SO4 as leaching agent (170 g/dm3) in procedure of hydrometallurgical production of copper. Mechanical activation of the chalcopyrite resulted in mechanochemical surface oxidation as well as in the mineral surface and bulk disordering. Furthermore, the formation of agglomerates during grinding was also occured. Surface changes of the samples using infrared spectroscopy and scanning electron microscopy methods were investigated before and after leaching. The leaching rate, specific surface area, structural disorder as well as copper extraction increased with the mechanical activation of mineral
The results of chalcopyrite concentrate processing using low-temperature and high-temperature sulfur...
There is a well-established trend in copper hydrometallurgy to develop processes for the treatment ...
Chalcopyrite (CuFeS2) is the most abundant and the most economically important copper mineral. Incre...
In this paper chalcopyrite, CuFeS2, has been selective leached by H2SO4 as leaching agent (170 g/dm3...
In the presented work, possibilities of intensification of copper leaching from chalcopyrite CuFeS2 ...
In the modern practice of copper production, more and more attention is paid to the possibility of t...
This work presents the effect of mechanochemical activation in an attrition mill, in water medium an...
Chalcopyrite (CuFeS2) is one of the most abundant sulfide minerals in the world copper deposit. It i...
The effect of mechanical activation on the leaching and electrochemistry of chalcopyrite was investi...
Chalcopyrite (CuFeS2) is the primary ore mineral for copper, but leaching of this mineral under atmo...
The effect of mechanical activation on the copper leaching of copper sulfide, CuS, in 1 M HNO3 (slur...
During the chalcopyrite leaching by sodium nitrate and sulfuric acid solution, leaching rate decreas...
To better understand chalcopyrite leach mechanisms and kinetics, for improved Cu extraction during h...
Sulfate-based leaching processes for chalcopyrite (CuFeSa) are attractive because of their inherent...
This study has been concerned with developing novel reduction leach methods for chalcopyrite (CuFeS₂...
The results of chalcopyrite concentrate processing using low-temperature and high-temperature sulfur...
There is a well-established trend in copper hydrometallurgy to develop processes for the treatment ...
Chalcopyrite (CuFeS2) is the most abundant and the most economically important copper mineral. Incre...
In this paper chalcopyrite, CuFeS2, has been selective leached by H2SO4 as leaching agent (170 g/dm3...
In the presented work, possibilities of intensification of copper leaching from chalcopyrite CuFeS2 ...
In the modern practice of copper production, more and more attention is paid to the possibility of t...
This work presents the effect of mechanochemical activation in an attrition mill, in water medium an...
Chalcopyrite (CuFeS2) is one of the most abundant sulfide minerals in the world copper deposit. It i...
The effect of mechanical activation on the leaching and electrochemistry of chalcopyrite was investi...
Chalcopyrite (CuFeS2) is the primary ore mineral for copper, but leaching of this mineral under atmo...
The effect of mechanical activation on the copper leaching of copper sulfide, CuS, in 1 M HNO3 (slur...
During the chalcopyrite leaching by sodium nitrate and sulfuric acid solution, leaching rate decreas...
To better understand chalcopyrite leach mechanisms and kinetics, for improved Cu extraction during h...
Sulfate-based leaching processes for chalcopyrite (CuFeSa) are attractive because of their inherent...
This study has been concerned with developing novel reduction leach methods for chalcopyrite (CuFeS₂...
The results of chalcopyrite concentrate processing using low-temperature and high-temperature sulfur...
There is a well-established trend in copper hydrometallurgy to develop processes for the treatment ...
Chalcopyrite (CuFeS2) is the most abundant and the most economically important copper mineral. Incre...