Fatigue design of automotive parts: Application of machine learning methods to design parts according to a stiffness loss criterion

F. Porhiel; P. Charrier; C. Champy; Y. Marco; F. Szmytka

doi:10.1201/9781003516880-39

Fatigue design of automotive parts: Application of machine learning methods to design parts according to a stiffness loss criterion

F. Porhiel, P. Charrier, C. Champy, Y. Marco, F. Szmytka

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

The main objective of this study is to challenge the use of machine learning techniques to model the stiffness loss occurring during durability tests after crack initiation without explicitly simulating the crack, on automotive parts. Extensive studies have been conducted at Vibracoustic to investigate the durability of carbonfilled natural rubber, under various test conditions. This database includes notably relaxing uniaxial tension tests on multiple samples geometries, and a part of them will be our focus in this paper. By using a sub-sample of the total available database, the authors aim to first explain the different steps taken towards the creation of a FAIR data-model. Our first findings confirm that some techniques from the Machine Learning field can be proficiently used in this case study. The next step will be to use an enlarged database with more loading conditions and geometries including real parts.

Original language	English
Title of host publication	Constitutive Models for Rubber XIII - Proceedings of the 13th European Conference on Constitutive Models for Rubber, ECCMR 2024
Editors	Hüsnü Dal
Publisher	CRC Press/Balkema
Pages	242-248
Number of pages	7
ISBN (Print)	9781032851389
DOIs	https://doi.org/10.1201/9781003516880-39
Publication status	Published - 1 Jan 2025
Event	13th European Conference on Constitutive Models for Rubber, ECCMR 2024 - Istanbul, Turkey Duration: 26 Jun 2024 → 28 Jun 2024

Publication series

Name	Constitutive Models for Rubber XIII - Proceedings of the 13th European Conference on Constitutive Models for Rubber, ECCMR 2024

Conference

Conference	13th European Conference on Constitutive Models for Rubber, ECCMR 2024
Country/Territory	Turkey
City	Istanbul
Period	26/06/24 → 28/06/24

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10.1201/9781003516880-39

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Porhiel, F., Charrier, P., Champy, C., Marco, Y., & Szmytka, F. (2025). Fatigue design of automotive parts: Application of machine learning methods to design parts according to a stiffness loss criterion. In H. Dal (Ed.), Constitutive Models for Rubber XIII - Proceedings of the 13th European Conference on Constitutive Models for Rubber, ECCMR 2024 (pp. 242-248). (Constitutive Models for Rubber XIII - Proceedings of the 13th European Conference on Constitutive Models for Rubber, ECCMR 2024). CRC Press/Balkema. https://doi.org/10.1201/9781003516880-39

Porhiel, F. ; Charrier, P. ; Champy, C. et al. / Fatigue design of automotive parts : Application of machine learning methods to design parts according to a stiffness loss criterion. Constitutive Models for Rubber XIII - Proceedings of the 13th European Conference on Constitutive Models for Rubber, ECCMR 2024. editor / Hüsnü Dal. CRC Press/Balkema, 2025. pp. 242-248 (Constitutive Models for Rubber XIII - Proceedings of the 13th European Conference on Constitutive Models for Rubber, ECCMR 2024).

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title = "Fatigue design of automotive parts: Application of machine learning methods to design parts according to a stiffness loss criterion",

abstract = "The main objective of this study is to challenge the use of machine learning techniques to model the stiffness loss occurring during durability tests after crack initiation without explicitly simulating the crack, on automotive parts. Extensive studies have been conducted at Vibracoustic to investigate the durability of carbonfilled natural rubber, under various test conditions. This database includes notably relaxing uniaxial tension tests on multiple samples geometries, and a part of them will be our focus in this paper. By using a sub-sample of the total available database, the authors aim to first explain the different steps taken towards the creation of a FAIR data-model. Our first findings confirm that some techniques from the Machine Learning field can be proficiently used in this case study. The next step will be to use an enlarged database with more loading conditions and geometries including real parts.",

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Porhiel, F, Charrier, P, Champy, C, Marco, Y & Szmytka, F 2025, Fatigue design of automotive parts: Application of machine learning methods to design parts according to a stiffness loss criterion. in H Dal (ed.), Constitutive Models for Rubber XIII - Proceedings of the 13th European Conference on Constitutive Models for Rubber, ECCMR 2024. Constitutive Models for Rubber XIII - Proceedings of the 13th European Conference on Constitutive Models for Rubber, ECCMR 2024, CRC Press/Balkema, pp. 242-248, 13th European Conference on Constitutive Models for Rubber, ECCMR 2024, Istanbul, Turkey, 26/06/24. https://doi.org/10.1201/9781003516880-39

Fatigue design of automotive parts: Application of machine learning methods to design parts according to a stiffness loss criterion. / Porhiel, F.; Charrier, P.; Champy, C. et al.
Constitutive Models for Rubber XIII - Proceedings of the 13th European Conference on Constitutive Models for Rubber, ECCMR 2024. ed. / Hüsnü Dal. CRC Press/Balkema, 2025. p. 242-248 (Constitutive Models for Rubber XIII - Proceedings of the 13th European Conference on Constitutive Models for Rubber, ECCMR 2024).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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N2 - The main objective of this study is to challenge the use of machine learning techniques to model the stiffness loss occurring during durability tests after crack initiation without explicitly simulating the crack, on automotive parts. Extensive studies have been conducted at Vibracoustic to investigate the durability of carbonfilled natural rubber, under various test conditions. This database includes notably relaxing uniaxial tension tests on multiple samples geometries, and a part of them will be our focus in this paper. By using a sub-sample of the total available database, the authors aim to first explain the different steps taken towards the creation of a FAIR data-model. Our first findings confirm that some techniques from the Machine Learning field can be proficiently used in this case study. The next step will be to use an enlarged database with more loading conditions and geometries including real parts.

AB - The main objective of this study is to challenge the use of machine learning techniques to model the stiffness loss occurring during durability tests after crack initiation without explicitly simulating the crack, on automotive parts. Extensive studies have been conducted at Vibracoustic to investigate the durability of carbonfilled natural rubber, under various test conditions. This database includes notably relaxing uniaxial tension tests on multiple samples geometries, and a part of them will be our focus in this paper. By using a sub-sample of the total available database, the authors aim to first explain the different steps taken towards the creation of a FAIR data-model. Our first findings confirm that some techniques from the Machine Learning field can be proficiently used in this case study. The next step will be to use an enlarged database with more loading conditions and geometries including real parts.

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Porhiel F, Charrier P, Champy C, Marco Y, Szmytka F. Fatigue design of automotive parts: Application of machine learning methods to design parts according to a stiffness loss criterion. In Dal H, editor, Constitutive Models for Rubber XIII - Proceedings of the 13th European Conference on Constitutive Models for Rubber, ECCMR 2024. CRC Press/Balkema. 2025. p. 242-248. (Constitutive Models for Rubber XIII - Proceedings of the 13th European Conference on Constitutive Models for Rubber, ECCMR 2024). doi: 10.1201/9781003516880-39

Fatigue design of automotive parts: Application of machine learning methods to design parts according to a stiffness loss criterion

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