Closed-loop control of temperature in friction stir welding

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Fehrenbacher, A., Pfefferkorn, F.E., Zinn, M.R., Ferrier, N.J., & Duffie, N.A. (2008, May). Closed-loop control of temperature in friction stir welding. 7th International Symposium.

Fehrenbacher A, Pfefferkorn F E, Zinn M R, et al. "Closed-loop control of temperature in friction stir welding". 7th International Symposium (May.2008).

Fehrenbacher, A, Pfefferkorn, F E, Zinn, M R, et al. "Closed-loop control of temperature in friction stir welding". 7th International Symposium (May.2008).

Fehrenbacher A., Pfefferkorn F.E., Zinn M.R., Ferrier N.J. and Duffie N.A.Closed-loop control of temperature in friction stir welding. 7th International Symposium. 2008 May; .

Fehrenbacher, et al 2008, 'Closed-loop control of temperature in friction stir welding', 7th International Symposium. Available from: https://www.twi-global.com/technical-knowledge/fsw-symposium-papers/FSWSymposia-200805-6APaper01.pdf.

Fehrenbacher A, Pfefferkorn FE, Zinn MR, Ferrier NJ, Duffie NA. Closed-loop control of temperature in friction stir welding. 7th International Symposium. 2008;. https://www.twi-global.com/technical-knowledge/fsw-symposium-papers/FSWSymposia-200805-6APaper01.pdf.

Fehrenbacher AA, Pfefferkorn FE , Zinn MR , Ferrier NJ , Duffie NA . Closed-loop control of temperature in friction stir welding. 7th International Symposium. 2008 May;. https://www.twi-global.com/technical-knowledge/fsw-symposium-papers/FSWSymposia-200805-6APaper01.pdf.

Closed-loop control of temperature in friction stir welding

Fehrenbacher A. ,
Pfefferkorn F.E. ,
Zinn M.R. ,
et al

7th International Symposium

May 2008

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https://www.twi-global.com/technical-knowledge/fsw-symposium-papers/FSWSymposia-200805-6APaper01.pdf

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Based on the hypothesis that uniform friction stir weld quality can be produced by maintaining a constant weld zone temperature, an investigation was conducted to develop a feedback strategy and a closed-loop control algorithm to maintain constant temperature. A 3D transient heat transfer simulation was used to relate the surface temperature measured by a pyrometer to the average weld zone temperature, and a 0D analytical heat transfer model was employed to predict changes in average stir zone temperature as a function of feed rate and heat input. Bead on plate friction stir welding experiments were conducted on 6061-T6 and 5083-H111 aluminium alloy specimens. Use of two backing plates of different thermal diffusivity was shown to alter the heat flow in the weld zone. A simple controller was designed.

7th International Symposium, 20-22 May 2008, 6A: Process/Control 2, Paper 01

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Closed-loop control of temperature in friction stir welding

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Closed-loop control of temperature in friction stir welding

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