Through scale material flow investigation in novel incremental bulk forming process

Szyndler, Joanna; Grosman, Franciszek; Tkocz, Marek; Delannay, Laurent; Wang, Jiangting; Muszka, Krzysztof; Madej, Lukasz

doi:10.1016/j.jmatprotec.2019.116487

Through scale material flow investigation in novel incremental bulk forming process

Szyndler, Joanna

;

Grosman, Franciszek

;

Tkocz, Marek

;

Delannay, Laurent

;

Madej, Lukasz

;et.al.

(2021) Journal of Materials Processing Technology — Vol. 287, p. 116487 (2021)

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Authors

Szyndler, Joanna
Author
Grosman, Franciszek
Author
Tkocz, Marek
Author
Delannay, LaurentUCLouvain
Author
Madej, Lukasz
Author

Abstract

Innovative incremental bulk forming (IBF) process dedicated to form integral elements for the aerospace industry is presented in the paper. Particular attention is put on analysis of advantages and disadvantages of this process, as well as on detailed evaluation of material flow characteristics across different length scales. Thus, a multi scale numerical model of the IBF process was established based on the isotropic hardening law at the macro scale and digital material representation concept connected with the crystal plasticity theory at the micro scale. Numerical results are also supported by a series of experimental investigations realized at the prototype of the IBF press.

Affiliations

UCLouvainSST/IMMC/MEMA - Applied mechanics and mathematics

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Szyndler, J., Grosman, F., Tkocz, M., Delannay, L., Wang, J., Muszka, K., & Madej, L. (2021). Through scale material flow investigation in novel incremental bulk forming process. Journal of Materials Processing Technology, 287, 116487. https://doi.org/10.1016/j.jmatprotec.2019.116487 (Original work published 2021)