Multimaterial laminated composites: An assessment of effect of stacking sequence on flexural response

K, B. N. V. S. Ganesh Gupta; Hiremath, Mritunjay Maharudrayya; Fulmali, Abhinav Omprakash; Prusty, Rajesh Kumar; Ray, Bankim Chandra

doi:10.1016/j.matpr.2020.08.547

Cited by 4 publications

(2 citation statements)

References 17 publications

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“…Hu et al [ 22 ] found that the modulus of elasticity of fiber metal laminates (FMLs) was determined by the interfacial adhesion of the fibers, the volume fraction, and the lay‐up direction. Gupta et al [ 23 ] investigated the effect of the stacking sequence of tin and GFRP on the flexural modulus of tin/GFRP laminates. They showed that the Sn–G2–Sn–G2–Sn laminated composite exhibited superior performance in terms of flexural modulus.…”

Section: Introductionmentioning

confidence: 99%

Distribution law of strain energy density for stiffness design of GFRP, UT/GFRP, and VRB/GFRP hybrid hat‐shaped beams

et al. 2022

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Section: Introductionmentioning

confidence: 99%

Distribution law of strain energy density for stiffness design of GFRP, UT/GFRP, and VRB/GFRP hybrid hat‐shaped beams

et al. 2022

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“…us, FMLs are applicable in various industries and are used in aircraft, wind turbine, and automobile. A laminated composite made with thin sheet/grass was investigated by BnvsGaneshGupta et al [2] for the flexural properties. ey evaluated flexural strength and failure analysis using stereo microscope.…”

Section: Introductionmentioning

confidence: 99%

Thermoelastic Characteristics of Functionally Graded Circular Disk Models under the Loading of Contact Forces

2021

Mathematical Problems in Engineering

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A rotating functionally graded circular disk undergoing a contact load is taken into account to investigate the thermoelastic characteristics. By considering contact force, a pair of partial differential equations is induced as the governing equations based on Hooke’s law. The behavior of circular disk modes is described with the variations of contact force and homogeneous thickness. A finite volume model is introduced to obtain approximate solutions for the governing equations because of the complexity of the equations. Contact force is highly influential in the radial direction compared to the circumferential direction in the displacement distribution, while a large radial stress appears near the area of the contact point. In the strain distribution, the magnitude increases as the angle grows near part of the outer boundary in the circular domain. The radial distribution profiles are susceptible to the growth of contact force in nearby area of the outer boundary, whereas the influences on the circumferential direction profiles are trivial. The increase of homogeneous thickness dwindles the radial magnitude of displacement, stress, and strain distribution profiles over nearby area of the outer boundary of the circular domain. As a result, numerical approach demonstrates that contact force and homogeneous thickness are indispensable parameters and provide deep influence on the thermoelastic movements of a rotating circular disk. Thus, the results obtained may be useful to design an appropriate FGM circular disk model for the industrial area by controlling the above parameters.

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Effect of 1D carbon nano- tube and fiber reinforcement on the long-term creep performance of glass fiber/epoxy composite using the time-temperature superposition principle

Fulmali

Nayak

Dasari

et al. 2021

Materials Today: Proceedings

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Multimaterial laminated composites: An assessment of effect of stacking sequence on flexural response

Cited by 4 publications

References 17 publications

Distribution law of strain energy density for stiffness design of GFRP, UT/GFRP, and VRB/GFRP hybrid hat‐shaped beams

Distribution law of strain energy density for stiffness design of GFRP, UT/GFRP, and VRB/GFRP hybrid hat‐shaped beams

Thermoelastic Characteristics of Functionally Graded Circular Disk Models under the Loading of Contact Forces

Effect of 1D carbon nano- tube and fiber reinforcement on the long-term creep performance of glass fiber/epoxy composite using the time-temperature superposition principle

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