Journal of
Chemical Engineering and Materials Science

  • Abbreviation: J. Chem. Eng. Mater. Sci.
  • Language: English
  • ISSN: 2141-6605
  • DOI: 10.5897/JCEMS
  • Start Year: 2010
  • Published Articles: 85

Full Length Research Paper

Objects impact effect on thermal fatigue life of unidirectional T700 Carbon Fiber/Epoxy

Anvari A.
  • Anvari A.
  • Department of Mechanical and Aerospace Engineering, University of Missouri-Columbia, Columbia, Missouri, USA.
  • Google Scholar

  •  Received: 25 September 2018
  •  Accepted: 05 January 2019
  •  Published: 28 February 2019


Adibnazari S and Anvari A (2017). Journal of Mechanical Engineering Research 9(4):34-45.


Alijani S and Anvari A (2018). Cycle numbers to failure for magnesium and its alloys in human body fluid. Journal of Chemical Engineering and Materials Science 9(1):1-8.


Anvari A (2014). Fatigue life prediction of unidirectional carbon fiber/epoxy composite in Earth orbit. International Journal of Applied Mathematics and Mechanics 10(5):58-85.


Anvari A (2016). Friction coefficient variation with sliding velocity in copper with copper contact. Periodica Polytechnica Mechanical Engineering 60(3):137-141.


Anvari A (2018). Thermal Life of Carbon Structures: From the Earth to after the Titan. International Journal of Aerospace Engineering Research Article (6 pages), Article ID 7628614, Volume 2018: 1-6.


Camargo PHC, Satyanarayana KG, Wypych F (2009). Nanocomposites: Synthesis, Structure, Properties and New Application Opportunities. Materials Research 12(1):1-39.


Fitzer E, Gkogkidis A, Heine M (1984). Carbon fibres and their composites (A Review). High Temperatures-High Pressures 16:363-392


Geng G, Ma X, Geng H, Wu Y (2018). Effect of Load on the Thermal Expansion Behavior of T700 Carbon Fiber Bundles. Polymers 10(152):1-14.


Hussain F, Hojjati M, Okamoto M, Gorga RE (2006). Review article: Polymer-matrix Nanocomposites, Processing, Manufacturing, and Application: An Overview. Journal of COMPOSITE MATERIALS 40 (17):1511-1575.


Karadeniz ZH (2005). A numerical study on the thermal expansion coefficient of fiber reinforced composite materials. Thesis, Graduate school of natural and applied sciences, Dokuz Eylul University, Izmir.


Li B, Zhang CR, Cao F, Wang SQ, Chen B, Li JS (2007). Effects of fiber surface treatments on mechanical properties of T700 carbon fiber reinforced BN-Si3N4 composites. Materials Science and Engineering A 471:169-173.


Okpala CC (2013). Nanocomposites – An Overview. International Journal of Engineering Research and Development 8(11):17-23.


Park SY, Choi HS, Choi, WJ, Kwon H (2012). Effect of vacuum thermal cyclic exposures on unidirectional carbon fiber/epoxy composites for low earth orbit space applications. Composites: Part B. 43:726-738.


Petersson H, Motte D, Bjarnemo (2013). Carbon Fiber Composite Materials in Modern Day Automotive Production Lines – A Case Study. Proceedings of the ASME 2013 International Mechanical Engineering Congress & Exposition IMECE2013 November 15-21, San Diego, California, USA.


Shirasu K, Nakamura A, Yamamoto G, Ogasawara T, Shimamura Y, Inoue Y, Hashida T (2017). Potential use of CNTs for production of zero thermal expansion coefficient composite materials: An experimental evaluation of axial thermal expansion coefficient of CNTs using a combination of thermal expansion and uniaxial tensile tests. Composites: Part A 95:152-160.


Tamilarasana U, Karunamoorthyb L, Palanikumarc K (2015). Mechanical Properties Evaluation of the Carbon Fibre Reinforced Aluminium Sandwich Composites. Materials Research 18(5): 1029-1037. 


Tyagi M and Tyagi D (2014). Polymer Nanocomposites and their Applications in Electronics Industry. International Journal of Electronic and Electrical Engineering 7(6):603-608.


Wu SC, Xu ZW, Kang GZ, He WF (2018). Probabilistic fatigue assessment for high-speed railway axles due to foreign object damages. International Journal of Fatigue 117: 90-100.