The desirability of using the KOBO extrusion process for AZ91 magnesium alloy preceding its further plastic processing has been experimentally verified. Importantly, during the conducted experiments, heat treatment (e.g., homogenization) was applied either before or after direct KOBO extrusion, which if used might have affected the properties of the alloy. The products of the cold KOBO process take the form of tapes with different cross sections. They were pressed (deep drawing), or, alternatively, subjected to conventional indirect extrusion in order to acquire the desired spatial geometry of the product. Due to the need for relatively wide strips, a variant of the KOBO extrusion with lateral outflow was used, since the press structure, providing reversibly oscillating die, strongly limited the cross sections of directly extruded products. The research procedure, involving plastic deformation with cyclic changes of the deformation path, allowed to obtain results indicating new potential properties of metallic materials crucial for their applicability.
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October 2016
Research-Article
Plastic Forming of AZ91 Alloy Using the KOBO Method
Włodzimierz Bochniak,
Włodzimierz Bochniak
AGH—University of Science and Technology,
Faculty of Non–Ferrous Metals,
A. Mickiewicza Avenue 30,
Cracow 30–059, Poland
e-mail: bow@agh.edu.pl
Faculty of Non–Ferrous Metals,
A. Mickiewicza Avenue 30,
Cracow 30–059, Poland
e-mail: bow@agh.edu.pl
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Paweł Ostachowski,
Paweł Ostachowski
AGH—University of Science and Technology,
Faculty of Non–Ferrous Metals,
A. Mickiewicza Avenue 30,
Cracow 30–059, Poland
e-mail: pawel.ostachowski@agh.edu.pl
Faculty of Non–Ferrous Metals,
A. Mickiewicza Avenue 30,
Cracow 30–059, Poland
e-mail: pawel.ostachowski@agh.edu.pl
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Sylwester Jagieła
Sylwester Jagieła
AGH—University of Science and Technology,
Faculty of Non–Ferrous Metals,
A. Mickiewicza Avenue 30,
Cracow 30–059, Poland
e-mail: sylwesterjagiela@gmail.com
Faculty of Non–Ferrous Metals,
A. Mickiewicza Avenue 30,
Cracow 30–059, Poland
e-mail: sylwesterjagiela@gmail.com
Search for other works by this author on:
Włodzimierz Bochniak
AGH—University of Science and Technology,
Faculty of Non–Ferrous Metals,
A. Mickiewicza Avenue 30,
Cracow 30–059, Poland
e-mail: bow@agh.edu.pl
Faculty of Non–Ferrous Metals,
A. Mickiewicza Avenue 30,
Cracow 30–059, Poland
e-mail: bow@agh.edu.pl
Paweł Ostachowski
AGH—University of Science and Technology,
Faculty of Non–Ferrous Metals,
A. Mickiewicza Avenue 30,
Cracow 30–059, Poland
e-mail: pawel.ostachowski@agh.edu.pl
Faculty of Non–Ferrous Metals,
A. Mickiewicza Avenue 30,
Cracow 30–059, Poland
e-mail: pawel.ostachowski@agh.edu.pl
Sylwester Jagieła
AGH—University of Science and Technology,
Faculty of Non–Ferrous Metals,
A. Mickiewicza Avenue 30,
Cracow 30–059, Poland
e-mail: sylwesterjagiela@gmail.com
Faculty of Non–Ferrous Metals,
A. Mickiewicza Avenue 30,
Cracow 30–059, Poland
e-mail: sylwesterjagiela@gmail.com
1Corresponding author.
Contributed by the Materials Division of ASME for publication in the JOURNAL OF ENGINEERING MATERIALS AND TECHNOLOGY. Manuscript received August 13, 2015; final manuscript received April 12, 2016; published online June 13, 2016. Assoc. Editor: Ashraf Bastawros.
J. Eng. Mater. Technol. Oct 2016, 138(4): 041002 (6 pages)
Published Online: June 13, 2016
Article history
Received:
August 13, 2015
Revised:
April 12, 2016
Citation
Bochniak, W., Ostachowski, P., and Jagieła, S. (June 13, 2016). "Plastic Forming of AZ91 Alloy Using the KOBO Method." ASME. J. Eng. Mater. Technol. October 2016; 138(4): 041002. https://doi.org/10.1115/1.4033465
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