Microwave energy was demonstrated to be potentially beneficial for reducing the cost of several steps of the mining process. Significant literature was developed about this topic but few studies are focused on understanding the interaction between microwaves and minerals at a fundamental level in order to elucidate the underlying physical processes that control the observed phenomena. This is ascribed to the complexity of such phenomena, related to chemical and physical transformations, where electrical, thermal and mechanical forces play concurrent roles. In this work a new characterization method for the dielectric properties of mineral samples at microwave frequencies is presented. The method is based upon the scanning microwave microsco...
In this study, the applications of microwave energy in gold ore processing were investigated. An inv...
This paper describes traceable measurements of the dielectric permittivity and loss tangent of a mul...
http://deepblue.lib.umich.edu/bitstream/2027.42/8029/5/bad4510.0001.001.pdfhttp://deepblue.lib.umich...
Microwave energy was demonstrated to be potentially beneficial for reducing the cost of several step...
[EN] The identification of the minerals composing rocks and their dielectric characterization is ess...
High power density microwave treatments on metalliferous ores have historically been shown to reduce...
This paper presents a review of the application of microwave energy in the field of mineral processi...
"As part of the research effort on investigating the effects of microwave energy on the chemical and...
Includes bibliography.Microwave measurement techniques have found many industrial and commercial app...
"This report describes a method the Bureau of Mines devised for measuring the dielectric constant an...
"As part of the research effort on investigating the effects of microwave energy upon the chemical a...
Between 50% and 70% of the total energy used in the extraction process may be attributed to comminut...
Microwave energy has previously been shown to have a major influence on the comminution behaviour of...
Ore comminution is an energy intensive and inefficient process in which new innovative technologies ...
Recent research developments have suggested that microwave assisted comminution could provide a step...
In this study, the applications of microwave energy in gold ore processing were investigated. An inv...
This paper describes traceable measurements of the dielectric permittivity and loss tangent of a mul...
http://deepblue.lib.umich.edu/bitstream/2027.42/8029/5/bad4510.0001.001.pdfhttp://deepblue.lib.umich...
Microwave energy was demonstrated to be potentially beneficial for reducing the cost of several step...
[EN] The identification of the minerals composing rocks and their dielectric characterization is ess...
High power density microwave treatments on metalliferous ores have historically been shown to reduce...
This paper presents a review of the application of microwave energy in the field of mineral processi...
"As part of the research effort on investigating the effects of microwave energy on the chemical and...
Includes bibliography.Microwave measurement techniques have found many industrial and commercial app...
"This report describes a method the Bureau of Mines devised for measuring the dielectric constant an...
"As part of the research effort on investigating the effects of microwave energy upon the chemical a...
Between 50% and 70% of the total energy used in the extraction process may be attributed to comminut...
Microwave energy has previously been shown to have a major influence on the comminution behaviour of...
Ore comminution is an energy intensive and inefficient process in which new innovative technologies ...
Recent research developments have suggested that microwave assisted comminution could provide a step...
In this study, the applications of microwave energy in gold ore processing were investigated. An inv...
This paper describes traceable measurements of the dielectric permittivity and loss tangent of a mul...
http://deepblue.lib.umich.edu/bitstream/2027.42/8029/5/bad4510.0001.001.pdfhttp://deepblue.lib.umich...