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Abstrakty
The aim of this work is to accurately characterize the thermomechanical behavior of jute-polyester composites. The thermal characteristics and the mechanical properties are determined over a temperature range from ambient to 100°C. The effect of temperature on the tensile breakage of specimens was investigated in order to determine the ability of this composite to maintain its mechanical resistance. It was observed that Young’s modulus and the tensile strength undergo an increase of about 80% when the temperature rises from ambient temperature to 60°C and a decrease for a temperature range from 60°C to 100°C. Numerical simulations, based on FEM analysis, provided results in good agreement with the experimental data in terms of the stress-strain curves. These simulations were achieved using Abaqus explicit finite element code. The increase and decrease in the mechanical properties were attributed to modification of the adhesion forces at the fiber/matrix interface.
Czasopismo
Rocznik
Tom
Strony
102--106
Opis fizyczny
Bibliogr. 23 poz., rys., tab.
Twórcy
autor
- Hassan II University of Casablanca, ENSAM, Laboratory of Artificial Intelligence & Complex Systems Engineering (AICSE), Casablanca, Morocco
- Hassan II University, Department of Physics, LPMC-ERSA, Faculty of Sciences Ben M’Sik, Subatomic Research and Applications Team, Casablanca, Morocco
autor
- Hassan II University of Casablanca, ENSAM, Laboratory of Artificial Intelligence & Complex Systems Engineering (AICSE), Casablanca, Morocco
autor
- Hassan II University of Casablanca, ENSAM, Laboratory of Artificial Intelligence & Complex Systems Engineering (AICSE), Casablanca, Morocco
autor
- Université de Lorraine, CNRS, Arts et Métiers ParisTech, LEM3, F-57000 Metz, France
autor
- Hassan II University of Casablanca, ENSAM, Laboratory of Artificial Intelligence & Complex Systems Engineering (AICSE), Casablanca, Morocco
autor
- Hassan II University, Department of Physics, LPMC-ERSA, Faculty of Sciences Ben M’Sik, Subatomic Research and Applications Team, Casablanca, Morocco
Bibliografia
- [1] MatadiBoumbimba R., Coulibaly M., Khabouchi A., Kinvi-Dossou G., Bonfoh N., Gerard P., Glass fiber reinforced acrylic thermoplastic resin-based tri-block copolymers composites: Low velocity impact response at various temperatures, Composite Structures, 2017, 160, 939-951.
- [2] Kinvi-Dossou G., MatadiBoumbimba R., Bonfoh N., Garzon-Hernandez S., Garcia-Gonzalez D., Gerard P. et al., Innovative acrylic thermoplastic composites versus conventional composites: Improving the impact performances, Composite Structures 2019, 217, 1-13.
- [3] Bhudolia S.K., Perrotey P., Joshi S.C., Mode I fracture toughness and fractographic investigation of carbon fibre composites with liquid methylmethacrylate thermoplastic matrix, Composites Part B: Engineering 2018, 134, 246-253.
- [4] Arpitha G.R., Yogesha B., An overview on mechanical property evaluation of natural fiber reinforced polymers, Materials Today: Proceedings, Part A 2017, 4, 2, 2755-2760.
- [5] Mache A., Deb A., Gupta N., An experimental study on performance of jute‐polyester composite tubes under axial and transverse impact loading, Polymer Composites 2020, 41, 5, May, 1796-1812.
- [6] Mahesh V., Joladarashi S., Kulkarni S.M., Influence of laminate thickness and impactor shape on low velocity impact response of jute-epoxy composite: FE study, Materials Today: Proceedings, Part 2, 2020, 28, 545-550.
- [7] Deb A., Das S., Mache A.K., Laishram R., A study on the mechanical behaviors of jute-polyester composites, Procedia Engineering 2017, 173, 631-638.
- [8] Roe P.J., Martin P.A., Jute-reinforced polyester composites, Journal of Materials Science 1985, 20(11) 4015-4020.
- [9] Ahmed K.S., Vijayarangan S., Experimental characterisation of woven jute-fabric-reinforced isothalic poliester composites, Journal of Applied Polymer Science 2007, 104, 2650-2662.
- [10] Chawla K.K., Composite Materials: Science and Engineering, Springer Science, New York 1987.
- [11] Feraboli P., Masini A., Development of carbon/epoxy structural components for a high performance vehicle, Composites, Part B 2004, 35, 323-330.
- [12] Marsh G., Next step for automotive materials, Mater. Today 2003, 6, 36-43.
- [13] Swanson S.R., Introduction to design and analysis with advanced composite materials, Upper Saddle River, NJ 1997.
- [14] Sanjay M.R., Arpithal G.R., LaxmanaNaik L., Gopalakrisha K., Yogesha B., Applications of natural fibers and its composites: An overview, Natural Resources 2016, 7, 108-114.
- [15] Ben Smail Y., El Moumen A., Lmai F., Imad A., The effects of the temperature on the mechanical properties of natural yarns, MATEC Web of Conferences 2019, 286, 03003.
- [16] ASTM International. Standard test method for ignition loss of cured reinforced resin, West Conshohocken ASTM 2011.
- [17] Garcea S.C., Wang Y., Withers P.J., X-ray computed tomography of polymer composites, Composites Science and Technology 2018, 156, 1, 305-319.
- [18] Suzuki Y., Cousins D.S., Dorgan J.R., Stebner A.P., Kappes B.B., Dual-energy X-ray computed tomography for void detection in fiber-reinforced composites, Journal of Composite Materials 2019, 53, 17, 1-11.
- [19] Hu D.Y., Meng K.P., Jiang H.L., Xu J., Liu R.R., Strain rate dependent constitutive behavior investigation of AerMet 100 steel, Mater. Des. 2015, 87, 759-772.
- [20] Singh N.K., Cadoni E., Singha M.K., Gupta N.K., Dynamic tensile behavior of multi-phase high yield strength steel, Mater. Des. 2011, 32, 5091-5098.
- [21] Essaadaoui K., Ait El Fqih M., Idiri M., Boubeker B., Numerical study on reinforced concrete beams by honeycomb sandwich panel structures, International Journal of Applied Engineering Research 2019, 14, 18, 3685-3688.
- [22] Essaadaoui K., Ait El Fqih M., Idiri M., Boubeker B., Numerical study of damaged, failure and cracking of concrete beam reinforced by honeycomb sandwich panel structures, Communications in Computer and Information Science 2020, 1207, 316-325.
- [23] Essaadaoui K., Ait El Fqih M., Idiri M., Boubeker B., Experimental investigation on reinforced concrete beams by honeycomb sandwich panel structures: Mechanical properties study, IOP Conference Series: Materials Science and Engineering 2020, 948(1), 012027.
Uwagi
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-acda59ef-6650-4a8f-83fb-ec8ec43e05a2