Transverse microcracking in Celion 6000 graphite/PMR-15 polymide composite

• Main Author: Mills, John Steven
• Other Authors: Engineering Mechanics
• Format: Others
• Published: Virginia Tech 2014
• Subjects: LD5655.V855 1979.M555; Laminated materials > Testing
• Online Access: http://hdl.handle.net/10919/35546; http://scholar.lib.vt.edu/theses/available/etd-10302008-120647/

The effects of room temperature tensile loading and five thermal loadings upon the development of transverse microcracks (TVM) in Celion 6000/PMR-15 graphite-epoxy laminates were investigated. Microcracks were observed using a replicating technique, microscopy and x-ray. The mechanical or thermal load at which microcracking initiates and the ply residual stresses were predicted using laminate analysis with stress and temperature-dependent materials. The TVM density as a function of tensile load was predicted using the multiple cracking theory proposed by Garrett, Parvizi and Bailey. Reasonably good correlation between theory and experiment was obtained for both the load at initial failure and the TVM density as a function of tensile load. <p> It has been shown that TVM density and the load to initiate microcracking are functions of the type of loading and the laminate configuration. Generally, cross-ply laminates exhibit higher TVM density after thermal loading than do quasi-isotropic laminates, but the converse is true for tensile loading. Cross-ply laminates attain saturation TVM density prior to failure, but the TVM density of quasi-isotropic laminates continues to increase until failure. Edge effects have a significant influence on the development of TVM, and TVM present at the free edge of a laminate extend throughout the entire width of the laminate.<p> <i>[Vita removed Feb. 15, 2011. GMc]</i> === Master of Science