INTRODUCI'IONComposites are prevalent in high technology devices such as aircraft, computers, automobiles and communications systems. They improve brittleness and provide a lower density which enhances mechanical strength. EJectron and light manipulating composites will be used more and more in the future. lt is necessary to have a capability of inspecting composites, both to assure production quality and as a baseline for later NDE. In this paper, we present a study using wavelet, inverse neutron optics and the grazing angle neutron spectrometer, GANS, at the Missouri University Research Reactor, MURR.Neutrons are electrically neutral matter-waves with mass just greater than the proton. They have good penetmtion depths since they scatter almost entirely from the nuclei in a solid This property gives thermal neutrons the capability of measuring the amount of residual stress in many solids (1,2) by diffracting from the atomic planes. However, since the 10MWatt reactor provides the I014 neutronstcm2 sec incident onto the collimeter it is not a technique for all applications in NDE. But it reaches deeply into the solid and relays detailed information on an atomic length scale [3] so it may be worthwhile to leam what can (and what cannot) be determined from this modality. ANALYSESThe theoretical description used has deep roots in physics going back 50 years to Fermi and Zinn [4], who showed experimentally that neutrons have all of the optical properlies of light: reflection, refraction, interference, diffraction, collimation, polarization and can be made quasi-
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