In outdoor applications, bamboo scrimber structures are inevitably expose to prolonged cyclic dry-wet environments. To ensure the service life, it is necessary to understand how the bamboo scrimber behaves during dry-wet cycles. This study presents the aging properties of bamboo scrimber subjected to six cycles of dry-wet exposure. The tensile, compressive and flexural behavior of bamboo scrimber specimens were evaluated at the 1, 2, 4 and 6 cycles. The microstructures of bamboo scrimber specimens before and after the exposure were observed by scanning electron microscopy (SEM). Fourier Transform Infrared Spectroscopy (FTIR) and X-ray diffraction (XRD) tests were conducted to identify the chemical changes in scrimber fibers and quantify the crystallinity of cellulose, respectively, which was projected to explain the reduced mechanical properties of bamboo scrimber after the exposure. The results indicated that after six aging cycles, the bamboo scrimber specimens showed mass loss (5.32 % - 6.22 %) and thickness expansion (tensile 17.97 %, compression 4.87 %, flexural 3.98 %). From SEM images, after the aging, the interfacial bond between the bamboo fibers and matrix was weakened and the cell walls of the thin-walled cells became thinner; gaps appeared between cell walls, and the inter-cellular arrangement was less compact. Regarding the tensile and flexural strengths of bamboo scrimber, after the first cycle, there was a significant decrease (29.50 %, 17.15 %); in subsequent cycles, no apparent changes were observed. It is worth mentioning that the compressive strength of the specimens after six accelerated aging cycles was slightly improved by 16.17 % due to the expansion of the specimen.
Read full abstract