Dinesh G. Bansal scite author profile

An ionic liquid (IL) trihexyltetradecylphosphonium bis(2-ethylhexyl) phosphate has been investigated as a potential antiwear lubricant additive. Unlike most other ILs that have very low solubility in nonpolar fluids, this IL is fully miscible with various hydrocarbon oils. In addition, it is thermally stable up to 347 °C, showed no corrosive attack to cast iron in an ambient environment, and has excellent wettability on solid surfaces (e.g., contact angle on cast iron <8°). Most importantly, this phosphonium-based IL has demonstrated effective antiscuffing and antiwear characteristics when blended with lubricating oils. For example, a 5 wt % addition into a synthetic base oil eliminated the scuffing failure experienced in neat oil and, as a result, reduced the friction coefficient by 60% and the wear rate by 3 orders of magnitude. A synergistic effect on wear protection was observed with the current antiwear additive when added into a fully formulated engine oil. Nanostructure examination and composition analysis revealed a tribo-boundary film and subsurface plastic deformation zone for the metallic surface lubricated by the IL-containing lubricants. This protective boundary film is believed to be responsible for the IL's antiscuffing and antiwear functionality.

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Oil-miscible and non-corrosive phosphonium-based ionic liquids as candidate lubricant additives

Bansal

et al. 2012

Wear

252

224

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Surface engineering to improve the durability and lubricity of Ti–6Al–4V alloy

Bansal

Eryilmaz

Blau

2011

Wear

113

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A method for obtaining the temperature distribution at the interface of sliding bodies

Bansal

Streator

2009

Wear

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Voltage saturation in electrical contacts via viscoplastic creep

Bansal

Streator

2011

Acta Materialia

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Dinesh G. Bansal

Antiwear Performance and Mechanism of an Oil-Miscible Ionic Liquid as a Lubricant Additive

Oil-miscible and non-corrosive phosphonium-based ionic liquids as candidate lubricant additives

Surface engineering to improve the durability and lubricity of Ti–6Al–4V alloy

A method for obtaining the temperature distribution at the interface of sliding bodies

Voltage saturation in electrical contacts via viscoplastic creep

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