Development of a sustainable Cu-nano-cutting fluid based on rice bran oil for superior heat management and wear reduction. [PDF]
Sci RepYadav SK, Kannan KR, Tilahun W.
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Hybrid cryo-nano MQL strategy for sustainable and high-performance machining of Monel 400. [PDF]
Sci RepRao GN +9 more
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Synthesis and evaluation of selenium-doped nanocomposites in enhancing drilling fluid properties. [PDF]
Discov NanoDeng L +13 more
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Enhancing Hard Turning performance on AISI 02 Steel with CuO Nano Cutting Fluids
Abstract This research investigates the machinability of AISI 02 tool steel under various lubrication conditions, focusing on the application of Minimum Quantity Lubrication (MQL) and an innovative Cupric oxide (CuO)-based nanofluid. A temperature and tool wear investigation were undertaken for machining environment.
Mohamed Bacha +4 more
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Effect of Cooling/Lubrication Conditions on Machining Performance: An Experimental Investigation of 1040 Steel Under Dry, MQL, and Nano-MQL Environments. [PDF]
Materials (Basel)Salur E +5 more
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CBN cutting tool's surface roughness and tool wear prediction using JOA-optimized CNN-LSTM. [PDF]
Sci RepKhetre S, Bongale A, Kumar S.
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Data-driven optimization of machining parameters for Hastelloy C276 using PSO and TLBO frameworks. [PDF]
Sci RepAbualhaj MM +9 more
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Effect of Waste Micro-Particles on Metalworking Fluid Efficiency and Biodegradation During the Cutting Process. [PDF]
Materials (Basel)Dvorackova S +5 more
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Sustainable machining of heat resistant superalloys using hybrid nanofluid based minimum quantity lubrication. [PDF]
Sci RepChohan JS +7 more
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