An analysis on tensile and flexural loading response for unidirectional<scp>CFRP</scp>laminate with cutout/hole: Geometrical design effect on the material strength

Gupta, Savita; Pal, Snehanshu; Ray, Bankim Chandra

doi:10.1002/app.53139

J of Applied Polymer Sci

2022

DOI: 10.1002/app.53139

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An analysis on tensile and flexural loading response for unidirectionalCFRPlaminate with cutout/hole: Geometrical design effect on the material strength

Savita Gupta

Snehanshu Pal

Bankim Chandra Ray

Abstract: A comparative analysis has been done on CFRP laminate to understand the design aspect of cutouts under tensile and flexural loading. Detailed analysis of strength, modulus, and variance in failure mechanism has been done to assess the relationship between material strength and design under two different loading conditions. Longitudinal and cross ply stacking sequences are considered. Tensile loading is found to be more detrimental than flexural loading for composite laminate with hole. SEM and optical microgra… Show more

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2024

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Implementation of a new approach based on the functionally graded materials concept to improve the strength of laminated composites containing open‐hole

Mobtasem,

Abd‐Elhady,

Sallam

2024

Polymer Composites

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The main objective of the present study is to implement a functionally graded materials (FGM) technique to reduce the hole effect in fiber reinforcement polymers. The tensile and fracture behaviors of conventional and FGM composites containing open holes have been investigated. Open‐hole specimens having different hole sizes have been fabricated using a hand lay‐up technique with different cross‐ply stacking sequences and various numbers of layers to study the open‐hole effect on their tensile strength. On the other hand, a three‐dimensional finite element analysis with the Hashin model was implemented to observe the failure modes along each layer. Experimental and numerical data revealed that the FGM technique enhanced the performance of specimens in the presence of a hole by increasing the fibers around the hole area. Furthermore, the [0/90/0°] sequence has more tensile strength than [0/90]s and [0°/90°/0°/90°/0°] sequences. It can be concluded that the bearing capacity of cross‐ply laminates is proportionally dependent on the ratio of the number of 0° layers to the number of 90° layers and inversely dependent on the specimen thickness.Highlights Dense fibers around the open hole improve its strength in laminated composite. The FGM concept has been successfully employed to improve open‐hole strength. The stacking sequence [0°/90°/0°] has better tensile strength than [0°/90°]s. FEA has successfully simulated the FGM concept around the open hole. The open‐hole failure occurred in the same direction as fiber orientation.

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Implementation of a new approach based on the functionally graded materials concept to improve the strength of laminated composites containing open‐hole

Mobtasem,

Abd‐Elhady,

Sallam

2024

Polymer Composites

View full text Add to dashboard Cite

show abstract

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An analysis on tensile and flexural loading response for unidirectionalCFRPlaminate with cutout/hole: Geometrical design effect on the material strength

Cited by 1 publication

References 30 publications

Implementation of a new approach based on the functionally graded materials concept to improve the strength of laminated composites containing open‐hole

Implementation of a new approach based on the functionally graded materials concept to improve the strength of laminated composites containing open‐hole

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