A two-scale simulation method accounting for thermal effects during turning
Schindler S, Zimmermann M, Aurich JC, Steinmann P (2014)
Publication Language: English
Publication Type: Conference contribution
Publication year: 2014
Publisher: Wiley
City/Town: Erlangen, Germany
Book Volume: 14
Pages Range: 237-238
Conference Proceedings Title: PAMM 2014
Event location: Erlangen, Germany
DOI: 10.1002/pamm.201410106
Abstract
During chip formation in turning processes, mechanical work is dissipated into thermal energy by plastic deformations and frictional processes. In case of dry cutting, the generated heat is in part removed with the chips while the rest flows into the tool and the workpiece. Within the latter, the temperature increases due to this heat flow, which in turn causes thermal expansions that increase the cutting depth and thus induced eviations from the nominal workpiece geometry. These effects are treated separately by a local model for the chip formation and a global model for the whole workpiece in order to determine the temperature distribution inside the workpiece and the dependent thermal expansion
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APA:
Schindler, S., Zimmermann, M., Aurich, J.C., & Steinmann, P. (2014). A two-scale simulation method accounting for thermal effects during turning. In PAMM 2014 (pp. 237-238). Erlangen, Germany, DE: Erlangen, Germany: Wiley.
MLA:
Schindler, Stefan, et al. "A two-scale simulation method accounting for thermal effects during turning." Proceedings of the GAMM 2014, Erlangen, Germany Erlangen, Germany: Wiley, 2014. 237-238.
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