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Deceleration behavior of multi‑layer cork composites intercalated with a non‑Newtonian material

Sheikhi Mohammad Rauf, Gürgen Selim

Archives of Civil and Mechanical Engineering

2023

Vol. 23, no. 1

art. no. e2, 2023

Impact or sudden accelerations are strictly avoided by sensitive systems such as electronic devices, robotic structures and unmanned aerial vehicles (UAVs). In order to protect these systems, various composites have been developed in recent years. Due to its excellent energy absorbing capabilities as well as eco-friendly and sustainable properties, cork is one of promising materials dedicated to protective applications. In this study, we beneft from cork agglomerates in multi-layer design considering its advantages such as high fexural stifnesstoweight ratio and good buckling resistance over monolithic structures. In addition, a non-Newtonian material, namely shear thickening fuid (STF) was incorporated in this design. STF shows rapid increase in its viscosity under loading and thereby enabling a stifer texture that contributes to protective performance. At rest state, STF exhibit fuidic behavior and provides fexibility for composite. In the experimental stage, deceleration behavior of these composites was investigated. According to the analyses, STF exhibits promising results to lower peak decelerations while extending time period of deceleration under impact loading. STF contribution is pronounced by using this material in a closed medium such as in wrapped foam to avoid spilling out of composite during impact. The designed eco-friendly smart composites are suggested to cover internal parts in sensitive systems. Micro-mobility helmet is another prospective application area for cork/STF structures since they provide light-weight, excellent fexibility and good deceleration behavior.

Synthesis and Stab Resistance of Shear Thickening Fluid (STF) Impregnated Glass Fabric Composites

Yu K., Cao H., Qian K., Jiang L., Li H.

Fibres & Textiles in Eastern Europe

2012

Vol. 20, no. 6A (95)

126--128

A shear thickening fluid (STF) was prepared successfully and its rheological behavior was investigated. Glass fabrics were soaked in STF/ethanol solution to prepare STF-glass fabric composites. The morphologies of the STF-glass fabric composites were observed by SEM. Quasi-static stab-resistant tests were carried out on both the neat glass fabrics and STF-glass fabric composites using a knife based on the areal density. The corresponding puncture and strengthen mechanisms were also investigated.

Przygotowano ciecz gęstniejącą pod wpływem ścinania (STF) i zbadano jej właściwości reologiczne. Tkaniny z włókien szklanych były nasycane roztworem STF/etanol dla przygotowania kompozytów. Morfologię kompozytów badano za pomocą skaningowej mikroskopii elektronowej. Prowadzono quasi-statyczne badania na przebicie na tkaninach szklanych nienasączonych oraz na opracowanych kompozytach za pomocą noża o specjalnie zaprojektowanej konstrukcji. Niezależnie od testów porównawczych badano również mechanizm przebicia.