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Vishal Mahale
Vishal Mahale
Saint-Gobain Research (SGR) India. Chennai- 600113, India.
Dirección de correo verificada de saint-gobain.com
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Effects of aramid fiber concentration on the friction and wear characteristics of non-asbestos organic friction composites using standardized braking tests
N Aranganathan, V Mahale, J Bijwe
Wear 354, 69-77, 2016
1212016
A step towards replacing copper in brake-pads by using stainless steel swarf
V Mahale, J Bijwe, S Sinha
Wear 424, 133-142, 2019
532019
Efforts towards green friction materials
V Mahale, J Bijwe, S Sinha
Tribology International 136, 196-206, 2019
452019
Influence of nano-potassium titanate particles on the performance of NAO brake-pads
V Mahale, J Bijwe, S Sinha
Wear 376, 727-737, 2017
422017
Exploration of plasma treated stainless steel swarf to reduce the wear of copper-free brake-pads
V Mahale, J Bijwe
Tribology International 144, 106111, 2020
292020
Application and comparative study of new optimization method for performance ranking of friction materials
V Mahale, J Bijwe, S Sinha
Proceedings of the Institution of Mechanical Engineers, Part J: Journal of …, 2018
232018
Studies on friction mechanism of NAO brake-pads containing potassium titanate powder as a theme ingredient
V Mahale, J Bijwe, S Sinha
SAE International Journal of Materials and Manufacturing 11 (1), 43-56, 2018
82018
Role of thermal conductivity in controlling the tribo-performance of non-asbestos organic brake-pads
V Mahale, J Bijwe
Journal of Composite Materials 54 (27), 4145-4155, 2020
62020
The effect of wollastonite silane-treatment on mechanical and tribological performance of NAO brake-pads
MMA Abdel-Latif, NSM El-Tayeb, V Mahale, J Bijwe
International Journal of Surface Science and Engineering 13 (4), 293-316, 2019
52019
Development of copper free nao brake pads
VT Mahale
Delhi, 2019
2019
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