Abstract
Over the past decade, the physical and mechanical performances of laminated bamboo lumber (LBL)–a bamboo-based structural material, have been extensively studied using experimental, analytical, and numerical approaches. This paper presents a review of existing knowledge in the literature about the mechanical properties of LBL. The paper involved the review of the response of LBL to different types of loading such as tension, bending, compression, and shear. Based on results of the literature reviewed, the strength of LBL parallel to grain was 90–124 MPa with MOE of 10700 MPa in tension, 29.55–72.60 MPa, and MOE of 8396–11022 MPa in compression, 63.87–128.4 MPa, and MOE of 8320–10912 MPa in bending, and 7.15–17.5 MPa in shear. The average strength of LBL was similar and in some cases exceeded the average values of bamboo- or wood-based materials, while the variability of its mechanical parameters was lower. The variability in strength values of LBL was affected by bamboo species, density and thickness of bamboo strips, growth portion, type of treatment, strips arrangements, and type of adhesive which in turn calls for classification of LBL by strength grades, degree of hardness, the capability of impregnation and penetration, as well as by areas of application in construction. The study provided and discussed concluding observations, the current research gap, and future research directions on the mechanical properties of LBL.
Highlights
With the improvement of living standards, the demand for environmentally friendly, lightweight, and safe structures has increased dramatically [1,2,3,4,5]
This study aims to present a review of the basic mechanical performance of laminated bamboo lumber (LBL)
This paper presents a review of published studies that are focused on the mechanical performance of LBL to give an understanding of the basic mechanical properties under various loading conditions
Summary
With the improvement of living standards, the demand for environmentally friendly, lightweight, and safe structures has increased dramatically [1,2,3,4,5]. The tensile strength of mature bamboo is comparable to mild steel [22], the strength and stiffness are higher than those of wood products, and its strength-to-weight ratio is higher than that of wood, cast iron, aluminum alloys, and structural steel [23,24,25]. It has been widely used in furniture, bridges, and buildings. The original bamboo copes well with bending loads due to a large ratio of moment of inertia to a cross-sectional area [19]
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