Investigation of the mechanic behaviours in hollow composite shafts having different fiber reinforcement and orientation angles

Yıldırım, Hayri; Pıhtılı, Haşim

doi:10.1002/mawe.201600509

Materialwissenschaft Werkst

2016

DOI: 10.1002/mawe.201600509

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Investigation of the mechanic behaviours in hollow composite shafts having different fiber reinforcement and orientation angles

Hayri Yıldırım

Haşim Pıhtılı

Abstract: This study experimentally investigates the mechanical properties and behaviors of the hollow circular composite shafts, which are widely used in the industry and operated under a variety of environmental influences. Within the context of this study, glass, carbon and kevlar fibers were utilized as fiber materials and epoxy resins were preferred as the matrix material for hollow circular composite shafts. Composite shafts having 80 mm, 200 mm, 250 mm length and different internal diameters were used for three-p… Show more

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Cited by 3 publications

References 27 publications

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Experimental investigations of the environmental effects on stability and integrity of composite sandwich T-joints

Khosravani

Weinberg

2017

Mat.-wiss. u. Werkstofftech.

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The superior mechanical properties of sandwich composites made them to favored materials, in particular in the aviation industry. However, environmental influences along the manufacturing process and during usage can reduce the strength and the life expectation of the composite parts. This contribution presents an experimental investigation on the effect of accelerated ageing on the mechanical properties of perpendicular honeycomb sandwich connections. Static tensile tests have been carried out on sets of new and 25 days artificially aged specimens and the load carrying capacity of the T‐joints has been measured. In parallel to the experimental part, a three dimensional finite element analysis has been performed. This combined approach allows quantifying the reduction of the fracture toughness of the connections. The obtained results will help to fulfill design requirements and to predict the long‐term structural behavior of sandwich composite constructions.

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Experimental investigations of the environmental effects on stability and integrity of composite sandwich T-joints

Khosravani

Weinberg

2017

Mat.-wiss. u. Werkstofftech.

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Polymeric composite reinforced by non‐crimp fabric: Effects of anisotropy and configuration on tensile and compressive behaviors

2018

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Glass fiber-reinforced plastics offer a wide range of application possibilities, especially regarding the use of new reinforcement configurations developed by the industry worldwide. Concerning these reinforcing materials, highlights are given to high performance fabrics such as hybrid and non-crimp fabrics (NCFs). However, the study of the mechanical behavior of composite laminates based on this type of reinforcement finds itself difficult due to the effects of hybridization (different forms of coupled fabrics), as well as anisotropy (influence of the orientation of the fibers relative to the loading direction) present in these fabrics. In this sense, this work aims to develop a composite laminate reinforced by four layers of multiaxial E-glass fiber NCF using epoxy vinyl ester resin commercially named Derakane Momentum 411-350 as matrix. The main objective is to analyze its strength and stiffness from the perspective of the effects of loading type (tensile and compressive tests), laminate configuration (stacking sequence), and anisotropy (orientation of the fibers/loading direction). Comparative studies were developed, in addition to macroscopic characterization of the mechanical fracture according to ASTM standards. The results showed that the laminate configuration have different influences, depending on the loading type (tensile or compressive loading). In terms of anisotropy, the test specimens aligned at AE45 presented a great reduction in the mechanical properties, both in tensile and compressive loading. Also, in comparison with the literature, it is observed that the LNCF laminate presented similar or higher mechanical behavior, validating the results obtained in this work.

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The post‐buckling analysis of cylindrical polymer fiber‐reinforced composite tubes subjected to axial loading fabricated by filament winding technology

Yıldırım

2024

Polymer Composites

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In this study, the post‐buckling damage behavior of cylindrical composite tubes was examined experimentally. The samples were reinforced with glass, carbon, and kevlar fibers to obtain glass‐reinforced fiber polymer (GRFP), carbon‐reinforced fiber polymer (CRFP), and Kevlar‐reinforced fiber polymer (KRFP) cylindrical tubes. The samples were produced using 4 stacking layers with filament winding technology. In producing all composite tubes, the outer diameter was kept constant at 17 mm, and two inner diameters of 12 and 13 mm, two wall thicknesses, 5 winding angles, and two lengths were used as parameters. The load was applied to the samples until completely damaged, and the maximum post‐buckling load values obtained were measured on the testing device. The effect of different reinforcement materials, winding angle, wall thickness, and length on the load‐carrying capacity was analyzed and it was understood that they had a significant effect. It was observed that the load‐carrying capacity of GFRP samples was the highest compared to the others, followed by CFRP and KFRP samples, respectively. In all samples, it was observed that a 0.5 mm wall thickness increase increased the load‐carrying capacity, while a 50 mm length increase decreased it. The energy absorption (EA) values of GFRP, CFRP, and KFRP samples were 46.99, 25.22, and 15.48 Joules, respectively. It was understood that the energy absorption of GFRP samples was 1.86 times better than CFRP and 3 times better than KFRP.Highlights The samples were produced using the fiber winding method, which is one of the most common production methods in the manufacture of tubes. Three different polymer reinforcement materials were used in the production of the samples. The effects of polymer reinforcement material, winding angle, length, and wall thickness on the maximum post‐buckling load were investigated. Wall thickness was found to have a significant effect on the maximum post‐buckling load. It was observed that GFRP samples had the highest energy absorption feature.

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Investigation of the mechanic behaviours in hollow composite shafts having different fiber reinforcement and orientation angles

Cited by 3 publications

References 27 publications

Experimental investigations of the environmental effects on stability and integrity of composite sandwich T-joints

Experimental investigations of the environmental effects on stability and integrity of composite sandwich T-joints

Polymeric composite reinforced by non‐crimp fabric: Effects of anisotropy and configuration on tensile and compressive behaviors

The post‐buckling analysis of cylindrical polymer fiber‐reinforced composite tubes subjected to axial loading fabricated by filament winding technology

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