Add to ORKGThe flotation of rutile can be enhanced using lead ion as an activator. However, the binding behavior of collector on the activated rutile surface is still not fully understood. In this work, flotation and theoretical calculation approaches were employed to evaluate the activation behavior of lead ion in the flotation of rutile with octyl hydroxamic acid (OHA). Flotation results indicated that the activation flotation with lead ion should be conducted at pH 6.5. The binding features of OHA molecule on the inactivated and Pb-activated rutile surfaces were both investigated by density functional theory (DFT) studies. The OHA molecule may dissociate into OHA− anion on the inactivated rutile surface, generating a new Ti–O bond. Differently, the...
To improve the floatability of tungsten minerals, lead ions (lead nitrate) were used to modify the s...
A novel collector, tert-butyl benzohydroxamic acid (TBHA), was first introduced in rhodochrosite flo...
Hydroxyl groups on titanium surfaces have been believed to play an important role in absorbing Ca in...
Lead hydroxyl compounds are known as rutile flotation of the traditional activated component, but th...
The adsorption behavior of lead species on the hydrated rutile surface was investigated with inducti...
In general, the flotation of minerals containing titanium needs to be activated by metal ions due to...
The activation mechanism of lead ions (Pb2+) in perovskite flotation with an octyl hydroxamic acid c...
The activation mechanism of lead ions (Pb2+) in perovskite flotation with an octyl hydroxamic acid c...
The effects of Pb(II) ions and Al(III) ions on the electro kinetic and flotation behavior of rutile ...
The microstructure and mechanism of styryl phosphoric acid (SPA) adsorbed at the rutile–water interf...
In this study the effects and mechanism of lead ions influence on wolframite flotation with benzohyd...
In this study the effects and mechanism of lead ions influence on wolframite flotation with benzohyd...
To study the number of ethylene oxide (EO) groups effect on the flotation of rutile, three collector...
The effect of lead ions on the flotation activation of tantalum niobium ore (TNO) was studied by mic...
In this study, the flotation separation of rutile from almandine using cationic surfactant Octadecyl...
To improve the floatability of tungsten minerals, lead ions (lead nitrate) were used to modify the s...
A novel collector, tert-butyl benzohydroxamic acid (TBHA), was first introduced in rhodochrosite flo...
Hydroxyl groups on titanium surfaces have been believed to play an important role in absorbing Ca in...
Lead hydroxyl compounds are known as rutile flotation of the traditional activated component, but th...
The adsorption behavior of lead species on the hydrated rutile surface was investigated with inducti...
In general, the flotation of minerals containing titanium needs to be activated by metal ions due to...
The activation mechanism of lead ions (Pb2+) in perovskite flotation with an octyl hydroxamic acid c...
The activation mechanism of lead ions (Pb2+) in perovskite flotation with an octyl hydroxamic acid c...
The effects of Pb(II) ions and Al(III) ions on the electro kinetic and flotation behavior of rutile ...
The microstructure and mechanism of styryl phosphoric acid (SPA) adsorbed at the rutile–water interf...
In this study the effects and mechanism of lead ions influence on wolframite flotation with benzohyd...
In this study the effects and mechanism of lead ions influence on wolframite flotation with benzohyd...
To study the number of ethylene oxide (EO) groups effect on the flotation of rutile, three collector...
The effect of lead ions on the flotation activation of tantalum niobium ore (TNO) was studied by mic...
In this study, the flotation separation of rutile from almandine using cationic surfactant Octadecyl...
To improve the floatability of tungsten minerals, lead ions (lead nitrate) were used to modify the s...
A novel collector, tert-butyl benzohydroxamic acid (TBHA), was first introduced in rhodochrosite flo...
Hydroxyl groups on titanium surfaces have been believed to play an important role in absorbing Ca in...