AXIAL AND ROTATIONAL STIFFNESS MODEL OF METAL-PLATE-CONNECTED WOOD TRUSS JOINTS
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An analytical model that predicts the axial and rotational stiffness values of metal-plate-connected wood truss
joints is developed by considering a plate tooth as a cantilever beam in an elastic foundation. Given lumber specific
gravity, moisture content, plate and tooth geometry, and loading conditions, the model predicts axial and rotational
stiffness values. A total of 33 actual tension splice and heel joints were tested to validate the predictions of the model. To
test the scope of the model, joints were fabricated from wood specific gravity ranging from 0.30 to 0.70, and moisture
content ranging from 1 to 19%. Heel joint top chord slopes were 3.5 on 12 and 5 on 12. The joints were tested by applying
concentric and eccentric loads. The model predicts within 10% of experimental values.