{Reference Type}: Journal Article
{Title}: Evaluation of the Shear Performance of Douglas-Fir Wood at Elevated Temperatures.
{Author}: Zhang L;Li Q;Liu W;He Q;Liu Y;Guo K;
{Journal}: Materials (Basel)
{Volume}: 15
{Issue}: 23
{Year}: Nov 2022 25
{Factor}: 3.748
{DOI}: 10.3390/ma15238386
{Abstract}: Shear fracture frequently occurs in timber beams and panels subjected to transverse loads. At elevated temperatures, wood will undergo complex physical and chemical processes which significantly affect the shear properties. In this paper, the v-notched Douglas-fir specimens with three different shear planes: (a) Radial-Tangential (RT); (b) Radial-Longitudinal (RL), and (c) Longitudinal-Radial (LR), were fabricated and tested under the elevated temperatures from 20 °C to 180 °C. The digital image correlation (DIC) technique was used to measure the shear strain. It was found that the shear plane had a significant effect on the failure modes, shear strength, and shear modulus. The shear strength and shear modulus generally decreased with the increase of temperature. However, the shear strength was significantly improved when the hardening of the dry lignin occurred between 100 °C and 140 °C. Moreover, the design curve for the shear strength in Eurocode 5 is conservative for all the specimens with different shear planes.