https://oldena.lpnu.ua/handle/ntb/55951| Title: | Challenges of temperature measurement during the friction stir welding process |
| Authors: | Augustin, Silke Fröhlich, Thomas Krapf, Gunter Bergmann, Jean-Pierre Grätzel, Michael Gerken, Jan Ansgar Schmidt, Kiril |
| Affiliation: | Technical University |
| Bibliographic description (Ukraine): | Challenges of temperature measurement during the friction stir welding process / Silke Augustin, Thomas Fröhlich, Gunter Krapf, Jean-Pierre Bergmann, Michael Grätzel, Jan Ansgar Gerken, Kiril Schmidt // Measuring equipment and metrology. — Lviv : Lviv Politechnic Publishing House, 2020. — Vol 81. — No 1. — P. 34–38. |
| Bibliographic description (International): | Challenges of temperature measurement during the friction stir welding process / Silke Augustin, Thomas Fröhlich, Gunter Krapf, Jean-Pierre Bergmann, Michael Grätzel, Jan Ansgar Gerken, Kiril Schmidt // Measuring equipment and metrology. — Lviv : Lviv Politechnic Publishing House, 2020. — Vol 81. — No 1. — P. 34–38. |
| Is part of: | Measuring equipment and metrology, 1 (81), 2020 |
| Issue: | 1 |
| Issue Date: | 24-Feb-2020 |
| Publisher: | Видавництво Львівської політехніки Lviv Politechnic Publishing House |
| Place of the edition/event: | Львів Lviv |
| DOI: | doi.org/10.23939/istcmtm2020.01.034 |
| Keywords: | Friction stir welding Direct temperature measurement Seebeck-Effect Measurement errors |
| Number of pages: | 5 |
| Page range: | 34-38 |
| Start page: | 34 |
| End page: | 38 |
| Abstract: | The exact determination of the process zone temperature can be considered as an increasingly important role in the control and monitoring of the friction stir welding process (FSW). At present, temperature measurement is carried out with the aid of a temperature sensor integrated into the tool (usually thermocouples). Since these cannot be attached directly to the joining area, heat dissipation within the tool and to the environment cause measurement deviations as well as a time delay in the temperature measurement. The article describes a process and the challenges that arise in this process, how a direct temperature measurement during the process can be achieved by exploiting the thermoelectric effect between tool and workpiece, without changing the tool by introducing additional temperature sensors. |
| URI: | https://ena.lpnu.ua/handle/ntb/55951 |
| Copyright owner: | © Національний університет “Львівська політехніка”, 2020 |
| References (Ukraine): | [1] D. Schmid: Reibrührschweißen von Aluminiumlegierungen mit Stählen für die Automobilindustrie, Dissertation, TU München, Herbert Utz Verlag GmbH, 2015 [2] A. Fehrenbacher, C. Smith, N. Duffie, N. Ferrier, F. Pferfferkorn, M. Zinn: Combined Temperature and Force Control for Robotic Friction Stir Welding, ASME, J. Manuf. Sci. Eng 136(2), 021007 (Jan 15, 2014), Paper No: MANU-12-1357; DOI: 10.1115/1.4025912 [3] A.C.F. Silva, J. De Backer, G. Bolmsjö: Temperature measurements during friction stir welding, University West, Trollhättan, Sweden, Springerlink.com, 2016, DOI 10.1007/s00170-016-9007-4 [4] E. Cole, A. Fehrenbacher, N. Duffie, M. Zinn, F. Pfefferkorn, N. Ferrier: Weld temperature effects during friction stir welding of dissimilar aluminum alloys 6061-t6 and 7075-t6, Int J Adv Manuf Technol (2014) 71:643–652 DOI 10.1007/s00170-013-5485-9 [5] A. Fehrenbacher, N. Duffie, N. Ferrier, F. Pfefferkorn, M. Zinn: Effects of tool-workpiece interface temperature on weld quality and quality improvements through temperature control in friction stir welding, The Int. Journ. Adv. Manuf. Techn., vol. 71, pp. 165–179, 2014/03/01, 2014. [6] F. Bernhard (Hrsg.): Handbuch der Technischen Temperaturmessung, 2. Auflage, Springer-Verlag, 2014 [7] M. Javurek, A. Mittermair: Wo in einem Thermoelement herrscht die gemessene Temperatur? Analyse mittels FESimulation, Technisches Messen, Heft 11, 2016, De Gruyter Oldenbourg, DOI 10.1515/teme-2016-0028 [8] P. Germanow: Messtechnische Untersuchung der Kennlinienstabilität von Thermoelementen, TU Ilmenau, Masterarbeit, 2019 [9] E. S. Webster: Low-Temperature Drift in MIMS Base-MetalThermocouples, Springer Verlag, Int J Thermophys (2014) 35:574–595. DOI 10.1007/s10765-014-1581-9 [10] A. D. Greenen, E. S. Webster: Thermal Recovery from Cold-Working in Type K Bare-Wire Thermocouples, Springer Verlag, Int J Thermophys (2017) 38:179. DOI 10.1007/s10765-017-2316-5 [11] M. Baranowski, K. Schmidt, M. K. Stobrawa: Anwendung des Seebeck-Effekts zur Messung der Prozesszonentemperatur beim Reibrührschweißen, Dokumentation Projektseminar, TU Ilmenau, 2018. [12] M. Z. H. Khandkar, J. A. Khan, A. P. Reynolds: Prediction of temperature distribution and thermal history during friction stir welding: input torque based model, Sc. and Techn. of Welding & Joining, 8(3):165-174, 2003, DOI: 10.1179/136217103225010943 |
| References (International): | [1] D. Schmid: Reibrührschweißen von Aluminiumlegierungen mit Stählen für die Automobilindustrie, Dissertation, TU München, Herbert Utz Verlag GmbH, 2015 [2] A. Fehrenbacher, C. Smith, N. Duffie, N. Ferrier, F. Pferfferkorn, M. Zinn: Combined Temperature and Force Control for Robotic Friction Stir Welding, ASME, J. Manuf. Sci. Eng 136(2), 021007 (Jan 15, 2014), Paper No: MANU-12-1357; DOI: 10.1115/1.4025912 [3] A.C.F. Silva, J. De Backer, G. Bolmsjö: Temperature measurements during friction stir welding, University West, Trollhättan, Sweden, Springerlink.com, 2016, DOI 10.1007/s00170-016-9007-4 [4] E. Cole, A. Fehrenbacher, N. Duffie, M. Zinn, F. Pfefferkorn, N. Ferrier: Weld temperature effects during friction stir welding of dissimilar aluminum alloys 6061-t6 and 7075-t6, Int J Adv Manuf Technol (2014) 71:643–652 DOI 10.1007/s00170-013-5485-9 [5] A. Fehrenbacher, N. Duffie, N. Ferrier, F. Pfefferkorn, M. Zinn: Effects of tool-workpiece interface temperature on weld quality and quality improvements through temperature control in friction stir welding, The Int. Journ. Adv. Manuf. Techn., vol. 71, pp. 165–179, 2014/03/01, 2014. [6] F. Bernhard (Hrsg.): Handbuch der Technischen Temperaturmessung, 2. Auflage, Springer-Verlag, 2014 [7] M. Javurek, A. Mittermair: Wo in einem Thermoelement herrscht die gemessene Temperatur? Analyse mittels FESimulation, Technisches Messen, Heft 11, 2016, De Gruyter Oldenbourg, DOI 10.1515/teme-2016-0028 [8] P. Germanow: Messtechnische Untersuchung der Kennlinienstabilität von Thermoelementen, TU Ilmenau, Masterarbeit, 2019 [9] E. S. Webster: Low-Temperature Drift in MIMS Base-MetalThermocouples, Springer Verlag, Int J Thermophys (2014) 35:574–595. DOI 10.1007/s10765-014-1581-9 [10] A. D. Greenen, E. S. Webster: Thermal Recovery from Cold-Working in Type K Bare-Wire Thermocouples, Springer Verlag, Int J Thermophys (2017) 38:179. DOI 10.1007/s10765-017-2316-5 [11] M. Baranowski, K. Schmidt, M. K. Stobrawa: Anwendung des Seebeck-Effekts zur Messung der Prozesszonentemperatur beim Reibrührschweißen, Dokumentation Projektseminar, TU Ilmenau, 2018. [12] M. Z. H. Khandkar, J. A. Khan, A. P. Reynolds: Prediction of temperature distribution and thermal history during friction stir welding: input torque based model, Sc. and Techn. of Welding & Joining, 8(3):165-174, 2003, DOI: 10.1179/136217103225010943 |
| Content type: | Article |
| Appears in Collections: | Вимірювальна техніка та метрологія. – 2020. – Випуск 81, №1 |
| File | Description | Size | Format | |
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| 2020v81n1_Augustin_S-Challenges_of_temperature_34-38.pdf | 438.6 kB | Adobe PDF | View/Open | |
| 2020v81n1_Augustin_S-Challenges_of_temperature_34-38__COVER.png | 1.36 MB | image/png | View/Open |
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