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Error control in three-dimensional crack modeling using the boundary element method (1985)

W. H. Gerstle ; A. R. Ingraffea ; H. Armen

The American Society of Mechanical Engineers

In: Professional Paper, Advanced Topics in Boundary Element Analysis, New York, The American Society of Mechanical Engineers, vol. 23, no. Subvol. b, pp. 205-211, (ISBN: 3-540-23712-7)

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Publication Date: 1985

Keywords: Three dimensional ; Boundary Element Method ; Fracture

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BIBLIOGRAPHY SEISMOLOGY

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Consideration of Moving Tooth Load in Gear Crack Propagation Predictions (2001)

Wawrzynek, Paul A. ; Handschuh, Robert F. ; Lewicki, David G. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: Robust gear designs consider not only crack initiation, but crack propagation trajectories for a fail-safe design. In actual gear operation, the magnitude as well as the position of the force changes as the gear rotates through the mesh. A study to determine the effect of moving gear tooth load on crack propagation predictions was performed. Two-dimensional analysis of an involute spur gear and three-dimensional analysis of a spiral-bevel pinion gear using the finite element method and boundary element method were studied and compared to experiments. A modified theory for predicting gear crack propagation paths based on the criteria of Erdogan and Sih was investigated. Crack simulation based on calculated stress intensity factors and mixed mode crack angle prediction techniques using a simple static analysis in which the tooth load was located at the highest point of single tooth contact was validated. For three-dimensional analysis, however, the analysis was valid only as long as the crack did not approach the contact region on the tooth.

Keywords: Mechanical Engineering

Type: Journal of Mechanical Design; 123; 118-124

Format: application/pdf

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Simulating Fatigue Crack Growth in Spiral Bevel Gears (2000)

Spievak, Lisa E. ; Ingraffea, Anthony R. ; Wawrzynek, Paul A.

In: CASI

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Publication Date: 2019-07-10

Description: The majority of helicopter transmission systems utilize spiral bevel gears to convert the horizontal power from the engine into vertical power for the rotor. Due to the cyclical loading on a gear's tooth, fatigue crack propagation can occur. In rotorcraft applications, a crack's trajectory determines whether the gear failure will be benign or catastrophic for the aircraft. As a result, the capability to predict crack growth in gears is significant. A spiral bevel gear's complex shape requires a three dimensional model of the geometry and cracks. The boundary element method in conjunction with linear elastic fracture mechanics theories is used to predict arbitrarily shaped three dimensional fatigue crack trajectories in a spiral bevel pinion under moving load conditions. The predictions are validated by comparison to experimental results. The sensitivity of the predictions to variations in loading conditions and crack growth rate model parameters is explored. Critical areas that must be understood in greater detail prior to predicting more accurate crack trajectories and crack growth rates in three dimensions are identified.

Keywords: Mechanical Engineering

Type: NASA/CR-2000-210062 , E-12287 , NAS 1.26:210062 , ARL-CR-451

Format: application/pdf

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Crack Growth Simulation and Residual Strength Prediction in Airplane Fuselages (1999)

Wawrzynek, Paul A. ; Chen, Chuin-Shan ; Ingraffea, Anthony R.

In: CASI

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Publication Date: 2019-07-10

Description: The objectives were to create a capability to simulate curvilinear crack growth and ductile tearing in aircraft fuselages subjected to widespread fatigue damage and to validate with tests. Analysis methodology and software program (FRANC3D/STAGS) developed herein allows engineers to maintain aging aircraft economically, while insuring continuous airworthiness, and to design more damage-tolerant aircraft for the next generation. Simulations of crack growth in fuselages were described. The crack tip opening angle (CTOA) fracture criterion, obtained from laboratory tests, was used to predict fracture behavior of fuselage panel tests. Geometrically nonlinear, elastic-plastic, thin shell finite element crack growth analyses were conducted. Comparisons of stress distributions, multiple stable crack growth history, and residual strength between measured and predicted results were made to assess the validity of the methodology. Incorporation of residual plastic deformations and tear strap failure was essential for accurate residual strength predictions. Issue related to predicting crack trajectory in fuselages were also discussed. A directional criterion, including T-stress and fracture toughness orthotropy, was developed. Curvilinear crack growth was simulated in coupon and fuselage panel tests. Both T-stress and fracture toughness orthotropy were essential to predict the observed crack paths. Flapping of fuselages were predicted. Measured and predicted results agreed reasonable well.

Keywords: Composite Materials

Type: NASA/CR-1999-209115 , NAS 1.26:209115

Format: application/pdf

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