The energy absorption behavior of hybrid composite laminates containing nano-fillers under ballistic impact

Haro, Edison E.; Odeshi, A.G.; Szpunar, Jerzy A.

doi:10.1016/j.ijimpeng.2016.05.012

Cited by 106 publications

(47 citation statements)

References 27 publications

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“…For nano-particulate materials, such as nanosilica, debonding and subsequent plastic void growth were most likely to be responsible for the increase in fracture toughness [92]. The nanoparticles were also found to reduce the damage area and increase the absorbed energy resulting from low velocity impact [64,68,69,90,93,94] and ballistic impact [70,71,95], with more tangible effects in the ballistic impact compared with quasi-static loading [96]. A higher residual shear strength after impact resulted by the Nano particles modification [70], however, the ultimate laminate compression strength after impact was not necessarily improved [64,68], most probably due to agglomerates of nanoparticles found in the cured resin systems.…”

Section: Zero-dimensional (0d)mentioning

confidence: 99%

Improvement of the Impact Properties of Composite Laminates by Means of Nano-Modification of the Matrix—A Review

2018

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This paper reviews recent works on the application of nanofibers and nanoparticle reinforcements to enhance the interlaminar fracture toughness, to reduce the impact induced damage and to improve the compression after impact performance of fiber reinforced composites with brittle thermosetting resins. The nanofibers have been mainly used as mats embedded between plies of laminated composites, whereas the nanoparticles have been used in 0D, 1D, 2D, and 3D dimensional patterns to reinforce the matrix and consequently the composite. The reinforcement mechanisms are presented, and a comparison is done between the different papers in the literature. This review shows that in order to have an efficient reinforcement effect, careful consideration is required in the manufacturing, materials selection and reinforcement content and percentage. The selection of the right parameters can provide a tough and impact resistant composite with cost effective reinforcements.

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Section: Zero-dimensional (0d)mentioning

confidence: 99%

Improvement of the Impact Properties of Composite Laminates by Means of Nano-Modification of the Matrix—A Review

2018

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“…Back plate Ti 6 Al 4 V provides the best resilience compared to carbon fiber plate and aluminum alloy as it improves the energy balance in UHMPE middle layer [22]. The ballistic impact resistance and impact energy absorption of the hybrid composite laminates were enhanced by deposition of micro and nano-fillers into the surface of the Kevlar fibers fabrics [23].…”

Section: Literature Review and Problem Statementmentioning

confidence: 99%

Energy absorbers on the steel plate – rubber laminate after deformable projectile impact

Purwanto

Soenoko

Purnowidodo

et al. 2018

EEJET

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Енергопоглинаюча здатнiсть може бути використана для вимiрювання опору матерiалу балiстичному удару. Метою даної роботи є аналiз енергопоглинаючої пластини з гумовим покриттям за допомогою пострiлу деформованими снарядами. Дане дослiдження проведено з використанням чисельного моделювання на основi кiнцевого елемента, пiдтвердженого експериментальними результатами. Установка моделювання на сталевiй пластинi з рiзною твердiстю з додаванням товщини гуми виготовлена у виглядi балiстичної випробувальної панелi. Шари не були закрiпленi на заднiй пластинi. Пострiл в панель здiйснювався з використанням деформованої кулi калiбру 5,56×45 мм з вiдстанню 15 м вiд нормального кута атаки. Для моделювання використовувався алгоритм по методу кiнцевих елементiв з моделями еластопластичного матерiалу Джонсона-Кука i Мунi-Рiвлiн. Результати моделювання показують, що енергiя балiстичного удару, отримана i поглинена панеллю, значно зростає незабаром пiсля зiткнення до тих пiр, поки не досягне певного значення на однiй пластинi, де енергiя зменшиться завдяки успiшному проникненню снаряда в пластину. У той час як на шаруватiй пластинi, пiсля того, як снаряду вдалося проникнути в передню бiчну пластину, енергiя поглинання досягла максимального значення i не змiнилася, що призвело до того, що снаряд не змiг проникнути в наступний шар. Данi результати свiдчать про те, що додавання гуми з шаруватою структурою дозволяє поглинати енергiю балiстичного удару. Ключовi слова: поглинач енергiї, тверда пластина, м'яка пластина, балiстична шарувата пластина, гума, балiстичний удар, моделювання

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“…Other fillers have also been considered. For instance, Haro et al [ 87 ] incorporated micro- and nano-powders of alumina, gamma alumina, silicon carbide, colloidal silica, and potato flour into Arall FML (Kevlar-epoxy/aluminum fiber metal laminate), all at around 44 wt % concentration. The ballistic impact results showed that the aluminum powder led to the most optimal impact energy absorption capacity.…”

Section: Effect Of Nanoparticles On Delamination-related Propertiementioning

confidence: 99%

Use of Nanoparticles for Enhancing the Interlaminar Properties of Fiber-Reinforced Composites and Adhesively Bonded Joints—A Review

Cicco

Asaee

Taheri‬‬‬‬‬‬‬‬‬‬‬‬‬‬‬‬‬‬‬‬‬‬

2017

Nanomaterials

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This review paper aims at reporting some of the notable works carried out concerning the use of nanoparticles (NPs) as a means of improving the resistance of fiber-reinforced polymer composite materials (FRPs) and adhesively bonded joints (ABJs) to delamination initiation and propagation. Applications of various nanoparticles, such as carbon-based, ceramic-based and mineral-based are discussed. The main properties that have been considered for improving the delamination and fatigue resistance of FRPs are the interlaminar shear strength, fracture toughness, and fracture energy. On the other hand, cohesive and interfacial strengths have been the focused parameters in the works that considered enhancement of ABJs. The reported results indicate that inclusion of NPs in polymeric matrices leads to improvement of various material properties, even though some discrepancies in the results have been noted. Notwithstanding, additional research is required to address some of the issues that have not yet been tackled, some of which will be identified throughout this review article.

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The energy absorption behavior of hybrid composite laminates containing nano-fillers under ballistic impact

Cited by 106 publications

References 27 publications

Improvement of the Impact Properties of Composite Laminates by Means of Nano-Modification of the Matrix—A Review

Improvement of the Impact Properties of Composite Laminates by Means of Nano-Modification of the Matrix—A Review

Energy absorbers on the steel plate – rubber laminate after deformable projectile impact

Use of Nanoparticles for Enhancing the Interlaminar Properties of Fiber-Reinforced Composites and Adhesively Bonded Joints—A Review

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