Experimental Study on Mechanical Properties of Polymer Based Hybrid Composite

Vinay, H.B.; Govindaraju, H.K.; Banakar, Prashanth

doi:10.1016/j.matpr.2017.08.045

Cited by 6 publications

(4 citation statements)

References 8 publications

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“…There are many papers focusing on the manufacture of laminated composites using the hand lay-up techniques and their characterization [8].In the present study the composite laminate specimens are prepared using the hand layup technique and the specimens are subjected to the investigation as per the ASTM standards. As the laminate is prepared, it has to be subjected to post curative so the all the layers of the lamina link together.…”

Section: Experimental Methodsmentioning

confidence: 99%

Static and Dynamic Mechanical Behavior of Hybrid Fibers Composites

Vinay¹,

Govindaraju

2018

IOP Conf. Ser.: Mater. Sci. Eng.

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View the article online for updates and enhancements. Abstract:Fiber reinforced polymer composites demonstrate essentially better execution over many regular metallic materials in light of their prevalent quality than weight proportion and greaterstiffness. Improvement of properties of FRP composites can be conceivable by the alteration of matrix properties.After the construction work, The static mechanical properties like Inter laminar shear strength and impact strength and dynamic mechanical properties arethe viscoelastic properties such as storage modulus, loss modulus, and tan delta (Damping Behavior) of the materials were deliberated by the Dynamic Mechanical Analysis as a part of temperature of these laminates were experimentally estimated as per ASTM standards for investigate the mechanical behavior of the hybrid fabric reinforced vinyl ester composites are behaved differently on different combination of hybrid fibers and described in detail.

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Section: Experimental Methodsmentioning

confidence: 99%

Static and Dynamic Mechanical Behavior of Hybrid Fibers Composites

Vinay¹,

Govindaraju

2018

IOP Conf. Ser.: Mater. Sci. Eng.

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“…The polymer‐based hybrid kevlar/carbon fiber composites were produced with the support of lay‐up process and subjected to bending tests. [ 159 ] The results showed that fiber loading essentially impacts the distinctive characteristics of composites. High‐performance and lightweight laminated hybrid composites were fabricated by using carbon, kevlar, and hybrid fabrics.…”

Section: Effect Of Hybridization On Propertiesmentioning

confidence: 99%

Effect of hybridization on properties of natural and synthetic fiber‐reinforced polymer composites (2001–2020): A review

2021

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In the past two decades (2001)(2002)(2003)(2004)(2005)(2006)(2007)(2008)(2009)(2010)(2011)(2012)(2013)(2014)(2015)(2016)(2017)(2018)(2019)(2020), researchers have been attracted toward hybrid composite materials reinforced with synthetic and natural fibers. Biodegradability and harmlessness to the environment are the major attributes of natural fibers, such qualities support these fibers to reinforce into composites. At the same time, higher moisture absorption and poor compatibility characteristics of natural fibers have forced to hybridize with other synthetic/natural fibers. Several researchers have already done the hybridization of natural fibers with synthetic/natural fibers to overcome the limitations of natural fibers. Due to this reason, we perform a literature review on the influence of hybridization on the properties of composites reinforced with synthetic and natural fibers. This review is made on resulting properties of hybrid composites such as mechanical, thermal, water absorption, tribological behavior, morphological characteristics, and other properties from the year 2001 to 2020.

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“…As the glass fiber impact, energy absorption is higher than Kevlar fiber. Vinay et al [21] found that glass-carbon and carbon-Kevlar hybrid composites have excellent hardness and flexural properties because of their good adhesive bonding. Khan et al [22] found a positive hybrid effect of glass-carbon hybrid composites.…”

Section: Introductionmentioning

confidence: 99%

Development of Improved Flexural and Impact Performance of Kevlar/Carbon/Glass Fibers Reinforced Polymer Hybrid Composites

et al. 2022

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The present investigation focuses on developing cost-effective Carbon/Glass/Kevlar fiber-reinforced polymer hybrid composite laminates for achieving its synergistic effect on flexural and impact performance. It investigates the effect of stacking sequence induced by the use of different fiber types (Kevlar = K, glass = G, and carbon = C) on the flexural and impact performance of the composites. Five hybrid composites (labelled as A = [G2K3G2], B = [KG2CG2K], C = [CKGCGKC], D = [CGKCKGC], E = [CK2CK2C]) and three plain (i.e., non-hybrid) composites (F = [K]7, G = [G]7, H = [C]7) have been fabricated through manual pre-preg lay-up manufacturing techniques. The flexural strength and modulus, hardness, and Izod impact strength have been evaluated for the fabricated composites and compared. The results showed that the D-type hybrid composite achieves the maximum positive hybrid effect as compared to other hybrid composites, possesses a hardness of 59 BHN, a flexural strength of 380 MPa, and modulus of 36 GPa, and impact strength of 80 KJ/m2. The fracture surfaces of the hybrid composite specimen have been analysed using scanning electron microscopy, and compared against the properties achieved for enabling correlations. Furthermore, the cost-efficiency of the hybridization in terms of flexural strength/cost, modulus/cost, and impact strength/cost ratio were evaluated for potential engineering and design applications.

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Experimental Study on Mechanical Properties of Polymer Based Hybrid Composite

Cited by 6 publications

References 8 publications

Static and Dynamic Mechanical Behavior of Hybrid Fibers Composites

Static and Dynamic Mechanical Behavior of Hybrid Fibers Composites

Effect of hybridization on properties of natural and synthetic fiber‐reinforced polymer composites (2001–2020): A review

Development of Improved Flexural and Impact Performance of Kevlar/Carbon/Glass Fibers Reinforced Polymer Hybrid Composites

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