T. Baughn scite author profile

In this study, we demonstrate a simple, full field displacement characterization technique based on digital image correlation (DIC). We develop a robust correlation measure implemented in a code and use it to characterize materials at high spatial and displacement resolution. We describe the methods implemented in the DIC code and compare against those available in the literature. We show how sample preparation may be entirely eliminated by using the natural speckle inherent in specular (rough) surfaces. We demonstrate further that the use of natural speckle enables very high spatial resolution (100 microns or less) since creating artificial speckle patterns in miscroscale spatial regions is a significant challenge. The software is also designed to be robust to varying contrasts between the deformed and the undeformed images. Its accuracy is enhanced by using NURBS (Non-Uniform Rational B-Spline) as the interpolating function in the code. We demonstrate the developed software and the underlying procedure on several packaging problems of interest. We measure the CTE of Alumina (Al2O3) using its natural speckle, we calculate the strain and therefore the modulus during mechanical testing of composite materials and we characterize the time dependent behavior of a micro-fiber reinforced composite (RT/Duroid) at high temperature.

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Structural Design Considerations for Ultralight Aircraft

Baughn¹,

Johnson²

1986

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Simulation of a birdstrike impact on aircraft canopy material

Baughn

Graham

1988

Journal of Aircraft

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Analyses of flip chip bumps and solder joints for six sigma manufacturing

Wolverton

Chan²,

Baughn³

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T. Baughn

A new in situ residual stress measurement method for a MEMS thin fixed-fixed beam structure

High Resolution Characterization of Materials Used in Packages Through Digital Image Correlation

Structural Design Considerations for Ultralight Aircraft

Simulation of a birdstrike impact on aircraft canopy material

Analyses of flip chip bumps and solder joints for six sigma manufacturing

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