Journal of the Japan Society for Composite Materials Volume 9, Issue 1

Photoelastic Analysis of Wedge Indentation of Unidirectional Glass Fiber Reinforced Plastic Materials

As a cutting model of FRP, the deformation mechanism of wedge indentation for the unidirectional glass fiber reinforced plastic materials was studied by means of photoelastic method. For the small range of distance from the wedge tip to the surface (equivalence to the depth of cut), the isochromatic fringe of τ-shape appeared under the wedge, and this isochromatic fringe was strongly affected by the variation of both the depth of cut and the inclination angle of yarn. The main results obtained are as follow : (1) The indenting load appearing τ-shape's isochromatic fringe was in proportion to the depth of cut. (2) The isochromatic fringe of τ-shape is apt to generate in the small inclination angle of yarn and in the case of the specimen without yarn may be taken the average change of specimens having various inclination angles of yarn. (3) The theoretical analysis assuming the horizontal component force instead of existence of plate corner well explain the experimental results.

Interfacial Reaction between SiC Fiber (NICALON) and Aluminum and the Effect of ZrC Barrier

The chemical reaction between commercially available SiC fiber (NICALON) and aluminum at elevated temperatures up to 750°C (1, 023 K) has been studied using monofilament composite specimens produced by vacuum deposition of high purity aluminum onto the fiber. The specimens with and without the ZrC barrier coating (SiC/ZrC/Al and SiC/Al) were exposed for 1 hr (3.6 ks) in an ordinary high vacuum to temperatures either below or above the melting point, T_m of aluminum. Specimens SiC/Al degraded considerably once the aluminum was melted; the degradation was such that the surface colour changed from gray to black and the flexible filament became quite brittle. X-ray diffraction revealed the presence of free silicon in the degraded specimens. Such degradation did not occur in specimen SiC/ZrC/A1 unless the temperature was raised far beyond T_m. The fiber coating with ZrC is thus expected to be effective for fabricating a sound composite in this system.