Enhanced Heat Transfer Mechanism of Nanofluid MQL Cooling Grinding

Enhanced Heat Transfer Mechanism of Nanofluid MQL Cooling Grinding
PDF, ePUB
  • eBook:
    Enhanced Heat Transfer Mechanism of Nanofluid MQL Cooling Grinding
  • Author:
    Changhe Li, Hafiz Muhammad Ali
  • Edition:
    1 edition
  • Categories:
  • Data:
    October 25, 2019
  • ISBN:
    1799815463
  • ISBN-13:
    9781799815464
  • Language:
    English
  • Pages:
    441 pages
  • Format:
    PDF, ePUB

Book Description
In todays modern world, the manufacturing industry is embracing an energy-efficient initiative and adopting green techniques. One aspect that has failed to adopt this scheme is flood grinding. Current flood grinding methods increase the treatment cost of grinding fluid and waste large quantities. In order to remain sustainable and efficient, in-depth research is necessary to study green grinding technologies that can ensure machining precision and surface quality of workpiece and reduce grinding fluid-induced environmental pollution.
Enhanced Heat Transfer Mechanism of Nanofluid MQL Cooling Grinding provides emerging research exploring the theoretical and practical aspects of nanofluid lubrication and its application within grinding flow and green manufacturing. Featuring coverage on a broad range of topics such as airflow distribution, morphology analysis, and lubrication performance, this book is ideally designed for mechanical professionals, engineers, manufacturers, researchers, scientists, academicians, and students seeking current research on clean and low-carbon precision machining methods.

Content

Chapter 1. Introduction
Chapter 2. Enhanced Heat Transfer Mechanism of Nanofluids Minimum Lubrication Grinding
Chapter 3. Machining Mechanism of Minimum Quantity Lubrication Grinding
Chapter 4. Heat Transfer Mechanism of Minimum Quantity Lubrication Grinding
Chapter 5. Finite Element Analysis of Grinding Temperature Field for NMQL in Nickel-Base Alloy Grinding
Chapter 6. Experimental Research on Minimum Quantity Lubrication Surface Grinding With Different Cooling and Lubrication Conditions
Chapter 7. Experimental Research on Grinding Temperature and Energy Ratio Coefficient in MQL Grinding Using Different Types of Vegetables Oils
Chapter 8. Experimental Research on Heat Transfer Performance in MQL Grinding With Different Nanofluids
Chapter 9. Experimental Evaluation on the Effect of Nanofluids Physical Properties With Different Concentrations on Grinding Temperature
Chapter 10. Experimental Research on Grinding Temperature With Different Workpiece Materials
Chapter 11. Experimental Evaluation of the Lubrication Properties of the Wheel/Workpiece Interface in MQL Grinding Using Vegetable Oils
Chapter 12. Experimental Study of Lubricating Property at Grinding Wheel/Workpiece Interface Under NMQL Grinding
Chapter 13. Comparative Study on Tribological Properties of Nanofluids in Friction-Wear Experiments and Grinding Processing
Chapter 14. Experimental Evaluation on Tribological Performance of the Wheel/Workpiece Interface in NMQL Grinding With Different Concentrations of Al2o3 Nanofluids
Chapter 15. Optimization Design of Process Parameters for Different Workpiece Materials in NMQL Grinding With Different Vegetable Oils
Chapter 16. Modeling and Simulation of Surface Topography in Single Abrasive Grain Grinding
Chapter 17. Modeling and Simulation of the Surface Topography Generation With Engineered Grinding Wheel
Chapter 18. Modeling and Simulation of the Surface Topography Generation With Ordinary Grinding Wheel

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