Numerical simulation with hyperelastic constitutive model for high-performance multifilaments used in offshore mooring ropes
The present study addresses the numerical simulation of the stress-strain behavior of synthetic multifilaments subjected to creep, fatigue cycles, and rupture. Understanding the mechanical properties of these materials is essential for various industrial applications, including technical textiles,...
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| Format: | Article |
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Universidade Federal de Viçosa (UFV)
2024-01-01
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| Series: | The Journal of Engineering and Exact Sciences |
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| Online Access: | https://periodicos.ufv.br/jcec/article/view/17255 |
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| author | Daniel Magalhães da Cruz Tales Luiz Popiolek Júnior Marcelo de Ávila Barreto Stephane Pires de Souza Larissa Basei Zangalli Aleones José da Cruz Júnior Taline Carvalho Martins Ana Lúcia Nazareth da Silva Ivan Napoleão Bastos Carlos Eduardo Marcos Guilherme |
| author_facet | Daniel Magalhães da Cruz Tales Luiz Popiolek Júnior Marcelo de Ávila Barreto Stephane Pires de Souza Larissa Basei Zangalli Aleones José da Cruz Júnior Taline Carvalho Martins Ana Lúcia Nazareth da Silva Ivan Napoleão Bastos Carlos Eduardo Marcos Guilherme |
| author_sort | Daniel Magalhães da Cruz |
| collection | DOAJ |
| description |
The present study addresses the numerical simulation of the stress-strain behavior of synthetic multifilaments subjected to creep, fatigue cycles, and rupture. Understanding the mechanical properties of these materials is essential for various industrial applications, including technical textiles, ropes, cables, and composite materials. In this study, advanced simulation methods are employed using concepts from continuum mechanics and solid mechanics, coupled with a hyperelastic model. The simulated materials are high modulus polyester and polyethylene fibers for use in multifilament structures. Experimental tests were conducted to validate the simulation, and the simulation results were compared to the reference data to assess the quality of the numerical simulation. As a result, the numerical modeling shows capable of representing the constitutive behavior under creep, fatigue, and rupture solicitations. There was a certain difficulty in representing the behavior when many inelastic components were present in the fibers. Additionally, changes in curvature and concavity pose challenges that could potentially be addressed by other energy models integrated into the proposed code. These findings have significant implications in engineering sectors.
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| format | Article |
| id | doaj-art-77ffb494714c48428985ec16ca2bef00 |
| institution | Kabale University |
| issn | 2527-1075 |
| language | English |
| publishDate | 2024-01-01 |
| publisher | Universidade Federal de Viçosa (UFV) |
| record_format | Article |
| series | The Journal of Engineering and Exact Sciences |
| spelling | doaj-art-77ffb494714c48428985ec16ca2bef002025-02-02T19:53:58ZengUniversidade Federal de Viçosa (UFV)The Journal of Engineering and Exact Sciences2527-10752024-01-0110210.18540/jcecvl10iss2pp17255Numerical simulation with hyperelastic constitutive model for high-performance multifilaments used in offshore mooring ropesDaniel Magalhães da Cruz0Tales Luiz Popiolek Júnior1Marcelo de Ávila Barreto2Stephane Pires de Souza3Larissa Basei Zangalli4Aleones José da Cruz Júnior5Taline Carvalho Martins6Ana Lúcia Nazareth da Silva7Ivan Napoleão Bastos8Carlos Eduardo Marcos Guilherme9Federal University of Rio Grande do Sul, Mechanical Engineering Department, BrazilFederal University of Rio Grande, Engineering School, BrazilFederal University of Rio Grande, Engineering School, BrazilFederal University of Rio Grande, Engineering School, BrazilTecnofibers Desenvolvimento e Tecnologia Ltda, BrazilFederal Institute of Education, Science and Technology Goiano, BrazilFederal Institute of Education, Science and Technology Goiano, BrazilRio de Janeiro Federal University, Macromolecule Institute Professor Eloisa Mano (IMA) and Environmental Engineering Program (PEA), BrazilRio de Janeiro State University, Polytechnic Institute, BrazilFederal University of Rio Grande, Engineering School, Brazil The present study addresses the numerical simulation of the stress-strain behavior of synthetic multifilaments subjected to creep, fatigue cycles, and rupture. Understanding the mechanical properties of these materials is essential for various industrial applications, including technical textiles, ropes, cables, and composite materials. In this study, advanced simulation methods are employed using concepts from continuum mechanics and solid mechanics, coupled with a hyperelastic model. The simulated materials are high modulus polyester and polyethylene fibers for use in multifilament structures. Experimental tests were conducted to validate the simulation, and the simulation results were compared to the reference data to assess the quality of the numerical simulation. As a result, the numerical modeling shows capable of representing the constitutive behavior under creep, fatigue, and rupture solicitations. There was a certain difficulty in representing the behavior when many inelastic components were present in the fibers. Additionally, changes in curvature and concavity pose challenges that could potentially be addressed by other energy models integrated into the proposed code. These findings have significant implications in engineering sectors. https://periodicos.ufv.br/jcec/article/view/17255Numerical assessmentPolyester fibersHMPE fibersStress-strain behaviorHyperelastic modelViscoelasticity |
| spellingShingle | Daniel Magalhães da Cruz Tales Luiz Popiolek Júnior Marcelo de Ávila Barreto Stephane Pires de Souza Larissa Basei Zangalli Aleones José da Cruz Júnior Taline Carvalho Martins Ana Lúcia Nazareth da Silva Ivan Napoleão Bastos Carlos Eduardo Marcos Guilherme Numerical simulation with hyperelastic constitutive model for high-performance multifilaments used in offshore mooring ropes The Journal of Engineering and Exact Sciences Numerical assessment Polyester fibers HMPE fibers Stress-strain behavior Hyperelastic model Viscoelasticity |
| title | Numerical simulation with hyperelastic constitutive model for high-performance multifilaments used in offshore mooring ropes |
| title_full | Numerical simulation with hyperelastic constitutive model for high-performance multifilaments used in offshore mooring ropes |
| title_fullStr | Numerical simulation with hyperelastic constitutive model for high-performance multifilaments used in offshore mooring ropes |
| title_full_unstemmed | Numerical simulation with hyperelastic constitutive model for high-performance multifilaments used in offshore mooring ropes |
| title_short | Numerical simulation with hyperelastic constitutive model for high-performance multifilaments used in offshore mooring ropes |
| title_sort | numerical simulation with hyperelastic constitutive model for high performance multifilaments used in offshore mooring ropes |
| topic | Numerical assessment Polyester fibers HMPE fibers Stress-strain behavior Hyperelastic model Viscoelasticity |
| url | https://periodicos.ufv.br/jcec/article/view/17255 |
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