Using of Thermoplastic Polyurethane Granule (TPU) as a Reinforcing Phase and Self-Healing Agent in a Polymer Composite Resin Epoxy to Exhibit Mechanical Properties Recovery
Subject Areas : Chemical Engineering (Polymers)Mostafa Hosseini 1 , Aazam Ghassemi 2
1 - Department of Mechanical Engineering, Najafabad Branch, Islamic Azad University, Najafabad, Iran
2 - Department of Mechanical Engineering, Faculty of Engineering, Najafabad Branch, Islamic Azad University,
Najafabad, Isfahan, Iran
Keywords:
Abstract :
[1] Li G and Zhang P 2013 A self-healing particulate composite reinforced with strain hardened short shape memory polymer fibers, Polymer, 54, 5075-5086.
[2] Altuna F I, Antonacci J, Arenas G F, Pettarin V, Hoppe C E, and Williams R J J 2016 Photothermal triggering of self-healing processes applied to the reparation of bio-based polymer networks, Mater. Res. Express, 3, 045003.
[3] Zainuddin S, Arefin T, Fahim A, Hosur M, Tyson J, Kumar A, Trovillion J, and Jeelani S 2014 Recovery and improvement in low-velocity impact properties of e-glass/epoxy composites through novel self-healing technique, Compos. Struct. 108, 277-286.
[4] Latif S, Amin S, Haroon S S, and Sajjad I A 2019 Self-healing materials for electronic applications: an overview, Mater. Res. Express, 6, 062001.
[5] Keller M W and Crall M D, 2018, 6.15 Self-Healing Composite Materials Comprehensive Composite, Materials II 6 431-453.
[6] Thakur V K and Kessler M R, 2015, Self-healing polymer nanocomposite materials: A review, Polymer, 69, 369-383.
[7] Das R, Melchior C, and Karumbaiah K, 2016, Self-healing composites for aerospace applications, In Advanced composite materials for aerospace engineering, 333-364.
[8] Zhang P and Li G, 2015, Healing-on-demand composites based on polymer artificial muscle, Polymer 64, 29-38.
[9] Pramanik N B, Nando G B, and Singha N K, 2015, Self-healing polymeric gel via RAFT polymerization and Diels–Alder click chemistry, Polymer, 69, 349-356.
[10] Yao L, Yuan Y C, Rong M Z, and Zhang M Q, 2011, Self-healing linear polymers based on RAFT polymerization, Polymer, 52, 3137-3145.
[11] Michael P, Doehler D, and Binder W H, 2015, Improving autonomous self-healing via combined chemical/physical principles, Polymer, 69, 216-227.
[12] Zhang G, Pei J, Li R, Li P, and Zhou B J, 2018, The preparation and characterization of a novel self-healing based on the dynamic translocation of disulfide bonds, Mater. Res. Express 5, 105301.
[13] Jones A and Dutta H, 2010, Fatigue life modeling of self-healing polymer systems, Mech. Mater. 42, 481-490.
[14] Jones A, Watkins C, White S, and Sottos N, 2015, Self-healing thermoplastic-toughened epoxy, Polymer, 74, 254-261.
[15] Ollier R P, Penoff M E, and Alvarez V A, 2016, Microencapsulation of epoxy resins: Optimization of synthesis conditions, Colloids. Surf. A Physicochem. Eng. Asp. 511, 27-38.
[16] Raimondo M, Guadagno L, Naddeo C, Longo P, Mariconda A, and Agovino A 2017 New structure of diamine curing agent for epoxy resins with self-restoration ability: Synthesis and spectroscopy characterization, J. Mol. Struct. 1130, 400-407.
[17] Meure S, Wu D-Y, and Furman S A, 2010, FTIR study of bonding between a thermoplastic healing agent and a mendable epoxy resin, Vib. Spectrosc. 52, 10-15.
[18] Pingkarawat K, Dell’Olio C, Varley R, and Mouritz A, 2016, Poly (ethylene-co-methacrylic acid) (EMAA) as an efficient healing agent for high performance epoxy networks using diglycidyl ether of bisphenol A (DGEBA), Polymer 92, 153-163.
[19] Pingkarawat K, Bhat T, Craze D, Wang C, Varley R J, and Mouritz A, 2013, Healing of carbon fibre–epoxy composites using thermoplastic additives, Polym. Chem. 4 5007-5015.
[20] Tripathi M, Kumar D, and Roy P K, 2017, Mesoporous silica as amine immobiliser for endowing healing functionality to epoxy resin Compos. Commun. 4, 20-23.
[21] Ling J, Rong M Z, and Zhang M Q, 2012, Photo-stimulated self-healing polyurethane containing dihydroxyl coumarin derivatives, Polymer 53, 2691-2698.
[22] Abdoluosefi H E and Honarasa G, 2017, Fabrication of polyurethane and thermoplastic polyurethane nanofiber by controlling the electrospinning parameters, Mater. Res. Express 4, 105308.
[23] Yuan C e, Rong M Z, and Zhang M Q, 2014, Self-healing polyurethane elastomer with thermally reversible alkoxyamines as crosslinkages, Polymer 55, 1782-1791.
[24] Feng L, Yu Z, Bian Y, Lu J, Shi X, and Chai C, 2017, Self-healing behavior of polyurethanes based on dual actions of thermo-reversible Diels-Alder reaction and thermal movement of molecular chains, Polymer, 124, 48-59.
[25] Xu Y and Chen D, 2017, Self-healing polyurethane/attapulgite nanocomposites based on disulfide bonds and shape memory effect, Mater. Chem. Phys. 195, 40-48.
[26] Bera M and Maji P K, 2017, Effect of structural disparity of graphene-based materials on thermo-mechanical and surface properties of thermoplastic polyurethane nanocomposites, Polymer, 119, 118-133.
[27] Mishra A K, Chattopadhyay S, Rajamohanan P, and Nando G B 2011 Effect of tethering on the structure-property relationship of TPU-dual modified Laponite clay nanocomposites prepared by ex-situ and in-situ techniques, Polymer, 52, 1071-1083.
[28] Li H, Ning N, Zhang L, Wang Y, Liang W, Tian M, and Chan T W 2015 Effect of content of organophosphorus on flame retardancy mode of thermoplastic polyurethane, Polymer, 67, 1-11.
[29] Pedrazzoli D and Manas-Zloczower I 2016 Understanding phase separation and morphology in thermoplastic polyurethanes nanocomposites, Polymer, 90, 256-263.
[30] Choi J, Jang J U, Yin W B, Lee B, and Lee K J, 2017, Synthesis of highly functionalized thermoplastic polyurethanes and their potential applications, Polymer, 116, 287-294.
[31] Liu R-C, Liu K, Du Y, Xu X-W, and Jia R-P, 2019, Microphase separation and properties of TPU/Nd2O3 nanocomposites, Materials Research Express 6, 055321.
[32] Li Y, Gao F, Xue Z, Luan Y, Yan X, Guo Z, and Wang Z, 2018, Synergistic effect of different graphene-CNT heterostructures on mechanical and self-healing properties of thermoplastic polyurethane composites, Mater. Des. 137, 438-445.
[33] Kim S M, Jeon H, Shin S H, Park S A, Jegal J, Hwang S Y, Oh D X, and Park J, 2018, Superior Toughness and Fast Self‐Healing at Room Temperature Engineered by Transparent Elastomers, Adv. Mater. 30, 1705145.
[34] Fenglei Zhang, Lei Zhang, Muhammad Yaseen and Kai Huang, 2020, A review on the self-healing ability of epoxy polymers, J. Appl. Polym. Sci.
[35] Hayes S A, Jones F R, Marshiya K, Zhang W, 2007, A self-healing thermosetting composite material Composites Part A: Applied Science and Manufacturing. 38, 1116-1120
