Critical Analysis of The Strut Made of Fiber Reinforced Polymer Tested Under One End Hinged And The Other End Free

International Journal of Mechanical Engineering

© 2020 by SSRG - IJME Journal

Volume 7 Issue 4

Year of Publication : 2020

Authors : Mrs. K.Vijayasree, Dr. Ravishankar, D. V, Dr. P. Ram Reddy

10.14445/23488360/IJME-V7I4P104

How to Cite?

Mrs. K.Vijayasree, Dr. Ravishankar, D. V, Dr. P. Ram Reddy, "Critical Analysis of The Strut Made of Fiber Reinforced Polymer Tested Under One End Hinged And The Other End Free," SSRG International Journal of Mechanical Engineering, vol. 7,  no. 4, pp. 29-33, 2020. Crossref, https://doi.org/10.14445/23488360/IJME-V7I4P104

Abstract:

The present research work focuses on developing manufacturing processes and establishing critical test procedures for the polymer reinforced composite struts to be used in certain engineering applications. The following sections would deal with the materials used in Polymer matrix composites and manufacturing processes in general. The following sections also provide the information related to the development of the experimental setup and testing procedure adopted. The struts are manufactured and tested with one end hinged and the other end free condition .the struts are tested under compression analysis.

Keywords:

polymer reinforced composite, fiber

References:

[1] B.Walter Rosen., Stiffness of fibre composite materials,composites. 3(3) (1972) 112-118.
[2] D.Hull., A Unified Approach to the progressive crushing of fibre-Reinforced composite tubes, composite science and technology. 40 (1991) 377-421.
[3] D.Perreux & E.Joseph., The effect of frequency on the fatigue performance of filament -Wound pipes under biaxial loading: Experimental results and damage model, PII: S0266-3538(96)00155-8composite science and technology. 57 (1997) 353-364.
[4] D.Perreux&F.Thiebaud., Damaged elastoplastic behavior of [+Ø,-Ø], fiber -Reinforced composite laminates in biaxial loading, 0266-3538 (95) 00065 - 8.composite science and technology. 54 (1995) 275-285.
[5] A.B.Doyum,B.Altay., Low-velocity impact damage in glass fibre/epoxy cylindrical tubes, materials & design, PII : S0261-3069 (97) 00030-7. 18(3) (1997) 131 – 135.
[6] S.Shalom,H.Harel,G.Marom., Fatigue behaviour of flat filament-wound polyethylene composites, composite science and technology, PII : S0266 - 3538 (97) 00084-5. 57 (1997) 1423 – 1427.
[7] J.A.M.Ferreira, J.D.M.Costa, P.N.B.Reis., static and fatigue behavior of glass - fiber -reinforced polypropylene composites, theoritical and applied fracture mechanics, PII: S0167-8442(98)00068-8. 31 (1999) 67-74.
[8] Cevdet Kayank, Onur Mat., Uniaxial fatigue behavior of filament -Wound glass -Fibre/epoxy composite tubes, composites science and technology, PII: S 0266 - 3538 (01) 00084 - 7. 61 (2001) 1833 – 1840.
[9] F.Ellyin, M.Martens., Biaxial fatigue behavior of a multidirectional filament-wound glass-fiber /epoxy pipe, science and technology, PH: S 0266 -3538 (00) 00215-3. 61 (2001) 491-502.
[10] M.Xia ,H.Takayanagi,K.Kemmochi., Bending behavior of filament-wound fiber-reinforced sand wich pipes, composite structures, PH:S0263-8223 (01) 00181-7. 56 (2002) 201-210.
[11] Martyn Hucker ,Ian Bond, Stephen Bleay, Sajad Haq., Experimental evaluation of unidirectional hollow glass fibre/epoxy composites under compressive loading composites part A, doi : 10. 1016 / s 1359 - 835 X (03) 00236 - 7. 34 (2003) 927 – 932.
[12] E.Mahdi,A.M.S.Hamouda,B.B.Sahari,Y.A.Khalid., Effect of residual stresses in a filament wound laminated conical shell, journal of materials processing technology , doi : 10 . 1016 / s 0924 - 0136 (03) 00087- 6. 138 (2003) 291-296.
[13] Hsien - Kuang Li, Wei - Chong Liao, Liang Tseng, Wen-Hung Lee, Y.Sawada., compression strength of pre - Damaged concrete cylinders reinforced by non - adhesive filament wound composites, composites: part A, doi: 10. 1016 / s 1359 - 835 (03) 00250 – 1. 35 (2004) 281 – 292.
[14] Sung K.Ha, Jae Y.Jeong., Effects of winding angles on through-thickness properties and residual strains of thick filament wound composite rings, composite science and technology, doi: 10.1016 / j. compscitech. 2004. 05. 019.
65 (2005) 27 – 35.
[15] M.Tarfaoui,P.B.Gning,L.hamitouche .,dynamic response and damage modeling of glass/epoxy tubular structures ;Numerical investigation ,composites part A, doi 10.1016 / j. compositesa 2007.10 . 001. 39 (2008) 1-12.
[16] A . E . Antoniou , D.Van Hemelrjijck , T. P. Philippidis ., failure prediction for glass / epoxy cruciform specimen under static biaxial loading , http : // dx . doi . org / 10.1016 / j . compscitech. 2010 . 03 . 011 .
[17] Qian Zhang, Yn Luo. Anting Zhang., A study of effective constants of glass – fiber reinforced thermoplastic pipes by theoretical method and simulation, International journal of pressure vessels and piping. 172 (2019) 100 - 106.