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3D modeling and simulation of thermal effects during profile grinding
C. Schieber
, M. Hettig
,
M. F. Zaeh
, C. Heinzel
Chair of Machine Tools and Manufacturing Technology
Technical University of Munich
University of Bremen
Leibniz Institute for Materials Engineering IWT
Research output
:
Contribution to journal
›
Article
›
peer-review
10
Scopus citations
Overview
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Dive into the research topics of '3D modeling and simulation of thermal effects during profile grinding'. Together they form a unique fingerprint.
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Keyphrases
Thermal Effect
100%
3D Modeling
100%
3D Simulation
100%
Guide Rail
100%
Profile Grinding
100%
Linear Guide
100%
Grinding Process
66%
Microgroove
66%
Contact Area
33%
Simulation Model
33%
Finite Element Method
33%
Three-dimensional Modeling
33%
Prediction Accuracy
33%
Simulation Analysis
33%
Finite Element Simulation
33%
Thermo
33%
Mathematical Relationship
33%
Stress-induced
33%
Compensation Strategy
33%
Heat Flux
33%
Heat Flux Profile
33%
Heat Transfer Model
33%
Internal Stress
33%
Grinding Conditions
33%
Workpiece Material
33%
Heat Flux Model
33%
Grinding Force
33%
Wet Grinding
33%
Grinding Parameters
33%
Non-uniform Heat Source
33%
Groove Profile
33%
Metallurgical Effect
33%
Residual Tensile Stress
33%
Grinding Temperature
33%
Grinding Process Model
33%
Simulation-based
33%
Engineering
Grinding (Machining)
100%
Thermal Effect
100%
Linear Guide
42%
Heat Flux
42%
Contact Area
14%
Simulation Result
14%
Finite Element Simulation
14%
Accurate Prediction
14%
Simulation Model
14%
Process Parameter
14%
Compensation Strategy
14%
Internal Stress
14%
Tensile Residual Stress
14%
Heat Transfer Model
14%
Grinding Force
14%
Dimensional Modeling
14%
Finite Element Analysis
14%
Actuator
14%
Heat Sources
14%