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Enhanced heat transfer mechanism of nanofluid MQL cooling grinding / by Changhe Li and Hafiz Muhammad Ali.
- Format:
- Book
- Author/Creator:
- Li, Changhe.
- Ali, Hafiz Muhammad, 1981- author.
- Language:
- English
- Subjects (All):
- Grinding wheels.
- Lubrication and lubricants.
- Nanofluids.
- Physical Description:
- 23 PDFs (441 pages)
- Edition:
- 1st ed.
- Place of Publication:
- Hershey : IGI Global, 2019.
- System Details:
- Mode of access: World Wide Web.
- Summary:
- ""This book examines the distribution of airflow field in the grinding zone in nanofluid minimum quantity lubrication cooling grinding; tribological performance in grinding wheel/work piece interface; thermodynamic mechanism in grinding wheel/work piece interface; and surface integrity evaluation"--Provided by publisher"-- Provided by publisher.
- Contents:
- 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.
- Notes:
- Description based on publisher supplied metadata and other sources.
- Includes bibliographical references and index.
- ISBN:
- 9781799815488
- OCLC:
- 1138669254
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