Fabrication and Mechanical Properties of POSS Coated CNTs Reinforced Expancel foam core Sandwich Structures

Jones Wanda, Sapkota Bedanga, Simpson Brian, A. Hassan Tarig, Jeelani Shaik, R. Vijaya
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Abstract

Sandwich structures are progressively being used in various engineering applications due to the superior bending-stiffness-to-weight ratio of these structures. We adapted a novel technique to incorporate carbon nanotubes (CNTs) and polyhedral oligomeric silsesquioxanes (POSS) into a sandwich composite structure utilizing a sonochemical and high temperature vacuum assisted resin transfer molding technique. The objective of this work was to create a sandwich composite structure comprised of a nanophased foam core and reinforced nanophased face sheets, and to examine the thermal and mechanical properties of the structure. To prepare sandwich structure, POSS nanoparticles were sonochemically attached to CNTs and dispersed in a high temperature resin system to make the face sheet materials and also coated on expandable thermoplastic microspheres for the fabrication of foam core materials. The nanophased foam core was fabricated with POSS infused thermoplastic microspheres (Expancel) using a Tetrahedron MTP-14 programmable compression molder. The reinforced nanophased face sheet were fabricated by infusing POSS coated CNT in epoxy resin and then curing into a compression stainless steel mold. Thermal analysis of POSS-infused thermoplastic microspheres foam (TMF) showed an increase in thermal stability in both nitrogen and oxygen atmospheres, 19% increase in thermal residue were observed for 4 wt% GI-POSS TMF compared to neat TMF. Quasi-static compression results indicated significant increases (73%) in compressive modulus, and an increase (5%) in compressive strength for the 1 wt% EC-POSS/CNTs resin system. The nanophased sandwich structure constructed from the above resin system and the foam core system displayed an increase (9%) in modulus over the neat sandwich structure. The incorporation of POSS-nanofillier in the foam core and POSS-coated nanotubes in the face sheet significantly improved the thermal and mechanical properties of sandwich structure. Furthermore, the sandwich structure that was constructed from nanophased resin system showed an increase in modulus, with buckling in the foam core but no visible cracking.
POSS涂层CNTs增强膨胀泡沫芯夹层结构的制备及其力学性能
由于夹层结构具有优越的弯曲刚度-重量比,因此在各种工程应用中逐渐得到应用。我们采用了一种新的技术,将碳纳米管(CNTs)和多面体低聚硅氧烷(POSS)结合到一个三明治复合结构中,利用声化学和高温真空辅助树脂传递成型技术。这项工作的目的是创建一个由纳米泡沫芯和增强纳米相面片组成的三明治复合结构,并研究该结构的热性能和机械性能。为了制备夹层结构,将POSS纳米粒子声化学附着在碳纳米管上,分散在高温树脂体系中制备面片材料,并将其涂覆在可膨胀热塑性微球上制备泡沫芯材。采用四面体MTP-14可编程模压成型机,用POSS注入热塑性微球(Expancel)制备纳米泡沫芯。将POSS涂层碳纳米管注入环氧树脂中固化,制备出纳米相增强面片。对注入poss的热塑性微球泡沫(TMF)的热分析表明,在氮气和氧气气氛下,TMF的热稳定性都有所提高,与纯TMF相比,4 wt% GI-POSS TMF的热残留增加了19%。准静态压缩结果表明,1 wt% EC-POSS/CNTs树脂体系的压缩模量显著增加(73%),抗压强度显著增加(5%)。由上述树脂体系和泡沫芯体系组成的纳米夹层结构的模量比整齐的夹层结构增加了9%。在泡沫芯中加入poss纳米填料,在面板中加入poss包覆纳米管,显著改善了夹层结构的热力学性能。此外,由纳米相树脂体系构建的三明治结构的模量增加,泡沫芯屈曲,但没有明显的开裂。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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