Compressive behavior of perlite/sodium silicate composite foam modified by boric acid

Metallurgical and Materials Engineering Pub Date : 2022-03-31 DOI:10.30544/755

Pranto Karua, M. Arifuzzaman

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Abstract

In this work lightweight expanded perlite/sodium silicate composite foams were manufactured with varying quantities of boric acid (BA) 0-2.88 wt.%. The composites were characterized for density, compressive strength (CS), compressive modulus (CM), and energy absorption (EA) up to 50% strain. The compression tests were also conducted at various crosshead speeds to evaluate the strain rate dependency of the foams. The hygroscopic tests were done to evaluate water absorption properties and investigate the effects of water absorption on the compressive properties of the foams. The CS, CM, and EA of the foams increased for a boric acid content of 0.74 wt.%, but further addition of BA caused a gradual decrease in these characteristics. The range of sp. CS (3.80-5.93 MPa/(g/cm3)) achieved were found to be well compatible with the values of building materials in the literature. The foams appeared to be sensitive to the strain rate in compression, causing variations in the compressive properties as well as the trends of stress-strain curves. Furthermore, the addition of BA in the composite reduced water absorption up to a BA content of 1.46 wt.%. The compressive properties were also highly influenced by the hygrometric test.

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硼酸改性珍珠岩/水玻璃复合泡沫的压缩性能

在这项工作中，用不同数量的硼酸(BA) 0-2.88 wt.%制备了轻质膨胀珍珠岩/硅酸钠复合泡沫。对复合材料的密度、抗压强度(CS)、抗压模量(CM)和高达50%应变的能量吸收(EA)进行了表征。在不同的十字头速度下进行了压缩试验，以评估泡沫的应变速率依赖性。通过吸湿试验评价了泡沫材料的吸水性能，并研究了吸水对泡沫材料压缩性能的影响。硼酸含量为0.74 wt.%时，泡沫的CS、CM和EA均有所增加，但BA的添加使这些特性逐渐降低。所获得的sp. CS (3.80-5.93 MPa/(g/cm3))范围与文献中建筑材料的值很好地兼容。在压缩过程中，泡沫体对应变速率的变化非常敏感，导致了压缩性能的变化以及应力-应变曲线的变化趋势。此外，在复合材料中添加BA可使吸水率降低至1.46 wt.%。抗压性能也受湿度计试验的影响较大。

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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Metallurgical and Materials Engineering

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