High-strength water-resistant reed fiber/ silicate hollow composites fabrication via responsive interface design

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成果类型：

期刊论文

作者：

Yi, Jiajun;Xiao, Yanxiang;Yu, Fen;Xie, Qiang

通讯作者：

Xie, Q

作者机构：

[Yi, Jiajun] Hunan City Univ, Sch Architecture & Urban Planning, Yiyang, Peoples R China.

[Xiao, Yanxiang] Coll Modern Agr, Yiyang Vocat & Tech Coll, Yiyang, Peoples R China.

[Yu, Fen] Hunan City Univ, Design & Res Inst Co Ltd, Yiyang, Peoples R China.

[Xie, Qiang] Hunan City Univ Testing Ctr Co Ltd, Yiyang, Peoples R China.

通讯机构：

[Xie, Q ] H

Hunan City Univ Testing Ctr Co Ltd, Yiyang, Peoples R China.

语种：

英文

关键词：

Reed fiber;Silicate;Hollow composite materials;Thermal insulation;High water resistance

期刊：

Construction and Building Materials

ISSN：

0950-0618

年：

2025

卷：

493

页码：

143281

DOI：

10.1016/j.conbuildmat.2025.143281

基金类别：

CRediT authorship contribution statement yi jiajun: Writing – original draft, Data curation, Conceptualization. Yanxiang Xiao: Writing – review & editing, Writing – original draft, Data curation, Conceptualization. Fen Yu: Methodology, Investigation, acquisition. Qiang Xie: Resources, Project administration, Methodology, Investigation.

机构署名：

本校为第一机构

院系归属：

建筑与城市规划学院

摘要：

In response to the "dual carbon" strategy, the combination of reed waste and Portland cement to synthesize lightweight composites is crucial for promoting building energy conservation, carbon sequestration, and emission reduction. However, traditional biomass-based lightweight composites exhibit poor interfacial compatibility and numerous micropores, leading to weak water resistance and mechanical strength. These issues significantly limit the potential applications of these composites in various fields. Here, we synthesized epoxidized cardanol...

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High-strength water-resistant reed fiber/ silicate hollow composites fabrication via responsive interface design

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