Rechnergestützte modellierung von kompensationsstrategien verzugskompensation beim schleifen

Christian Schieber; Michael F. Zäh; Matthias Alexander Hettig; Carsten Heinzel

Rechnergestützte modellierung von kompensationsstrategien verzugskompensation beim schleifen

Translated title of the contribution: Distortion compensation during grinding. Computer-aided modelling of distortion compensation strategies

Christian Schieber, Michael F. Zäh, Matthias Alexander Hettig, Carsten Heinzel

Chair of Machine Tools and Manufacturing Technology

Research output: Contribution to journal › Article › peer-review

Abstract

The grinding process is a significant finishing process for com-ponents and allows for high surface quality. Due to the heat development at the ground surface, tensile residual stresses may be induced into the component, which in turn result in component distortions. In order to determine these unwanted properties, the research work presented here uses the finite element method to model mechanisms of action within the component. Using the simulation results, mechanical and thermal straightening processes can be designed.

Translated title of the contribution	Distortion compensation during grinding. Computer-aided modelling of distortion compensation strategies
Original language	German
Pages (from-to)	159-165
Number of pages	7
Journal	WT Werkstattstechnik
Volume	110
Issue number	3
State	Published - 2020

Cite this

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abstract = "The grinding process is a significant finishing process for com-ponents and allows for high surface quality. Due to the heat development at the ground surface, tensile residual stresses may be induced into the component, which in turn result in component distortions. In order to determine these unwanted properties, the research work presented here uses the finite element method to model mechanisms of action within the component. Using the simulation results, mechanical and thermal straightening processes can be designed.",

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AU - Schieber, Christian

AU - Zäh, Michael F.

AU - Hettig, Matthias Alexander

AU - Heinzel, Carsten

PY - 2020

Y1 - 2020

N2 - The grinding process is a significant finishing process for com-ponents and allows for high surface quality. Due to the heat development at the ground surface, tensile residual stresses may be induced into the component, which in turn result in component distortions. In order to determine these unwanted properties, the research work presented here uses the finite element method to model mechanisms of action within the component. Using the simulation results, mechanical and thermal straightening processes can be designed.

AB - The grinding process is a significant finishing process for com-ponents and allows for high surface quality. Due to the heat development at the ground surface, tensile residual stresses may be induced into the component, which in turn result in component distortions. In order to determine these unwanted properties, the research work presented here uses the finite element method to model mechanisms of action within the component. Using the simulation results, mechanical and thermal straightening processes can be designed.

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IS - 3

ER -

Rechnergestützte modellierung von kompensationsstrategien verzugskompensation beim schleifen

Abstract

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