Radially and Axially Oriented Ammonium Alginate Aerogels Modified with Clay/Tannic Acid and Crosslinked with Glutaraldehyde.

IF 5 3区 化学 Q1 POLYMER SCIENCE Gels Pub Date : 2024-08-10 DOI:10.3390/gels10080526
Lucía G De la Cruz, Tobias Abt, Noel León, Miguel Sánchez-Soto
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Abstract

Lightweight materials that combine high mechanical strength, insulation, and fire resistance are of great interest to many industries. This work explores the properties of environmentally friendly alginate aerogel composites as potential sustainable alternatives to petroleum-based materials. This study analyzes the effects of two additives (tannic acid and montmorillonite clay), the orientation that results during casting, and the crosslinking of the biopolymer with glutaraldehyde on the properties of the aerogel composites. The prepared aerogels exhibited high porosities between 90% and 97% and densities in the range of 0.059-0.191 g/cm3. Crosslinking increased the density and resulted in excellent performance under loading conditions. In combination with axial orientation, Young's modulus and yield strength reached values as high as 305 MPa·cm3/g and 7 MPa·cm3/g, respectively. Moreover, the alginate-based aerogels exhibited very low thermal conductivities, ranging from 0.038 W/m·K to 0.053 W/m·K. Compared to pristine alginate, the aerogel composites' thermal degradation rate decreased substantially, enhancing thermal stability. Although glutaraldehyde promoted combustion, the non-crosslinked aerogel composites demonstrated high fire resistance. No flame was observed in these samples under cone calorimeter radiation, and a minuscule peak of heat release of 21 kW/m2 was emitted as a result of their highly efficient graphitization and fire suppression. The combination of properties of these bio-based aerogels demonstrates their potential as substituents for their fossil-based counterparts.

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用粘土/单宁酸改性并用戊二醛交联的径向和轴向定向海藻酸铵气凝胶。
许多行业都对兼具高机械强度、绝缘性和耐火性的轻质材料非常感兴趣。这项研究探索了环保型藻酸盐气凝胶复合材料的特性,并将其作为石油基材料的潜在可持续替代品。本研究分析了两种添加剂(单宁酸和蒙脱石粘土)、浇铸过程中产生的取向以及生物聚合物与戊二醛交联对气凝胶复合材料性能的影响。所制备的气凝胶显示出 90% 至 97% 的高孔隙率和 0.059-0.191 g/cm3 的密度。交联增加了密度,使其在加载条件下具有优异的性能。结合轴向取向,杨氏模量和屈服强度分别高达 305 兆帕-立方厘米/克和 7 兆帕-立方厘米/克。此外,藻酸盐气凝胶的导热系数非常低,从 0.038 W/m-K 到 0.053 W/m-K。与原始海藻酸盐相比,气凝胶复合材料的热降解率大大降低,从而提高了热稳定性。虽然戊二醛会促进燃烧,但无交联的气凝胶复合材料具有很高的耐火性。在锥形量热计辐射下,这些样品未观察到火焰,并且由于其高效的石墨化和灭火性能,只释放出 21 kW/m2 的微小热量峰值。这些生物基气凝胶的综合特性表明,它们具有替代化石基气凝胶的潜力。
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来源期刊
Gels
Gels POLYMER SCIENCE-
CiteScore
4.70
自引率
19.60%
发文量
707
审稿时长
11 weeks
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