Heat Transfer Mechanism and Temperature Field Model of MQL Micro-Grinding Biomedical Materials

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Min Yang Changhe Li

Heat Transfer Mechanism and Temperature Field Model of MQL Micro-Grinding Biomedical Materials

Min Yang, Changhe Li

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English

IGI Global
17 April 2025

Biomedical engineering; Thermodynamics & heat; Biotechnology; Materials science

Summary
Details

In the field of biomedical engineering, the micro-grinding of materials is critical for precision and biocompatibility. Understanding the heat transfer mechanisms and temperature field models during minimum quantity lubrication (MQL) micro-grinding is essential for optimizing performance and ensuring the integrity of sensitive biomedical materials. Heat generation can directly impact the quality and precision of the grinding process, affecting tool wear, surface finish, and material properties. A comprehensive temperature field model is necessary for effective process control, practical solutions in biomedical manufacturing, and improved innovations in material science. Heat Transfer Mechanism and Temperature Field Model of MQL Micro-Grinding Biomedical Materials provides theoretical guidance and technical support for predicting biomedical materials grinding temperatures and improving surface integrity. It conducts an experimental evaluation on the mechanical behavior of ductile removal and micro grinding temperature field in nanofluid minimum quantity lubrication (MQL). This book covers topics such as mechanical engineering, ductile removal, and nanotechnology, and is a useful resource for mechanical and material engineers, scientists, business owners, medical professionals, academicians, and researchers.

By: Min Yang, Changhe Li
Imprint: IGI Global
Dimensions: Height: 254mm, Width: 178mm, Spine: 29mm
Weight: 1.098kg
ISBN: 9798369357033
Pages: 512
Publication Date: 17 April 2025
Audience: General/trade , ELT Advanced
Format: Hardback
Publisher's Status: Active