Mark Sumich scite author profile

A curved beam type of test specimen is evaluated for use in determining the through-the-thickness strength of laminated composites. Two variations of a curved beam specimen configuration (semicircular and elliptical) were tested to failure using static and fatigue loads. The static failure load for the semicircular specimens was found to be highly sensitive to flaw content, with the specimens falling into two distinct groups. This result supports the use of proof testing for structural validation. Static design allowables are derived based on the Weibull distribution. Fatigue data indicates no measured increase in specimen compliance prior to final fracture. All static and fatigue failures at room temperature dry conditions occurred catastrophically. The elliptical specimens demonstrated unusually high failure strengths indicating the presence of phenomena requiring further study. Results are also included for specimens exposed to a wet environment showing a matrix strength degradation due to moisture content. Further testing is underway to evaluate a fatigue methodology for matrix dominated failures based on residual static strength (wearout).

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The RSRA/X-Wing Experiment - A Status Report

Lane¹,

Sumich²

1987

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Assuring ground-based detect and avoid for UAS operations

Denney

Pai

Berthold

et al. 2014

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Mark Sumich

The NASA SIERRA science demonstration programme and the role of small–medium unmanned aircraft for earth science investigations

A Curved Beam Test Specimen for Determining The Interlaminar Tensile Strength of a Laminated Composite

A Curved Beam Test Specimen for Determining the Interlaminar Tensile Strength of a Laminated Composite

The RSRA/X-Wing Experiment - A Status Report

Assuring ground-based detect and avoid for UAS operations

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