Bond-based peridynamic model for tensile deformation and fracture of polycarbonate and polypropylene
Fracture mechanics has been a crucial aspect in the field of engineering science as technologies are rapidly growing nowadays. Various numerical methods have been developed to. Meanwhile, used of materials types different behaviour in fracture analyze in industries. The application of polymers garne...
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| Format: | Article |
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Trans Tech Publications
2024
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| Online Access: | http://psasir.upm.edu.my/id/eprint/117014/ |
| _version_ | 1848867142594723840 |
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| author | Azizi, Muhammad Azim Azman, Muhammad Amin Norazak, Muhammad Farhan Aqil Fauzi, Muhammad Amirul Hakim |
| author_facet | Azizi, Muhammad Azim Azman, Muhammad Amin Norazak, Muhammad Farhan Aqil Fauzi, Muhammad Amirul Hakim |
| author_sort | Azizi, Muhammad Azim |
| building | UPM Institutional Repository |
| collection | Online Access |
| description | Fracture mechanics has been a crucial aspect in the field of engineering science as technologies are rapidly growing nowadays. Various numerical methods have been developed to. Meanwhile, used of materials types different behaviour in fracture analyze in industries. The application of polymers garners attention worldwide due to outstanding characteristics such as good strength, lightweight, and high temperature resistance, exemplified by polymers like polycarbonate (PC) and must aspects failure such Hence, (PP). polypropylene of materials into consideration when conditions arise that may lead to failure, such as high-load impact, fatigue, and extreme taken be Peridynamic bond-based study, a temperatures. In this model (PD) for the tensile behaviour, including fracture, of polymers has been developed. The PD model is constructed using the Centos and software and encompasses both brittle ductile fracture behaviours. Numerical results, including crack propagation, damage zone, and force-extension curves of notched specimens, are validated by comparison with experimental results of PC and PP. Through the validation process, PC specimens exhibit a difference percentage range for maximum load and a difference percentage range for maximum load and rupture extension of 31.2% to 43.5% and 0.9% to 30%, respectively. Consequently, specimens respectively. PP to 4.6%, and 2.4% to 18.8% 2.9%extension of show rupture for the brittle validation results indicate that the PD model specimens aligns more closely with experimental data compared to the PD model for ductile specimens. |
| first_indexed | 2025-11-15T14:31:48Z |
| format | Article |
| id | upm-117014 |
| institution | Universiti Putra Malaysia |
| institution_category | Local University |
| last_indexed | 2025-11-15T14:31:48Z |
| publishDate | 2024 |
| publisher | Trans Tech Publications |
| recordtype | eprints |
| repository_type | Digital Repository |
| spelling | upm-1170142025-04-23T01:48:39Z http://psasir.upm.edu.my/id/eprint/117014/ Bond-based peridynamic model for tensile deformation and fracture of polycarbonate and polypropylene Azizi, Muhammad Azim Azman, Muhammad Amin Norazak, Muhammad Farhan Aqil Fauzi, Muhammad Amirul Hakim Fracture mechanics has been a crucial aspect in the field of engineering science as technologies are rapidly growing nowadays. Various numerical methods have been developed to. Meanwhile, used of materials types different behaviour in fracture analyze in industries. The application of polymers garners attention worldwide due to outstanding characteristics such as good strength, lightweight, and high temperature resistance, exemplified by polymers like polycarbonate (PC) and must aspects failure such Hence, (PP). polypropylene of materials into consideration when conditions arise that may lead to failure, such as high-load impact, fatigue, and extreme taken be Peridynamic bond-based study, a temperatures. In this model (PD) for the tensile behaviour, including fracture, of polymers has been developed. The PD model is constructed using the Centos and software and encompasses both brittle ductile fracture behaviours. Numerical results, including crack propagation, damage zone, and force-extension curves of notched specimens, are validated by comparison with experimental results of PC and PP. Through the validation process, PC specimens exhibit a difference percentage range for maximum load and a difference percentage range for maximum load and rupture extension of 31.2% to 43.5% and 0.9% to 30%, respectively. Consequently, specimens respectively. PP to 4.6%, and 2.4% to 18.8% 2.9%extension of show rupture for the brittle validation results indicate that the PD model specimens aligns more closely with experimental data compared to the PD model for ductile specimens. Trans Tech Publications 2024-08-19 Article PeerReviewed Azizi, Muhammad Azim and Azman, Muhammad Amin and Norazak, Muhammad Farhan Aqil and Fauzi, Muhammad Amirul Hakim (2024) Bond-based peridynamic model for tensile deformation and fracture of polycarbonate and polypropylene. Applied Mechanics and Materials, 922. pp. 3-22. ISSN 1660-9336; eISSN: 1662-7482 https://www.scientific.net/AMM.922.3 10.4028/p-m9ebbj |
| spellingShingle | Azizi, Muhammad Azim Azman, Muhammad Amin Norazak, Muhammad Farhan Aqil Fauzi, Muhammad Amirul Hakim Bond-based peridynamic model for tensile deformation and fracture of polycarbonate and polypropylene |
| title | Bond-based peridynamic model for tensile deformation and fracture of polycarbonate and polypropylene |
| title_full | Bond-based peridynamic model for tensile deformation and fracture of polycarbonate and polypropylene |
| title_fullStr | Bond-based peridynamic model for tensile deformation and fracture of polycarbonate and polypropylene |
| title_full_unstemmed | Bond-based peridynamic model for tensile deformation and fracture of polycarbonate and polypropylene |
| title_short | Bond-based peridynamic model for tensile deformation and fracture of polycarbonate and polypropylene |
| title_sort | bond-based peridynamic model for tensile deformation and fracture of polycarbonate and polypropylene |
| url | http://psasir.upm.edu.my/id/eprint/117014/ http://psasir.upm.edu.my/id/eprint/117014/ http://psasir.upm.edu.my/id/eprint/117014/ |