[1] Toozandehjani M, Kamarudin N, Dashtizadeh Z, Lim EY, Gomes A, Gomes C. Conventional and advanced composites in aerospace industry: Technologies revisited. Am. J. Aerosp. Eng. 2018 Feb;5(9):9-15.
[2] Yaragatti N, Patnaik A. A review on additive manufacturing of polymers composites. Materials Today: Proceedings. 2021 Jan 1;44:4150-7.
[3] Daneshpayeh S, Ghasemi FA, Ghasemi I. The effect of nanoparticles shape on the mechanical properties of poly lactic acid matrix. Journal of Elastomers & Plastics. 2021 Oct;53(6):684-97.
[4] Trybula ME, Barnett CB, Morbiducci U, Kober EM, Muratore M. Advances in molecular dynamics. Advances in Molecular Dynamics. 2021; 246.
[5] Shokrieh MM, Rafiee R. On the tensile behavior of an embedded carbon nanotube in polymer matrix with non-bonded interphase region. Composite Structures. 2010 Feb 1;92(3):647-52.
[6] Horta Muñoz S, Serna Moreno MD, González-Domínguez JM, Morales-Rodríguez PA, Vázquez E. Experimental, numerical, and analytical study on the effect of graphene oxide in the mechanical properties of a solvent-free reinforced epoxy resin. Polymers. 2019 Dec 16;11(12):2115.
[7] Manta A, Gresil M, Soutis C. Tensile and flexural behaviour of a graphene/epoxy composite: experiments and simulation. Journal of Physics: Materials. 2019 Dec 3;3(1):014006.
[8] Farazin A, Aghadavoudi F, Motififard M, Saber-Samandari S, Khandan A. Nanostructure, molecular dynamics simulation and mechanical performance of PCL membranes reinforced with antibacterial nanoparticles. Journal of Applied and Computational Mechanics. 2021 Oct 1;7(4):1907-15.
[9] Rahmanian S. Novel HDPE/ZnO nanocomposites for medical applications: preparation, impact strength and antibacterial activity characterization. Modares Mechanical Engineering. 2021 Feb 10;21(3):163-72.
[10] Zaminpayma E, Shamshirsaz M, Nayebi P. Investigation on Mechanical Properties of Polyoxymethylene Reinforced by Carbon Nanotube Using Molecular Dynamics. Amirkabir Journal of Mechanical Engineering. 2021 Oct 23;53(8):4691-700.
[11] Nikzad MK, Ashenai Ghasemi F, Aghadavoudi F. Experimental analysis of the effect of the atomic radius of silica nanoparticles on the mechanical and thermal properties of poly lactic acid nanocomposites. Journal of Elastomers & Plastics. 2024 Oct;56(6):774-85.
[12] Nikfar N, Zare Y, & Rhee KY. Dependence of mechanical performances of polymer/carbon nanotubes nanocomposites on percolation threshold. Physica B: condensed matter.2018; 533, 69-75.
[13] Alfonso I, Figueroa IA, Rodriguez-Iglesias V, Patino-Carachure C, Medina-Flores A, Bejar L, & Pérez L. Estimation of elastic moduli of particulate-reinforced composites using finite element and modified Halpin–Tsai models. Journal of the Brazilian Society of Mechanical Sciences and Engineering.2016; 38(4), 1317-1324.
[14] Abraham R, Thomas S.P, Kuryan S, Isac J, Varughese K.T & Thomas S. Mechanical properties of ceramic-polymer nanocomposites. Express Polym Lett. 2009; 3(3), 177-89.
[15] Nicolais L, Narkis M. Stress‐strain behavior of styrene‐acrylonitrile/glass bead composites in the glassy region. Polymer Engineering & Science. 1971 May;11(3):194-9.
[16] Hollingsworth SA, Dror RO. Molecular dynamics simulation for all. Neuron. 2018 Sep 19;99(6):1129-43.
[17] Khosrowshahi MS, Abdol MA, Mashhadimoslem H, Khakpour E, Emrooz HB, Sadeghzadeh S, Ghaemi A. The role of surface chemistry on CO2 adsorption in biomass-derived porous carbons by experimental results and molecular dynamics simulations. Scientific Reports. 2022 May 26;12(1):8917.
[18] Binder K, Horbach J, Kob W, Paul W, Varnik F. Molecular dynamics simulations. Journal of Physics: Condensed Matter. 2004 Jan 23;16(5):S429.
[19] Haile JM, Johnston I, Mallinckrodt AJ, McKay S. Molecular dynamics simulation: elementary methods. Computers in Physics. 1993 Nov 1;7(6):625-.
[20] Frenkel D, Smit B. Understanding molecular simulation: from algorithms to applications. Elsevier. 2023 Jul 13.
[21] Shankar U, Sethi SK, Verma A. Forcefields and modeling of polymer coatings and nanocomposites. InForcefields for atomistic-scale simulations: materials and applications. 2022 Aug 20 (pp. 81-98). Singapore: Springer Nature Singapore.
[22] Farhadi B, Zabihi F, Tebyetekerwa M, Lugoloobi I, Omidi M, Liu A. Simulations of lead-free organic–inorganic perovskites under tensile/compressive loads and different force fields. Molecular Physics. 2023 Jan 2;121(1):e2150704.
[23] Arab B, Vaziri SA., Khodarahmi H. Molecular Dynamics Simulation of Carbon Nanotube-Reinforced Polymer Nanocomposites. Aerospace Mechanics Journal. 2018;14(1):55-64.
[24] Ghajar MH, Mashhadi MM, Kashani HG. Dynamic mechanical analysis of bucky gel actuator electrolyte by molecular dynamics simulation. Computational Materials Science. 2018 Jun 15;149:379 -85.
[25] Mayo SL, Olafson BD, & Goddard WA. DREIDING: a generic force field for molecular simulations. Journal of Physical chemistry.1990; 94(26), 8897-8909.
[26] Nikzad MK, Aghadavoudi F, Ashenai Ghasemi F. Thermo-mechanical properties of silica-reinforced PLA nanocomposites using molecular dynamics: The effect of nanofiller radius. Journal of Polymer Research. 2024 Feb;31(2):44.
[27] ذوالفقاری م، کلهری یگانه ج، حیدری ح، طهماسبی و، صفری م، بررسی رفتار مکانیکی نانوکامپوزیت منیزیمی تقویتشده بهوسیلهی نانولوله بور نیترید بهروش دینامیک مولکولی. نشریه مهندسی مکانیک امیرکبیر.1401، د. 54 ، ش. 2، ص 451 - 464
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