An Elastic-Plastic Stress Analysis of Woven Ni-Cr Reinforced Thermoplastic Composite Cantilever Beam

Abstract

In the present study an analytical elastic-plastic stress analysis is carried out for a low-density homogeneous polyethylene thermoplastic cantilever beam reinforced by Ni-Cr steel fibers. The beam is loaded by a constant single force at its free end. The expansion of the region and the residual stress component of σx are determined for 0°, 15° , 30° and 45° orientation angles. For 0 ° and 45° orientation angles yielding begins at the upper and lower surfaces of the beam, at the same distances from the free end. However, for 15° and 30° orientation angles it starts first at the upper surface. The elastic-plastic analysis is carried out for both the plastic region which spreads only at the upper surface and the plastic region which spreads at the upper and lower surfaces together. The residual stress components of σx and τxy are also determined. The intensity of the residual stress component is maximum at the upper and lower surfaces of the beam, but the residual stress component of τ xy is maximum on or around the x-axis. The beam can be strengthened by using the residual stresses. The distance between the plastically collapsed point and the free end is calculated for the same load in the beam for 0 °, 15°, 30° and 45° orientation angles.