Haemin Song , Taehwan Kim , Ailar Hajimohammadi , Jae Eun Oh , Arnaud Castel
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引用次数: 0
摘要
为改善轻质多孔复合材料的隔音和隔热性能,人们对其进行了广泛的研究。大麻混凝土可利用其高孔隙率作为隔热或隔音材料。然而,由于麻混凝土的孔隙类型不同,人们对其热性能和隔音性能与其孔隙结构之间的密切联系仍然知之甚少。在本研究中,分别通过捣实、脱木质素和发泡剂条件改变了三种麻混凝土孔隙类型[即:i) 麻与砂浆之间的孔隙;ii) 麻内部孔隙;iii) 砂浆内部孔隙]。然后使用 X 射线显微计算机断层扫描(μCT)和汞侵入孔隙测定法估算了三种孔隙的体积。开发了新的细分方法,并验证了其可靠性和准确性。然后,将孔隙体积与麻混凝土的热学和声学特性相关联。建议在低振捣和高脱木质素条件下增加孔隙间容积,提高麻混凝土在实际应用中的隔热和吸音性能。
Detailed characterisation of hemp and hempcrete pore structures: Effects on thermal and acoustic properties
Lightweight porous composites have been widely explored to improve their acoustic and thermal performances. Hempcrete can serve as thermal insulating or soundproofing material by utilising its high porosity. However, the rigorous correlation between hempcrete thermal and acoustic performance and its pore structure remains poorly understood due to its different pore types. In this study, three hempcrete pore types [i.e., i) inter-pore between hemp and mortar, ii) hemp intra-pore, and iii) mortar intra-pore] were modified by tamping, delignification, and foaming agent conditions, respectively. Then the volumes of three types of pores were estimated using X-ray micro-computed tomography (μCT) and mercury intrusion porosimetry. The new segmentation methods were developed and their reliability and accuracy were validated. Then, the pore volumes were correlated to the thermal and acoustic properties of hempcrete. Low tamping and high delignification conditions are recommended to increase inter-pore volume and enhance hempcrete performances relating to both thermal insulation and sound absorption for real-world hempcrete applications.
期刊介绍:
Cement and Concrete Research is dedicated to publishing top-notch research on the materials science and engineering of cement, cement composites, mortars, concrete, and related materials incorporating cement or other mineral binders. The journal prioritizes reporting significant findings in research on the properties and performance of cementitious materials. It also covers novel experimental techniques, the latest analytical and modeling methods, examination and diagnosis of actual cement and concrete structures, and the exploration of potential improvements in materials.
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