Description
High-Speed Precision CNC Machine Tools: The Theory and Methods of Thermal Behavior Simulation and Control summarizes the thermal-structure interaction simulation and optimization of high-speed precision machine tools. It begins by examining the current research status of high-speed precision machine tools followed by the thermal-structure interaction characteristic modeling and simulation of high-speed precision machine tools. Later chapters are related to the application of the topology optimization method and axial rotating heat pipe in high-speed precision machine tools.- Provides an important boundary condition for modelling the thermal-structure interaction characteristics of high-speed precision CNC machine tools- Covers the systematic modeling method for thermal-structure interaction characteristics of high-speed precision CNC machine tools- Includes detailed coverage of the application of axial rotating heat pipe in high-speed precision machine tool thermal error control
Table of Contents
1. Introduction2.Theoretical modelling and prediction of thermal contact resistance of angular contact ball bearings3. Heat generation mechanism analysis and transient thermal characteristics simulation of high-speed spindle system4. Thermal-structure interaction characteristics simulation and modelling5. Thermal boundary conditions optimization based on response surface analysis6. Thermal error measurement, modelling and compensation of ball screw feed drive system with fixed-fixed installation7. Multi-objective topology optimization method of cooling plate and cooling water jacket towards precision machine tool heat dissipation and thermal error control8. Effect of gas-liquid phase change of axial rotating heat pipe (ARHP) on fluid-thermal-solid behaviours of high-speed spindle
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