Experimental evaluation of the lubrication performance of MoS2/CNT nanofluid for minimal quantity lubrication in Ni-based alloy grinding

“…Significant improvements can be seen in various parameters including energy consumption [102,108], cutting and grinding forces [20,103,108], temperature [121], tool wear [21] and surface quality of the workpiece [21,122]. Recently, a hybrid of MoS2 and CNT nanoparticles was investigated by Zhang et al in the MQL grinding of Ni-based alloy [123] with it being reported that a 6% mass fraction of MoS2/CNT nanoparticles with a ratio of 2:1 offered better lubrication compared with pure nanoparticles. However, this approach is relatively new and in order to obtain maximum efficiency in machining processes, research on -31 -the compatibility between base fluid and nanoparticles, nanofluid and workpiece material, in addition to the lubrication system set up, still need to be investigated.…”

“…Significant improvements were reported in energy consumption [102,108], cutting and grinding forces [20,103,108], temperature [121], tool wear [21] and surface quality of the workpiece [21,122]. Recently, a study was made involving a hybrid of nanoparticles, MoS2 and CNT, in a grinding experiment of nickel based alloy and it was shown that the addition of hybrid nanoparticles led to improved lubricity compared to either of the pure nanoparticle [123]. Therefore, the authors recommend the further investigation of hybrid nanoparticle additives.…”

A review identifying the effectiveness of minimum quantity lubrication (MQL) during conventional machining

“…Significant improvements can be seen in various parameters including energy consumption [102,108], cutting and grinding forces [20,103,108], temperature [121], tool wear [21] and surface quality of the workpiece [21,122]. Recently, a hybrid of MoS2 and CNT nanoparticles was investigated by Zhang et al in the MQL grinding of Ni-based alloy [123] with it being reported that a 6% mass fraction of MoS2/CNT nanoparticles with a ratio of 2:1 offered better lubrication compared with pure nanoparticles. However, this approach is relatively new and in order to obtain maximum efficiency in machining processes, research on -31 -the compatibility between base fluid and nanoparticles, nanofluid and workpiece material, in addition to the lubrication system set up, still need to be investigated.…”

“…Significant improvements were reported in energy consumption [102,108], cutting and grinding forces [20,103,108], temperature [121], tool wear [21] and surface quality of the workpiece [21,122]. Recently, a study was made involving a hybrid of nanoparticles, MoS2 and CNT, in a grinding experiment of nickel based alloy and it was shown that the addition of hybrid nanoparticles led to improved lubricity compared to either of the pure nanoparticle [123]. Therefore, the authors recommend the further investigation of hybrid nanoparticle additives.…”

A review identifying the effectiveness of minimum quantity lubrication (MQL) during conventional machining

“…For example, Mao et al [181][182][183] and Li et al [184][185][186][187][188] conducted the surface grinding experiments of hardened AISI 52100 steel and hardened AISI 1045 steel with MQL containing nanofluids, while Liao et al [189] investigated the use of a cooling fluid containing nanoparticles during grinding titanium alloy Ti-6Al-4V. The peak surface temperature obtained in nanofluid grinding is about 70-100°C lower than that in dry grinding, which is arisen from both the lubrication and cooling effects of the mists in the MQL system [181].…”

Review on grinding-induced residual stresses in metallic materials

“…Zhang et al, 2015;Y. Zhang et al, 2015aY. Zhang et al, , 2015b used molybdenum disulfide (MoS 2 ), carbon nanotube (CNT), aluminum oxide (Al 2 O 3 ) and zirconium oxide (Zr0 2 ) nanoparticles-based grinding fluids in MQL grinding.…”

Dry-dressing for ecological grinding