Approaches for coupled numerical simulation of high frequency tube welding process

Publikation: Beitrag in Buch/Bericht/Sammelwerk/KonferenzbandAufsatz in KonferenzbandForschungPeer-Review

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OriginalspracheEnglisch
Titel des SammelwerksCOUPLED PROBLEMS 2015
UntertitelProceedings of the 6th International Conference on Coupled Problems in Science and Engineering
Herausgeber/-innenBernhard A. Schrefler, Eugenio Onate, Manolis Papadrakakis
Seiten657-665
Seitenumfang9
ISBN (elektronisch)9788494392832
PublikationsstatusVeröffentlicht - 1 Apr. 2015
Veranstaltung6th International Conference on Computational Methods for Coupled Problems in Science and Engineering, COUPLED PROBLEMS 2015 - Venice, Italien
Dauer: 18 Mai 201520 Mai 2015

Publikationsreihe

NameCOUPLED PROBLEMS 2015 - Proceedings of the 6th International Conference on Coupled Problems in Science and Engineering

Abstract

Welding processes and installations used nowadays are mainly developed on practical experience and analytical calculations. Nevertheless, high frequency induction tube welding is a very complex three-dimensional dynamic process, where the electromagnetic and thermal characteristics are distributed not only in space but in time as well. A more profound detailed investigation of the induction tube welding process can be only done by numerical modelling. Full and local three-dimensional transient numerical models of induction tube welding process with continuous movement of the welded tube have been developed and tested. Coupled electromagnetic and thermal analyses are carried out at each time step of simulation for correction of temperature dependent material properties. Voltage or current of the induction coil can be individually input into electromagnetic analysis at each time step. This approach allows simulating "quasi" steady-state and transient operation modes.

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Approaches for coupled numerical simulation of high frequency tube welding process. / Nikanorov, Alexander; Baake, Egbert; Brauer, Holger et al.
COUPLED PROBLEMS 2015 : Proceedings of the 6th International Conference on Coupled Problems in Science and Engineering. Hrsg. / Bernhard A. Schrefler; Eugenio Onate; Manolis Papadrakakis. 2015. S. 657-665 (COUPLED PROBLEMS 2015 - Proceedings of the 6th International Conference on Coupled Problems in Science and Engineering).

Publikation: Beitrag in Buch/Bericht/Sammelwerk/KonferenzbandAufsatz in KonferenzbandForschungPeer-Review

Nikanorov, A, Baake, E, Brauer, H & Weil, C 2015, Approaches for coupled numerical simulation of high frequency tube welding process. in BA Schrefler, E Onate & M Papadrakakis (Hrsg.), COUPLED PROBLEMS 2015 : Proceedings of the 6th International Conference on Coupled Problems in Science and Engineering. COUPLED PROBLEMS 2015 - Proceedings of the 6th International Conference on Coupled Problems in Science and Engineering, S. 657-665, 6th International Conference on Computational Methods for Coupled Problems in Science and Engineering, COUPLED PROBLEMS 2015, Venice, Italien, 18 Mai 2015.
Nikanorov, A., Baake, E., Brauer, H., & Weil, C. (2015). Approaches for coupled numerical simulation of high frequency tube welding process. In B. A. Schrefler, E. Onate, & M. Papadrakakis (Hrsg.), COUPLED PROBLEMS 2015 : Proceedings of the 6th International Conference on Coupled Problems in Science and Engineering (S. 657-665). (COUPLED PROBLEMS 2015 - Proceedings of the 6th International Conference on Coupled Problems in Science and Engineering).
Nikanorov A, Baake E, Brauer H, Weil C. Approaches for coupled numerical simulation of high frequency tube welding process. in Schrefler BA, Onate E, Papadrakakis M, Hrsg., COUPLED PROBLEMS 2015 : Proceedings of the 6th International Conference on Coupled Problems in Science and Engineering. 2015. S. 657-665. (COUPLED PROBLEMS 2015 - Proceedings of the 6th International Conference on Coupled Problems in Science and Engineering).
Nikanorov, Alexander ; Baake, Egbert ; Brauer, Holger et al. / Approaches for coupled numerical simulation of high frequency tube welding process. COUPLED PROBLEMS 2015 : Proceedings of the 6th International Conference on Coupled Problems in Science and Engineering. Hrsg. / Bernhard A. Schrefler ; Eugenio Onate ; Manolis Papadrakakis. 2015. S. 657-665 (COUPLED PROBLEMS 2015 - Proceedings of the 6th International Conference on Coupled Problems in Science and Engineering).
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N2 - Welding processes and installations used nowadays are mainly developed on practical experience and analytical calculations. Nevertheless, high frequency induction tube welding is a very complex three-dimensional dynamic process, where the electromagnetic and thermal characteristics are distributed not only in space but in time as well. A more profound detailed investigation of the induction tube welding process can be only done by numerical modelling. Full and local three-dimensional transient numerical models of induction tube welding process with continuous movement of the welded tube have been developed and tested. Coupled electromagnetic and thermal analyses are carried out at each time step of simulation for correction of temperature dependent material properties. Voltage or current of the induction coil can be individually input into electromagnetic analysis at each time step. This approach allows simulating "quasi" steady-state and transient operation modes.

AB - Welding processes and installations used nowadays are mainly developed on practical experience and analytical calculations. Nevertheless, high frequency induction tube welding is a very complex three-dimensional dynamic process, where the electromagnetic and thermal characteristics are distributed not only in space but in time as well. A more profound detailed investigation of the induction tube welding process can be only done by numerical modelling. Full and local three-dimensional transient numerical models of induction tube welding process with continuous movement of the welded tube have been developed and tested. Coupled electromagnetic and thermal analyses are carried out at each time step of simulation for correction of temperature dependent material properties. Voltage or current of the induction coil can be individually input into electromagnetic analysis at each time step. This approach allows simulating "quasi" steady-state and transient operation modes.

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