Advanced search
Publication Cover
Advanced Composite Materials Volume 28, 2019 - Issue 2
Submit an article Journal homepage
442
Views
10
CrossRef citations to date
0
Altmetric
Articles

Estimation of biaxial tensile and compression behavior of polypropylene using molecular dynamics simulation

Ryuta KitamuraFaculty of Science and Technology, Department of Mechanical Engineering, Tokyo University of Science, 2641 Yamazaki, Noda, Chiba278-8510, JapanCorrespondence[email protected]
,
Tomoya KageyamaDepartment of Mechanical Engineering, Graduate School of Science and Technology, Tokyo University of Science, 2641 Yamazaki, Noda, Chiba278-8510, Japan
,
Jun KoyanagiFaculty of Industrial Science and Tqechnology, Department of Materials Science and Technology, Tokyo University of Science, 6-3-1 Shinjuku, Katsushika, Tokyo125-8585, Japan
&
Shinji OgiharaFaculty of Science and Technology, Department of Mechanical Engineering, Tokyo University of Science, 2641 Yamazaki, Noda, Chiba278-8510, Japan
Pages 135-146 | Received 22 Jun 2017, Accepted 23 Apr 2018, Published online: 01 Jun 2018

References

  • Kurihara F, Oishi F. Usage guide polymer material. Tokyo: Ohmsha; 1969. p. 3–26, 187–242.
  • Nakajima A, Ikada Y. High technology polymer material. Tokyo: Agune; 1986. p. 1–7.
  • Cho D, Lee HS, Han SO, et al. Effects of E-beam treatment on the interfacial and mechanical properties of henequen/polypropylene composites. Adv Compos Mater. 2007;16(4):315–334.10.1163/156855107782325159
  • Yamamoto M. Deformation of objects for material science. Tokyo: Seibundo Shinkosha; 1972. p. 150–151.
  • Miki M, Fukuda T, Motogi S, et al. Introduction to mechanical systems 8: composite material. Tokyo: Kyoritsu Shuppan; 1997. p. 100–103.
  • Maki H. Essence of polymer material: basic science. Tokyo: Chijin Shoka; 1971. p. 121–128.
  • Rottler J, Robbins MO. Growth, microstructure, and failure of crazes in glassy polymers. Physics. 2003;68(1):011801.
  • Hossain D, Tschopp MA, Ward DK, et al. Molecular dynamics simulations of deformation mechanisms of amorphous polyethylene. Polymer. 2010;51(25):6071–6083.10.1016/j.polymer.2010.10.009
  • Nakata M, Miyano Y. Formulation of time and temperature dependence of static strength for unidirectional CFRP. Mater Syst. 2013;31:5–10.
  • Miyano Y, Nakata M, Sekine N. Commentary: evaluation of durability of plastic composite material and its structure. Mater Syst. 2002;20:75–86.
  • Kageyama T, Koyanagi J, Kitamura R, et al. Numerical simulation of thermo-viscoelastic behavior of polypropylene by molecular dynamics. J JSCM. 2016;42(2):82–87.
  • Koyanagi J, Nakada M, Miyano Y. Tensile strength at elevated temperature and its applicability as an accelerated testing methodology for unidirectional composites. Mech Time-Depend Mater. 2012;16:19–30.10.1007/s11043-011-9160-y
  • Koyanagi J, Nakada M, Miyano Y. Prediction of long-term durability of unidirectional CFRP. J Reinforc Plast Compos. 2011;30:1305–1313.10.1177/0731684411420314
  • Smith TL. Dependence of the ultimate properties of a GR-S rubber on strain rate and temperature. J Polymer Sci. 1958;32(124):99–113.10.1002/pol.1958.1203212409
  • Arrhenius SA. Über die Dissociationswärme und den Einfluß der Temperatur auf den Dissociationsgrad der Elektrolyte [Dissociation heat and Influence of temperature on dissociation degree of electrolyte]. Z Phys Chem. 1889;4:96–116.
  • Silberberg M. Chemistry: the molecular nature of matter and change. New York (NY): McGraw-Hill; 2006. p. 696.
  • Koyanagi J, Yoneyama S, Nemoto A, et al. Time and temperature dependence of carbon/epoxy interface strength. Compos Sci Tech. 2010;70:1395–1400.10.1016/j.compscitech.2010.04.019
  • Kobayashi Y, Kobayashi S. Accelerated thermo-oxidative aging for carbon fiber reinforced polycyanate under high pressure atmosphere. Adv Compos Mater. 2017;26(5):451–464.
  • Koyama Satorua, Yamamoto T. Molecular dynamics simulation of polymer crystallization. J Soc Rub Indust. 2002;75(10):430.10.2324/gomu.75.430
  • Morikami K, Kuchiki K, Kawamura T, et al. Molecular dynamics simulation study on the bulk modulus above and below the glass transition temperature. Jap J Poly Sci and Tech. 1996;53(12):852–859.
  • Tomar V, Zhou M. Analyses of tensile deformation of nanocrystalline α-Fe2O3+fcc-Al composites using molecular dynamics simulations. J Phys Chem Solids. 2007;55(5):1053–1085.10.1016/j.jmps.2006.10.005
  • Takeuchi K, Matsuzaki R, Okabe T, et al. Process design for heat fusion of thermoplastic composites using molecular dynamics and a response surface method. Adv Compos Mater. 2016;25(sup1):33–49.10.1080/09243046.2016.1216726
  • Niuchi T, Koyanagi J, Inoue R, Kogo Y. Molecular dynamics study of the interfacial strength between carbon fiber and phenolic resin. Adv Compos Mater. 2017;26(6):569–581.
  • Cheng X, Yokozeki T, Yamamoto M, et al. The decoupling electrical and thermal conductivity of fullerene/polyaniline hybrids reinforced polymer composites. Compos Sci Tech. 2017;144:160–168.10.1016/j.compscitech.2017.03.030
  • Christensen RM. A comparative evaluation of three isotropic, two property failure theories. J Appl Mech. 2006;73(5):852–859.10.1115/1.2173007
  • Christensen RM. The theoretical measure of the ductility of failure for all isotropic materials in all states of stress 1. J Appl Mech. 2016;83(6):061001-1–061001-9.
  • Christensen RM. The theory of materials failure. London: Oxford University; 2013. p. 30–49.10.1093/acprof:oso/9780199662111.001.0001
  • Chen C, Depa P, Sakai VG, et al. A comparison of united atom, explicit atom, and coarse-grained simulation models for poly (ethylene oxide). J Chem Phys. 2006;124(23):234901.10.1063/1.2204035
  • Lustig R, Steele WA. On the thermodynamics of liquid propane. Mol Phys. 1988;65(2):475–486.10.1080/00268978800101181
  • Glasstone S, Laidler J, Eyring H. The theory of rate process. New York (NY): McGraw Hill; 1941. p. 611.
  • Japan Association for Chemical Innovation. Polymer material simulation: OCTA application examples. Tokyo: The Chemical Daily; 2014. p. 13.
  • Ube T, Aoki H, Ito S, et al. Affine deformation of single polymer chain in poly(methyl methacrylate) films under uniaxial extension observed by scanning near-field optical microscopy. Polymer. 2009;50(13):3016–3021.10.1016/j.polymer.2009.04.057
  • Ikada Y. Biodegradable polymeric material – especially polylactide. Poly appl. 1981;30(6):208–255.
  • Kobayashi S, Yamaji S. Prediction of stress-strain curves for TCP/PLLA composites: effect of hydrolysis and strain rate. Adv Compos Mater. 2015;24(supp1):125–136.10.1080/09243046.2014.957374
  • Nagoh S, Choi NS, Takahashi K. Influence of temperature on tensile deformation and fracture of unfilled and short-glass-fiber filled poly (cyano aryl ether). Adv Compos Mater. 1994;3(3):191–207.10.1163/156855194X00042
  • Soong K, Yang MY, Hwang WC, et al. A measurement for the modal parameters of thermoplastic composites at different temperatures. Adv Compos Mater. 1994;3(4):255–268.10.1163/156855194X00150

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.