On the effect of isotropic and anisotropic dissipative response functions with associated and nonassociated flow on the inelastic behavior of polymeric composites

Swaroop Gaddikere Nagaraja; Thomas Antretter; Clara Schuecker

doi:10.1080/15376494.2025.2457602

On the effect of isotropic and anisotropic dissipative response functions with associated and nonassociated flow on the inelastic behavior of polymeric composites

Swaroop Gaddikere Nagaraja, Thomas Antretter, Clara Schuecker

Research output: Contribution to journal › Article › Research › peer-review

Abstract

This article investigates the effect of using isotropic and anisotropic plastic response functions in the analysis of the elastic-plastic response of unidirectional fiber composites on the meso-scale. Three model problems that use a Drucker-Prager-type pressure-dependent yield function are considered to simulate the nonlinearities exhibited by a composite material. A further core ingredient is the analysis of a canonical and nonconventional constitutive structure, with respect to associated and nonassociated flow response, where the use of latter is motivated by the physical inconsistencies induced by the former under shear dominated loads. These models are evaluated quantitatively by comparison to experimental data.

Original language	English
Number of pages	17
Journal	Mechanics of advanced materials and structures
Volume	??? Stand: 14. Mai 2025
Issue number	??? Stand: 14. Mai 2025
DOIs	https://doi.org/10.1080/15376494.2025.2457602
Publication status	Published - 16 Feb 2025

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© 2025 The Author(s). Published with license by Taylor & Francis Group, LLC.

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Gaddikere Nagaraja, S., Antretter, T., & Schuecker, C. (2025). On the effect of isotropic and anisotropic dissipative response functions with associated and nonassociated flow on the inelastic behavior of polymeric composites. Mechanics of advanced materials and structures, ??? Stand: 14. Mai 2025(??? Stand: 14. Mai 2025). https://doi.org/10.1080/15376494.2025.2457602

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abstract = "This article investigates the effect of using isotropic and anisotropic plastic response functions in the analysis of the elastic-plastic response of unidirectional fiber composites on the meso-scale. Three model problems that use a Drucker-Prager-type pressure-dependent yield function are considered to simulate the nonlinearities exhibited by a composite material. A further core ingredient is the analysis of a canonical and nonconventional constitutive structure, with respect to associated and nonassociated flow response, where the use of latter is motivated by the physical inconsistencies induced by the former under shear dominated loads. These models are evaluated quantitatively by comparison to experimental data.",

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Gaddikere Nagaraja, S , Antretter, T & Schuecker, C 2025, 'On the effect of isotropic and anisotropic dissipative response functions with associated and nonassociated flow on the inelastic behavior of polymeric composites', Mechanics of advanced materials and structures, vol. ??? Stand: 14. Mai 2025, no. ??? Stand: 14. Mai 2025. https://doi.org/10.1080/15376494.2025.2457602

On the effect of isotropic and anisotropic dissipative response functions with associated and nonassociated flow on the inelastic behavior of polymeric composites. / Gaddikere Nagaraja, Swaroop ; Antretter, Thomas ; Schuecker, Clara.
In: Mechanics of advanced materials and structures, Vol. ??? Stand: 14. Mai 2025, No. ??? Stand: 14. Mai 2025, 16.02.2025.

Research output: Contribution to journal › Article › Research › peer-review

TY - JOUR

T1 - On the effect of isotropic and anisotropic dissipative response functions with associated and nonassociated flow on the inelastic behavior of polymeric composites

AU - Gaddikere Nagaraja, Swaroop

AU - Antretter, Thomas

AU - Schuecker, Clara

PY - 2025/2/16

Y1 - 2025/2/16

N2 - This article investigates the effect of using isotropic and anisotropic plastic response functions in the analysis of the elastic-plastic response of unidirectional fiber composites on the meso-scale. Three model problems that use a Drucker-Prager-type pressure-dependent yield function are considered to simulate the nonlinearities exhibited by a composite material. A further core ingredient is the analysis of a canonical and nonconventional constitutive structure, with respect to associated and nonassociated flow response, where the use of latter is motivated by the physical inconsistencies induced by the former under shear dominated loads. These models are evaluated quantitatively by comparison to experimental data.

AB - This article investigates the effect of using isotropic and anisotropic plastic response functions in the analysis of the elastic-plastic response of unidirectional fiber composites on the meso-scale. Three model problems that use a Drucker-Prager-type pressure-dependent yield function are considered to simulate the nonlinearities exhibited by a composite material. A further core ingredient is the analysis of a canonical and nonconventional constitutive structure, with respect to associated and nonassociated flow response, where the use of latter is motivated by the physical inconsistencies induced by the former under shear dominated loads. These models are evaluated quantitatively by comparison to experimental data.

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DO - 10.1080/15376494.2025.2457602

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VL - ??? Stand: 14. Mai 2025

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ER -

On the effect of isotropic and anisotropic dissipative response functions with associated and nonassociated flow on the inelastic behavior of polymeric composites

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