2017
DOI: 10.1088/1757-899x/270/1/012026
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Ballistic impact velocity response of carbon fibre reinforced aluminium alloy laminates for aero-engine

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Cited by 6 publications
(5 citation statements)
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References 33 publications
(29 reference statements)
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“…The impact result showed that all four composites can withstand a low-velocity impact with the highest residual velocity in CARALL2 and the lowest on CARALL3. The result was in agreement with the result reported by Mohammed et al [9]. Also, the result showed that the FML composite of synthetic fibre yielded better mechanical properties than composites that were sandwiched with greener fibre material, as observed in glass fibre and bamboo composite [32].…”
Section: Fig 5: Mechanical Test Resultssupporting
confidence: 91%
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“…The impact result showed that all four composites can withstand a low-velocity impact with the highest residual velocity in CARALL2 and the lowest on CARALL3. The result was in agreement with the result reported by Mohammed et al [9]. Also, the result showed that the FML composite of synthetic fibre yielded better mechanical properties than composites that were sandwiched with greener fibre material, as observed in glass fibre and bamboo composite [32].…”
Section: Fig 5: Mechanical Test Resultssupporting
confidence: 91%
“…CARALL2 was 66.67%, 83.32% and 33.33% higher than CAR-ALL4, CARALL3 and CARALL1 respectively in terms of impact strength on low velocity, for total energy absorbed before crack begins in the composite. More delamination was observed on CARALL1 due to the number of aluminium alloy used in the composite that showed lower surface dissipation of energy, the result coincided with the results obtained using glass fibre reinforced plastic and other investigations [9,[46][47][48].…”
Section: Fig 6: Stress Vs Strainsupporting
confidence: 88%
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“…Also, many different type of instruments were used to measure the temperature and heat flux (Mohammed et al, 2016) in the fire-test. Various types of composite materials were used in the fabrication of new aircraft generation components which include carbon fibre reinforced plastic and fibre metal laminates composites, but its main problems are weight and delamination by using so many layers (Mohammed et al, 2017;Sikoutris, 2012;Tranchard et al, 2015). To avoid delamination due to thermal shock and a reduced weight, a greener material is required for a component of such locations (Bheekhun et al, 2016).…”
Section: Introductionmentioning
confidence: 99%
“…Among the types of FML composites fabricated and used today in different part of machine were Kevlar composite (ARALL) that have the drawback of brittleness that limits its application on the primary structures, carbon fiber and glass fibre reinforced composite (CARALL and GLARE) with excellent properties were developed and been used widely now a day in various industries (Jumahat et al, 2015;Li & WU, 2017;. The glass and carbon fibers reinforced plastic (CFRP and GFRP) composites has been used for many past decade due to its high mechanical, thermal and impact properties in terms of stiffness and strength (Matthews & Rawlings, 1999;Mohammed et al, 2017). These reinforced fibers were in different structures (pre-perg and woven), with carbon fiber been more stronger and lighter than glass-fibre, while in terms of health issues glass fibre is more harmful than carbon fibre.…”
Section: Introductionmentioning
confidence: 99%