Abstract
Atomic force microscopy (AFM) and contact angle measurements were used to study the role of dodecyltrimethylammonium bromide (DTAB) and sodium dodecyl sulphate (SDS) in bubble-particle attachment. The results show that the forces between bubbles and the hydrophilic glass particle were always repulsive in the absence of DTAB and SDS. An attractive hydrophobic force was induced when the particles became hydrophobic, and the force was proportional to the water contact-angle. In the presence of DTAB and SDS, the cationic head group of DTAB adsorbed onto the negative hydrophilic glass surface as a monolayer and thus induced a hydrophobic force. However, at a high DTAB concentration, the DTAB molecules began to adsorb as a bilayer, reverting back to a hydrophilic surface. The hydrophobic force disappeared and the water film between the bubble and particle was stabilised under the repulsive double-layer force. The anionic SDS molecules could not adsorb onto the hydrophilic glass surface. The repulsive force always dominated the bubble-particle interaction. In the case of hydrophobic glass, the hydrophobic force decreased, and even disappeared, with the addition of DTAB and SDS. All the findings from the AFM force curves were consistent with the attachment behaviour and contact angle results.
Highlights
Froth flotation is one of the most commonly used separation methods for fine particles and is based on the difference in wetting properties [1,2,3,4]
Atomic force microscopy (AFM) and contact angle measurements were used to study the role of dodecyltrimethylammonium bromide (DTAB) and sodium dodecyl sulphate (SDS) in AFM and attachment
(1) The forces between the bubble and hydrophilic glass particle were always repulsive in the absence of DTAB and SDS
Summary
Froth flotation is one of the most commonly used separation methods for fine particles and is based on the difference in wetting properties [1,2,3,4]. It is always used for concentrating mineral particles below 0.5 mm in the mining industry. Before flotation, crushing and grinding are necessary steps to achieve the liberation of the valuable components from the gangue [5]. These fine particles are mixed with water and conditioned with appropriate reagents. Only hydrophobic particles can be captured by the rising bubbles in a flotation cell [8,9]
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