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Characterization of Laminated Bamboo Lumber Using Digital Image Correlation in Mechanical Testing

Franck Pascal, Bletz-Mühldorfer Oliver, Bathon Leander, Scholz Ronja, Walther Frank

Inżynieria Mineralna

2024

Vol. 1, no. 2

art. no. 04

The purpose is to investigate the use of bamboo as an outstanding material in terms of sustainability in various technical fields, such as civil engineering. Therefore, the Phyllostachys edulis (Carrière) J. Houz. (Moso) culms are further processed into laminated bamboo lumber (LBL) to bring the material closer to technical applications according to European standards. The testing program was divided into three parts. First, LBL was examined in its initial condition. Computed tomography (CT) was applied to detect pores and other defects. In particular, the visualization of potential bonding defects between the individual laminate layers of bamboo was of key importance, as this type of defect is expected to have a major impact on the mechanical properties of LBL. Afterwards, the bamboo specimens underwent mechanical testing, including compressive and shear testing. The results were promising for the intended technical applications. The engineered bamboo product LBL exhibited strengths comparable to those of wooden products already used in the targeted areas. Material reactions were recorded during the tests using appropriate measuring devices. In particular, the digital image correlation (DIC) was applied to record deformations and strains on the surface of bamboo specimens. This measuring technology enabled a subsequent visualization of the influence of the applied loads, highly loaded areas, and resulting crack progression. During compressive testing, it was observed, that the failure of the specimens often began at the nodal area of the bamboo culm, still clearly visible in the engineered bamboo product. The moisture content of specimens was determined using the oven-dry method, as moisture has a proven influence on material properties. After completing the mechanical characterization, the third phase of the study began, including analytical tests of damaged specimens. The focus was on examining the damaged areas and fracture surfaces to identify the operating damage mechanisms. The research indicates that LBL shows promise as a sustainable alternative to commonly used building materials.