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Low-velocity impact behavior in multi-layered structures and hybrid composites via sandwich stacking techniques

Authors
Hiremath, ShivashankarZhang, YuKim, Tae-Won
Issue Date
Jun-2024
Publisher
John Wiley & Sons Inc.
Keywords
aramid fibers; failure modes; hybrid stacking; impact behavior; laminated composite
Citation
Polymer Composites, v.45, no.8, pp 7439 - 7454
Pages
16
Indexed
SCIE
SCOPUS
Journal Title
Polymer Composites
Volume
45
Number
8
Start Page
7439
End Page
7454
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/204801
DOI
10.1002/pc.28277
ISSN
0272-8397
1548-0569
Abstract
The study aimed to investigate the impact behavior of fabric laminates composed of carbon, Kevlar, and hybrid materials through low-velocity impact tests. Non-hybrid and hybrid laminates were created using layup techniques with sandwich stacking sequences. Drop weight impact tests were conducted using varying levels of impact energy to assess the influence of stacking sequence and hybridization on impact properties. The results showed significant improvements in impact properties with increasing stacking sequence, particularly a 108.8% and 137.4% enhancement in C4 and K4 laminates, respectively. Kevlar laminates exhibited higher energy resistance than carbon laminates, and the Kevlar-carbon-Kevlar-carbon hybrid laminate demonstrated superior impact force and energy absorption capabilities. Additionally, the study analyzed penetration depth and identified different failure modes dependent on stacking sequence and impact energy levels. These findings provide valuable insights for optimizing fabric laminated composites. Thus, the research could be implemented in industries requiring materials with enhanced impact resistance, such as aerospace, automotive, sports equipment, and protective gear manufacturing. Highlights: Investigated the impact performance of stacked fabric structures, including carbon, Kevlar, and hybrid laminated composites, through low-velocity impact tests. Fabricated both non-hybrid and hybrid laminates using layup techniques with a sandwich stacking sequence to assess the impact properties of the composite laminates. Observed greater penetration depth in the C2 stacked structure, while the KCKC hybrid laminate showcased greater resistance to a depth of penetration (DOP). Various failure modes were investigated, demonstrating their relationship with stacking sequence and impact energy levels.
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