You are being redirected because this document is part of your ASTM Compass® subscription.
    This document is part of your ASTM Compass® subscription.

    Volume 45, Issue 4 (July 2017)

    Significance of Energy Absorbing Layer in GFRP Composite on Flexural Response

    (Received 18 December 2014; accepted 18 May 2016)

    Published Online: 2016

    CODEN: JTEVAB

      Format Pages Price  
    PDF (2.55 MB) 11 $25   ADD TO CART

    Cite this document

    X Add email address send
    X
      .RIS For RefWorks, EndNote, ProCite, Reference Manager, Zoteo, and many others.   .DOCX For Microsoft Word



    Abstract

    The specific properties of glass-fiber-reinforced plastic (GFRP) laminates have expanded its application in making automobile leaf springs. The cross ply laminate (0/R/2090/90/0 and 0/90/90/0) specimen of 25 % and 32 % fiber volume fraction are prepared by a hand lay-up technique with and without a uniquely processed energy absorbing (R-resin) layer in the lay-up. Experimental simulation of the leaf spring loading is done by considering the road tire interaction. The low frequency, constant amplitude cyclic loading was imposed on a cantilever composite specimen by an eccentric disc with an amplitude of 3 mm at 2.6 Hz, 4.6 Hz, and 8.6 Hz frequencies for 11 × 103, 22 × 103, and 33 × 103 cycles. The experiments are planned by Taguchi's DOE and L9 orthogonal array with two factors and three levels. The flexural modulus of the cyclic loaded specimen was obtained by a three-point bend test as per ASTM D790-03 [Standard Test Methods for Flexural Properties of Unreinforced and Reinforced Plastics and Electrical insulating Materials, ASTM International, West Conshohocken, PA, 2003, www.astm.org]. Experimental results are statistically investigated by analysis of variance (ANOVA), signal-to-noise ratio (S/N), and regression analysis. During the study, the critical value of loading frequency and cycle was observed for attaining enhanced flexural modulus. The presence of an energy absorbing resin layer enhances the sustainability of the composite leaf. The damage pattern with orthogonal interaction after loading was examined by the specimen morphology.


    Author Information:

    Loganathan, T. G.
    Dept. of Mechanical Engineering, RMK College of Engineering and Technology, Tamil Nadu

    Krishnamurthy, R.
    Dept. of Mechanical Engineering, RMK Engineering College, Kavaraipettai, Tamil Nadu

    Chandrasekaran, K.
    Dept. of Mechanical Engineering, RMK Engineering College, Kavaraipettai, Tamil Nadu


    Stock #: JTE20140520

    ISSN:0090-3973

    DOI: 10.1520/JTE20140520

    Author
    Title Significance of Energy Absorbing Layer in GFRP Composite on Flexural Response
    Symposium ,
    Committee D30