N. Miriyala scite author profile

Woven fabric ceramic composites fabricated by the chemical vapor infiltration method are susceptible to high void content and inhomogeneity. The condition of such materials may be characterized nondestructively with ultrasonic methods. In this work, longitudinal and shear waves were used in the quantitative determination of elastic constants of NicalonTM/SiC composites as a function of volume percent of porosity. Elastic stiffness constants were obtained for both the inplane and out-of-plane directions with respect to fiber fabric. The effect of porosity on the modulus of woven fabric composites was also modelled and compared to the measured results. Scan images based on the amplitude and time-of-flight of radio frequency (RF) ultrasonic pulses were used for evaluating the material homogeneity for the purpose of optimizing the manufacturing process and for correlation with the mechanical testing results.

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Moduli determination of continuous fiber ceramic composites (CFCCs)

Liaw

Hsu

et al. 1995

Journal of Nuclear Materials

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The mechanical behavior of a Nicalon/SiC composite at room temperature and 1000°C

Miriyala

Liaw

McHargue

et al. 1998

Journal of Nuclear Materials

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CFCC fatigue: A literature review

Miriyala¹,

Liaw²

1997

JOM

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N. Miriyala

Investigation of metal and ceramic-matrix composites moduli: Experiment and theory

Nondestructive Characterization of Woven Fabric Ceramic Composites

Moduli determination of continuous fiber ceramic composites (CFCCs)

The mechanical behavior of a Nicalon/SiC composite at room temperature and 1000°C

CFCC fatigue: A literature review

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