Dynamic Mode II Delamination in Through Thickness Reinforced Composites

Yasaee, Mehdi; Mohamed, G.; Pellegrino, Antonio; Petrinić, Nik; Hallett, Stephen R

doi:10.1007/978-3-319-42195-7_13

Cited by 3 publications

(2 citation statements)

References 15 publications

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“…Thus, the study of ENF specimen will be examined and compared with different specimen and analysed. Thus the energy release rate and strain energy release rate will be studied [13][14][15][16].…”

Section: Revised Manuscript Received On December 15 2019mentioning

confidence: 99%

Examination of Tensile Strength and End Notch Flexure Properties of Unidirectional Basalt Fabric Reinforced Polymer Composites With and Without Addition of Biochar Filler

2019

IJITEE

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The effect of biochar filler (carbon particle) on the mechanical properties over the inter-laminar surfaces of basalt unidirectional fabric/polyester resin is going to be scrutinized using Mode II delamination method. The ENF (end notch flexure) specimen is fabricated using hand layup method. Here basalt fabric is synthesized using unsaturated polymer resin with the help of methyl ethyl ketone peroxide and cobalt naphthenate as a catalyst. Both specimens are manufactured with and without biochar conditions. The laminate length and width will be customized as per the required dimensions of the ASTM standard. The ENF specimens are tested using the universal testing machine and the strain energy released rate and displacement of each specimen are been measured. The biochar based laminated composite has a resistant towards the fracture developed on laminated composite during testing due to the addition of carbon particles.

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Section: Revised Manuscript Received On December 15 2019mentioning

confidence: 99%

Examination of Tensile Strength and End Notch Flexure Properties of Unidirectional Basalt Fabric Reinforced Polymer Composites With and Without Addition of Biochar Filler

2019

IJITEE

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show abstract

“…The need for a sub-element scale test in which large delaminations are developed is highlighted by the case of Z-pin TTR, which is used to reinforce the interlaminar regions in laminates made from preimpregnated material (pre-preg). It has been established that in order to test the efficacy of Z-pin TTR in arresting crack propagation, a Z-pin array must encounter a crack over sufficient distance and thus be implemented in a structure of sufficient scale to invoke large-scale bridging of that array [11][12][13]. During large-scale bridging the crack becomes large enough to cause pins to 'bridge' the fracture surfaces over sufficient distance to generate the maximum possible bridging force to suppress further propagation (Fig.…”

Section: Introductionmentioning

confidence: 99%