Strength properties and potential uses of rattan–cement composites

Q4 Agricultural and Biological Sciences

Journal of Bamboo and Rattan Pub Date : 2005-12-01 DOI:10.1163/156915905775008426

A. Olorunnisola, A. Pitman, H. Mansfield-William

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引用次数: 15

Abstract

Wood–cement particleboard (WCP) was produced from rattan (Laccosperma secundiflorum) particles. Contrary to conventional practice, the boards were fabricated in the laboratory without pressure application. The effects of rattan particle size and content on the density and bending and compressive strength properties of the boards were investigated. The boards were produced using two rattan particle sizes, i.e., those passing through a 0.85 mm sieve but retained on 0.6 mm sieve, and a 50 : 50 mixture (by weight) of particles retained on 1.2 mm and 0.85 mm sieves, three cement–rattan mixing ratios (by weight of cement) of 1 : 0.11, 1 : 0.19 and 1 : 0.25 respectively, i.e., rattan contents of 10, 15 and 20%. Board density ranged between 764 and 1340 kg/m3, indicating that the composite is a lightweight concrete. The mean modulus of elasticity (MOE = 130.2−2830.7 N/mm2) and modulus of rupture (MOR = 0.8 and 5.2 N/mm2) of the boards decreased with increasing rattan particle size and content. The mean compressive strength of boards (1.3−22.0 N/mm2) also decreased with decreasing board density. Cement–rattan mixing ratio, rattan particle size and the interaction of both variables had significant effects on the density, modulus of rupture and the compressive strength of the composites. The density and the compressive strength properties of the composites suggest that they could find suitable application in the production of insulation boards and bricks (with the addition of sand), for erection of bearing walls in low-rise buildings.

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藤-水泥复合材料的强度特性及潜在用途

木水泥刨花板(WCP)是由藤(Laccosperma secundiflorum)颗粒制成的。与传统做法相反，这些板是在实验室中制造的，没有施加压力。研究了竹藤颗粒大小和含量对板材密度和抗折抗压性能的影响。采用两种规格的藤材，即通过0.85 mm筛网但保留在0.6 mm筛网上的藤材，以及1.2 mm筛网和0.85 mm筛网上保留的藤材以50:50(按重量计)混合，水泥与藤材的混合比例(按水泥重量计)分别为1:0.11、1:0.19和1:0.25，即藤材含量分别为10%、15%和20%。板密度范围在764 - 1340 kg/m3之间，表明复合材料是轻质混凝土。随着藤料粒度和含量的增加，板材的平均弹性模量(MOE = 130.2 ~ 2830.7 N/mm2)和断裂模量(MOR = 0.8和5.2 N/mm2)均呈下降趋势。板材的平均抗压强度(1.3 ~ 22.0 N/mm2)也随着板材密度的降低而降低。水泥-藤料掺量、藤料粒径以及两者的交互作用对复合材料的密度、断裂模量和抗压强度有显著影响。复合材料的密度和抗压强度性能表明，它们可以在生产保温板和砖(加砂)中找到合适的应用，用于低层建筑承重墙的安装。

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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来源期刊

Journal of Bamboo and Rattan Agricultural and Biological Sciences-Agronomy and Crop Science

CiteScore

0.40

自引率

0.00%

发文量

期刊介绍： The Journal of Bamboo and Rattan is a peer-reviewed scientific journal and provides a forum for scientific articles and reviews on all aspects of fast growing, multi-purpose pliable species. The scope of the journal encompasses income security, craft industry, small to medium size enterprises, industrial fibre and fuel. Articles related to natural distribution and conservation of species, genetics and biotechnology, harvesting and production systems, and environmental applications are also included, as well as papers on marketing and policy restraints in relation to bamboo, rattan and related species.