4.7 Article

Assessment of hygrothermal and mechanical performance of alkali activated Borassus fiber reinforced earth-based bio-composite

期刊

JOURNAL OF BUILDING ENGINEERING
卷 62, 期 -, 页码 -

出版社

ELSEVIER
DOI: 10.1016/j.jobe.2022.105411

关键词

Natural fiber reinforcement; Borassus fruit fiber; Hygro-thermal properties; One -part alkali activation; Mechanical properties; Earthen construction

资金

  1. Pan African Materials Institute (PAMI) under the World Bank
  2. African Centers of Excellence (ACE) program held by the African University of Science and Technology (AUST) [AUST/PAMI/2015/5415-NG]

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This investigation presents a multiscale examination of the hygro-thermal and mechanical properties of a designed earth-based bio-composite. The inclusion of natural Borassus fruit fiber in the composite improves its mechanical and thermal performance, making it a promising material for various applications.
This investigation presents the results of a multiscale examination of the hygro-thermal and mechanical properties of designed earth-base bio-composite. The matrix and the fiber rein-forcement were processed naturally to achieve eco-friendliness manufacturing technique. The bio-composite was produced using a reconstituted soil matrix and natural Borassus fruit fiber as the reinforcing phase. One-part alkaline activation of in-situ earth matrix is considered as the manufacturing process in addition to the mechanical compaction technique used to optimize the sample performance. The adhesion of the Borassus fruit fiber to the earthen matrix was evaluated by scanning electron microscopy (SEM), energy dispersive spectroscopy (EDX) and Fourier transform infra-red (FTIR). Compressive and flexural strength testing were used to assess the mechanical properties of the bio-composite in addition to the hygric characterization or water sensibility's analysis. The thermal behavior of the bio-composite was investigated using the hot disk technique. All the characterizations were carried out on the bio-composite after 7-, 14-and 90-days curing. The Borassus natural fiber inclusion at 0.5 wt% resulted in the improvement of compressive and flexural strength due to crack propagation barrier-like feature. Water sensitivity, thermal conductivity was optimal with 0.75 wt% Borassus natural fiber content. The implications of the results are aimed to develop earth-based matrix reinforced with natural fiber produced locally from agro-waste for durable construction with low energy consumption during life -service.

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