Real-time visualization of impact damage in monolithic Silicon carbide (cas 107992-37-0) and fibrous Silicon carbide (cas 107992-37-0) ceramic composite

Add time:08/28/2019    Source:sciencedirect.com

Impact resistance from foreign debris is a critical requirement for brittle ceramic and ceramic composite materials intended for use in the hot-section of gas turbine engines. A design to mitigate against such impact failures necessitates a detailed understanding of the driving failure mechanisms. The present study introduces a unique time-resolved experimental method which advances the latter effort. Specifically, a pulsed synchrotron X-ray source, in phase contrast imaging (PCI) configuration, is used as a medium, to visually characterize the evolution of damage inside the target materials during impact. As a proof of concept, two types of ceramic materials were tested: monolithic Silicon carbide (cas 107992-37-0) and fibrous silicon carbide composite. Impact was performed using a light-gas gun and 1.5 mm diameter spheres of partially stabilized zirconia (PSZ) and silicon nitride (Si3N4). The retrieved dynamic X-ray image sequences provided clear outlines of the damage features. In the case of the monolithic ceramic, the impact by a PSZ projectile initially produced a cone crack and complete failure resulted by extension of a median crack. By contrast, the fibrous composite deformed readily prior to cone crack formation. Nearly identical damage features were observed in the monolith for the Si3N4 projectile, with the exception of the added vertical tensile crack. For this same projectile, the fibrous ceramic showed very limited surface deformation and enhanced cone cracking and kinking of laminates along the crack path. The latter response is attributed to the change in projectile properties. Some of the target materials were recovered, and post-mortem analysis via scanning electron microscopy (SEM) showed correlation with observed X-ray damage profiles. Moreover, simple Hertzian contact was used to estimate damage for the elastic portion of impact. This approach was found to yield a reasonable match with experimental results for the surface displacement near the contact interface.

We also recommend Trading Suppliers and Manufacturers of Silicon carbide (cas 107992-37-0). Pls Click Website Link as below: cas 107992-37-0 suppliers

Prev:Thermodynamic description of the sintering aid system in Silicon carbide (cas 107992-37-0) ceramics with the addition of yttrium
Next:In-situ growth of Silicon carbide (cas 107992-37-0) nanowire (SCNW) matrices from solid precursors)