Richard E. Martin scite author profile

Mid‐infrared (MIR) reflectance imaging is shown to be a reliable diagnostic tool for monitoring delamination progression in thermal barrier coatings (TBCs). MIR reflectance imaging utilizes the maximum transparency of TBCs in the 3–6 μm wavelength region to probe below‐surface delamination crack propagation that is typically hidden from visible wavelength inspection. The image contrast that identifies delamination progression arises from the increased reflectance produced by a large component of total internal reflection at the TBC/buried‐crack interface. Imaging was performed at a wavelength of 4 μm to take advantage of the relatively high transmittance of plasma‐sprayed 8 wt% yttria‐stabilized zirconia (8YSZ) TBCs along with a desirable relative insensitivity to potentially interfering absorptions by atmospheric constituents at that wavelength. A key advantage of MIR reflectance imaging over competing techniques is that it is sensitive to delamination progression even at very early stages before delamination cracks start linking together; therefore, TBC health assessment can be achieved throughout the life of the TBC well before TBC failure is imminent. Examples are presented to demonstrate monitoring delamination progression by MIR reflectance imaging in 8YSZ TBC‐coated specimens subjected to furnace cycling to 1163°C. The experimental results were in good agreement with reflectance values predicted by a four‐flux Kulbelka–Munk approximation applied to the extreme cases of a completely adherent and a completely detached TBC. Practical considerations, including potential interfering effects from surface contamination, sintering, and erosion are discussed.

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Experimental and FEM study of thermal cycling induced microcracking in carbon/epoxy triaxial braided composites

Zhang

Binienda

Morscher

et al. 2013

Composites Part A: Applied Science and Manufacturing

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A notched coupon approach for tensile testing of braided composites

Kohlman

Bail

Roberts

et al. 2012

Composites Part A: Applied Science and Manufacturing

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A notched coupon geometry was evaluated as a method for tensile testing of 2D triaxial braid composites. Edge initiated shear failure has been observed in transverse tension tests using straight-sided coupons based on ASTM D3039. The notched coupon was designed to reduce the effects of edge initiated failure and produce the desired tensile failure. A limited set of tests were performed with partial pressurization of tubes to determine the transverse tensile strength in the absence of edge initiated failure. The transverse strength measured with the notched coupons was considerably higher than the straight-sided coupons, comparable to the tube results, and closer to the maximum possible strength based on maximum fiber strain. Further investigations of the effects of the observed biaxial stress state and stress concentrations in the notched geometry are needed.

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The Ileocaecal Knot

Menon

Martin

Ramsay

et al. 2007

Australasian Radiology

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Richard E. Martin

Anisotropy of thermal conductivity in 3D printed polymer matrix composites for space based cube satellites

Monitoring Delamination Progression in Thermal Barrier Coatings by Mid‐Infrared Reflectance Imaging

Experimental and FEM study of thermal cycling induced microcracking in carbon/epoxy triaxial braided composites

A notched coupon approach for tensile testing of braided composites

The Ileocaecal Knot

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