Qualification of the in-situ bending technique towards the evaluation of the hydrogen induced fracture mechanism of martensitic Fe-C steels
- Author
- Margot Pinson (UGent) , Hauke Springer, Tom Depover (UGent) and Kim Verbeken (UGent)
- Organization
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BDFM 2021 poster Margot Pinson.pdf
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Citation
Please use this url to cite or link to this publication: http://hdl.handle.net/1854/LU-8714582
- MLA
- Pinson, Margot, et al. “Qualification of the In-Situ Bending Technique towards the Evaluation of the Hydrogen Induced Fracture Mechanism of Martensitic Fe-C Steels.” 2nd Benelux Network Meeting and Workshop on Damage and Fracture Mechanics (BDFM-2021), Abstracts, 2021.
- APA
- Pinson, M., Springer, H., Depover, T., & Verbeken, K. (2021). Qualification of the in-situ bending technique towards the evaluation of the hydrogen induced fracture mechanism of martensitic Fe-C steels. 2nd Benelux Network Meeting and Workshop on Damage and Fracture Mechanics (BDFM-2021), Abstracts. Presented at the 2nd Benelux Network Meeting and Workshop on Damage and Fracture Mechanics (BDFM-2021), Online event.
- Chicago author-date
- Pinson, Margot, Hauke Springer, Tom Depover, and Kim Verbeken. 2021. “Qualification of the In-Situ Bending Technique towards the Evaluation of the Hydrogen Induced Fracture Mechanism of Martensitic Fe-C Steels.” In 2nd Benelux Network Meeting and Workshop on Damage and Fracture Mechanics (BDFM-2021), Abstracts.
- Chicago author-date (all authors)
- Pinson, Margot, Hauke Springer, Tom Depover, and Kim Verbeken. 2021. “Qualification of the In-Situ Bending Technique towards the Evaluation of the Hydrogen Induced Fracture Mechanism of Martensitic Fe-C Steels.” In 2nd Benelux Network Meeting and Workshop on Damage and Fracture Mechanics (BDFM-2021), Abstracts.
- Vancouver
- 1.Pinson M, Springer H, Depover T, Verbeken K. Qualification of the in-situ bending technique towards the evaluation of the hydrogen induced fracture mechanism of martensitic Fe-C steels. In: 2nd Benelux Network Meeting and Workshop on Damage and Fracture Mechanics (BDFM-2021), Abstracts. 2021.
- IEEE
- [1]M. Pinson, H. Springer, T. Depover, and K. Verbeken, “Qualification of the in-situ bending technique towards the evaluation of the hydrogen induced fracture mechanism of martensitic Fe-C steels,” in 2nd Benelux Network Meeting and Workshop on Damage and Fracture Mechanics (BDFM-2021), Abstracts, Online event, 2021.
@inproceedings{8714582, author = {{Pinson, Margot and Springer, Hauke and Depover, Tom and Verbeken, Kim}}, booktitle = {{2nd Benelux Network Meeting and Workshop on Damage and Fracture Mechanics (BDFM-2021), Abstracts}}, language = {{eng}}, location = {{Online event}}, pages = {{1}}, title = {{Qualification of the in-situ bending technique towards the evaluation of the hydrogen induced fracture mechanism of martensitic Fe-C steels}}, year = {{2021}}, }