Drop-weight impact behaviour of woven hybrid basalt–carbon/epoxy composites

Sarasini, Fabrizio; Tirillò, Jacopo; Ferrante, Luca; Valente, Marco; Valente, Teodoro; Lampani, Luca; Gaudenzi, Paolo; Cioffi, Salvatore; Iannace, Salvatore; Sorrentino, Luigi

doi:10.1016/j.compositesb.2013.12.006

Cited by 230 publications

(102 citation statements)

References 42 publications

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“…Petrucci et al [6] studied mechanical performance of different hybrid laminates based on basalt fibre for inner core material, and glass, flax and hemp fibre for outer layers for symmetrical configuration. Sarasini et al [7] investigated the quasi-static mechanical properties and low velocity impact behaviour of carbon/basalt laminates and the effects of hybridization on those properties. Petrucci et al [8] examined the impact and flexural postimpact behavior of ternary hybrid composites based on epoxy resin reinforced with basalt, flex, hemp and glass fibres.…”

Section: Introductionmentioning

confidence: 99%

Effect of Fibre Orientations on Damping and Vibration Characteristics of Basalt Epoxy Composite Laminates

Bozkurt¹,

Bulut²,

Özbek³

2016

World Congress on Civil, Structural, and Environmental Engineering

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-Damping and vibration characteristics of basalt epoxy fibre-reinforced composite laminated materials have been investigated with respect to the effect of fibre orientations. Four symmetric laminates having [(0/90) 4 ] S fibre orientation angles were prepared using plain weave basalt fabrics as reinforcement. The dynamic modal analysis was performed to determine dynamic characteristics of the composite laminates. Using half power band-width method, the damping properties were deduced from vibration response envelope curve. Loss modulus, storage modulus and damping ratio of the structures were also determined. It was observed that damping and vibration characteristics of the composite samples were strongly affected by the fibre orientation of basalt/epoxy composite. The increase in angle of fibre orientation from 0˚ to 45˚ resulted in a decrease in natural frequencies and an increase in damping ratios.

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Section: Introductionmentioning

confidence: 99%

Effect of Fibre Orientations on Damping and Vibration Characteristics of Basalt Epoxy Composite Laminates

Bozkurt¹,

Bulut²,

Özbek³

2016

World Congress on Civil, Structural, and Environmental Engineering

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“…It is found that hybrid composites have higher interlaminar shear, tensile, as well as compression after impact properties by using hybridization approach [10][11][12][13][14]. While researches on dynamical characteristics of hybrid composites are usually comprised of mechanical experiments such as low-velocity impact test [15][16][17][18][19][20][21][22][23][24][25][26][27][28][29]. In this regards, Hosur et al [15] carried out the experimental investigation to determine the response of four different combinations of hybrid laminates under low-velocity impact load.…”

Section: Introductionmentioning

confidence: 99%

Experimental and numerical investigation of interply hybrid composites based on woven fabrics and PCBT resin subjected to low-velocity impact

Yang

Wang

Zhou

et al. 2015

Composite Structures

102

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“…These have the flexibility of design and superior manufacturing over other materials [11][12][13][14]. Recently, as the need for the development of new materials is increasing, high-performance multi-functional composites are being actively developed with properties such as lightweight, heat resistance, electrical conductivity, vibration damping, and dimensional stability [15][16][17][18][19].…”

Section: Introductionmentioning

confidence: 99%

Bending properties of carbon/glass and carbon/aramid fabric composites with various stacking structures by the VARTM method

Song

2016

Fibers Polym

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In this paper, the bending properties of woven carbon/glass and carbon/aramid fabric-reinforced polymer laminates is studied using a combination of experimental analysis and fracture observation. Six types of each hybrid composite were manufactured by lamination of the carbon/aramid fabric and carbon/glass fabric using VARTM. Bending behaviors were fundamentally evaluated for the six types of monolithic composites laminated by the same fabric. The objective was to achieve a good bending strength by effective combination of composite structures using limited amounts of a raw material. It was shown that the bending property was different, depending on the type of fiber, lamination structure, and the number of layers.

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Drop-weight impact behaviour of woven hybrid basalt–carbon/epoxy composites

Cited by 230 publications

References 42 publications

Effect of Fibre Orientations on Damping and Vibration Characteristics of Basalt Epoxy Composite Laminates

Effect of Fibre Orientations on Damping and Vibration Characteristics of Basalt Epoxy Composite Laminates

Experimental and numerical investigation of interply hybrid composites based on woven fabrics and PCBT resin subjected to low-velocity impact

Bending properties of carbon/glass and carbon/aramid fabric composites with various stacking structures by the VARTM method

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