Temperature Field and Thermal Residual Stress of Grinding GH4169 with Conventional Aluminum Oxide Wheel

Tao Wang; Guo Ding Chen

doi:10.4028/www.scientific.net/KEM.589-590.238

Paper Titles

The Modelling and Analysis of Topographical Properties with the ‘through-the-Process’ Grinding Wheel Model
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Study on Thermal Elongation Error of Whirlwind Hard Milling Ballscrew
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Tool Wear and Surface Roughness in Diamond Cutting of Die Steels
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On Critical Conditions for Chip Transformation from Continuous to Serrated in High-Speed Machining
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Temperature Field and Thermal Residual Stress of Grinding GH4169 with Conventional Aluminum Oxide Wheel
p.238

The Research of Effect of Cutting Parameters on Machined Surface Defects in High-Speed Milling of SiCp/Al Composites
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Study on Grinding Crack of Premium Thread Gauge Material 9Mn2V
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Investigations of Surface Roughness with Cutting Speed and Cooling in the Wear Process during Turing GH4133 with PCBN Tool
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The Influence of Stretched Fixation on Face Milling-Machined 6061T6 Aluminum Alloy
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HomeKey Engineering MaterialsKey Engineering Materials Vols. 589-590Temperature Field and Thermal Residual Stress of...

Temperature Field and Thermal Residual Stress of Grinding GH4169 with Conventional Aluminum Oxide Wheel

Abstract:

The constitutive relationship of GH4169 superalloy was investigated. The grinding thermal load acting on GH4169 workpiece in grinding process with conventional aluminum oxide wheel was determined by using the method combining finite element method (FEM) with experiment. The grinding temperature field and grinding thermal residual stress generated in GH4169 were calculated via finite element method (FEM). Finally, the relation between grinding parameters and grinding temperature field and that between grinding parameters and thermal residual stress were discussed.