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Keyword [minimum quantity lubrication]
Result: 1 - 20 | Page: 1 of 4
1. Study On The Mechanism Of MQL Cutting And Its Application Fundament
2. Research Of Electrical Discharge Machining In Mist Based On MQL
3. Research On The Minimum Quantity Lubrication Cutting Technology Based Effervescent Atomization
4. Numerical Simulation Of Internal Two-Phase Flow For Effervescent Atomizer And Experimental Study On MQL Machining Performances
5. Study On High Speed MQL Turning Of Titanium Alloy With Different Coated Tools
6. Experimental Research On Turning Process And Surface Integrity With Minimum Quantity Lubrication
7. The Multi-parameter Disquisition Of High-speed Grinding Which Is Based On Minimum Quantity Lubrication Cooling Method
8. Lubrication Mechanismand Experimentalstudy Of Fluid Field Charcteristics Under Gringding Using MQL By Nanopaticles Jet
9. The Mechanism Of Convective Heat Transfer And Experimental Investigation In Grinding Nickel-base Superalloy By Nanoparticle Jet MQL
10. Predictive Modeling Of Residual Stress In Minimum Quantity Lubrication Machining
11. Analysis Of Flow Field For Minimum Quantity Lubrication And Experimental Study On Outer Thread Turning Performances
12. Generating Mechanism And Experimental Investigation On Surface Topography In The Grinding Process Using MQL By Nanopaticles Jet
13. The Experimental Research Of Al2O3Ceramic Tool Under Minimum Quantity Lubrication
14. Experimental Investigation On Grinding-hardening With Minimum Quantity Lubrication-MQL Technology
15. Numerical And Experimental Study On The Atomization Of The Nozzle Used In Minimum Quantity Lubrication Grinding
16. Theoretical Analysis And Experimental Rasearch Of Grinding Temperature And Convective Heat Transfer Mechanism On Nanofluids Minimal Quantities Of Lubrication
17. Tribological Performance And Experimental Study Of The Wheel/Workpiece Interface In MQL Grinding Using Nanofluids
18. Study On Test Of The Coated Tool Cutting Stainless Under Cryogenic Minimal Quantity Lubrication
19. Experiment Investigation On The Lubrication Performance And Grinding Maching Performance Of Cryogenic Nanofluid
20. Effects Of The Micro/nano Textured Tool Surface Wettability On The Antifriction Performance
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