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The Growth of Multi-Site Fatigue Damage in Fuselage Lap Joints (1999)

Willard, Scott A. ; Piascik, Robert S.

In: CASI

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Publication Date: 2016-06-07

Description: Destructive examinations were performed to document the progression of multi-site damage (MSD) in three lap joint panels that were removed from a full scale fuselage test article that was tested to 60,000 full pressurization cycles. Similar fatigue crack growth characteristics were observed for small cracks (50 microns to 10 mm) emanating from counter bore rivets, straight shank rivets, and 100 deg counter sink rivets. Good correlation of the fatigue crack growth data base obtained in this study and FASTRAN Code predictions show that the growth of MSD in the fuselage lap joint structure can be predicted by fracture mechanics based methods.

Keywords: Structural Mechanics

Type: The Second Joint NASA/FAA/DoD Conference on Aging Aircraft; Pt. 2; 397-407; NASA/CP-1999-208982/PT2

Format: application/pdf

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Analytical Methodology for Predicting the Onset of Widespread Fatigue Damage in Fuselage Structure (1996)

Harris, Charles E. ; Piascik, Robert S. ; Starnes, James H., Jr. ; [et al.]

In: CASI

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Publication Date: 2019-06-28

Description: NASA has developed a comprehensive analytical methodology for predicting the onset of widespread fatigue damage in fuselage structure. The determination of the number of flights and operational hours of aircraft service life that are related to the onset of widespread fatigue damage includes analyses for crack initiation, fatigue crack growth, and residual strength. Therefore, the computational capability required to predict analytically the onset of widespread fatigue damage must be able to represent a wide range of crack sizes from the material (microscale) level to the global structural-scale level. NASA studies indicate that the fatigue crack behavior in aircraft structure can be represented conveniently by the following three analysis scales: small three-dimensional cracks at the microscale level, through-the-thickness two-dimensional cracks at the local structural level, and long cracks at the global structural level. The computational requirements for each of these three analysis scales are described in this paper.

Keywords: Structural Mechanics

Type: NASA-TM-110293 , NAS 1.15:110293

Format: application/pdf

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A Back Face Strain Compliance Expression for the Compact Tension Specimen (1998)

Piascik, Robert S. ; Riddell, William T.

In: CASI

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Publication Date: 2019-07-10

Description: A numerically generated expression to determine crack length in a compact tension specimen from back face strain compliance is presented. The numerically generated back face strain expression is bounded by two experimentally determined expressions previously published in the literature. Additionally, stress intensity factor and crack mouth opening expressions are determined. These expressions agree well with previously published results.

Keywords: Structural Mechanics

Type: NASA/TM-1998-208453 , NAS 1.15:208453 , L-17759

Format: application/pdf

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