PSI - Issue 14

P R Krishna Mohan et al. / Procedia Structural Integrity 14 (2019) 176–183 P R Krishna Mohan/ StructuralIntegrity Procedia 00 (2018) 000–000

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• The vacuum 0° laminate with a strength of 1750.32 MPa has been able to match the strength with that available in the literature. • From FTIR analysis it is observed that there is a significant amount of desirable functional groups induced on the fiber due to plasma treatment that shall contribute for better wettability. References Buehler, F.U. and Seferis, J.C., 2000. Effect of reinforcement and solvent content on moisture absorption in epoxy composite materials. Composites Part A: Applied Science and Manufacturing, 31(7), pp.741-748. Elanchezhian, C., Ramnath, B.V. and Hemalatha, J., 2014. Mechanical behaviour of glass and carbon fibre reinforced composites at varying strain rates and temperatures. Procedia Materials Science, 6, pp.1405-1418. Hayes, B.S., Gilbert, E.N. and Seferis, J.C., 2000. Scaling complications of dual temperature cure resin prepreg systems in airplane part manufacture. Composites Part A: Applied Science and Manufacturing, 31(7), pp.717-725. Paiva, J.M.F.D., Mayer, S. and Rezende, M.C., 2006. Comparison of tensile strength of different carbon fabric reinforced epoxy composites. Materials Research, 9(1), pp.83-90. Paiva, J.M.F.D., Santos, A.D.N.D. and Rezende, M.C., 2009. Mechanical and morphological characterizations of carbon fiber fabric reinforced epoxy composites used in aeronautical field. Materials Research, 12(3), pp.367-374. Rahul, R. and Kitey, R., 2016.Effect of cross-linking on dynamic mechanical and fracture behavior of epoxy variants. Composites Part B: Engineering, 85, pp.336-342. Reddy, C.V., Babu, P.R., Ramnarayanan, R. and Das, D., 2017. Mechanical characterization of unidirectional carbon and glass/epoxy reinforced composites for high strength applications. materials today: Proceedings, 4(2), pp.3166-3172. Schwartz, M.M., 1997. Composite materials. Volume 1: Properties, non-destructive testing, and repair. Vishnu, A. R., 2016. Characterization micromechanical analysis and prediction of effective properties of prepreg based discontinuous composite. Master’s thesis, IIT Kanpur. Vishnu, A.R., Krishnamohan, P.R. and Mohite, P.M., 2017. Characterization, Micromechanical Analysis and Prediction of Effective Properties of Prepreg Based Discontinuous Composite. In Proceedings of ICTACEM 2017, IIT kharagpur. Yee, R.Y. and Stephens, T.S., 1996. A TGA technique for determining graphite fiber content in epoxy composites. ThermochimicaActa, 272, pp.191-199.