"A Comparison Of Liberation Determinations By Particle Area Percentage And Exposed Particle Perimeter Percentage In A Flotation Concentrator"
written by R. Lastra,
published by Journal of Minerals and Materials Characterization and Engineering, Vol.1 No.1, 2002
has been cited by the following article(s):
  • Google Scholar
  • CrossRef
[1] The effect of mineral grain textures at particle surfaces on flotation
[2] Effect of VRM on a polymetallic sulfide ore and the flotation response as compared to conventional wet and dry rod milling
[3] Stereological correction of perimeter based estimates of exposed grain surface area
Minerals Engineering, 2018
[4] Correlación empírica del grado/recuperación en función del tamaño y textura mineral de las partículas de cobre
[5] The effect of mineral grain textures at particle surfaces on flotation response
[6] An estimation of the variability in automated quantitative mineralogy measurements through inter-laboratory testing
Minerals Engineering, 2016
[7] Flotation of coarse composite particles in mechanical cell vs. the fluidised-bed separator (The HydroFloat™)
Minerals Engineering, 2015
[8] Characterisation of coarse composite sphalerite particles with respect to flotation
Minerals Engineering, 2015
[9] Estudo de liberação das fases minerais em minérios de ferro.
[10] Automated characterisation of intergrowth textures in mineral particles. A case study
Minerals Engineering, 2013
[11] Textural Descriptors for Multiphasic Ore Particles
Image Analysis and Stereology, 2012
[12] Prediction and influence of mineral liberation on froth flotation performance
[13] Mineralogical characterisation of naturally floatable gangue in Merensky Reef ore flotation
International Journal of Mineral Processing, 2009
[14] Limitations to Recovery in the Flotation of Sulfide Ores
[15] Influence des propriétés superficielles de la pyrite sur la rétention de molécules organiques soufrées: Application à la désulfuration des résidus miniers
[16] Quantitative measurement of exposed area by image analysis of particle cross-section