Efficient Fracture Design for Complex Turbine Engine Components

McClung, R. Craig; Enright, Michael P.; Lee, Yi-Der; Huyse, Luc; Fitch, S.H.

doi:10.1115/gt2004-53323

Cited by 31 publications

(28 citation statements)

References 19 publications

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“…A new method has recently been developed for modeling surface damage-related crack growth using results from 3D finite element analysis (McClung et al 2004, Waldhart et al 2004. It is based on the assumption that a Mode I crack propagates in the plane normal to the maximum principal stress (for the dominant stress pair in a given mission profile) in a region that is idealized as a rectangular plate.…”

Section: Strategy For Surface Damage-based Defectsmentioning

confidence: 99%

“…Illustration of a new method for definition of surface damage-related cracks using 3D finite element results: (a) import 3D finite element model, reorient to display and select initial surface crack location (GUI automatically identifies principal stress plane), and (b) slice model along principal stress plane to reveal crack propagation plane and associated rectangular plate for fracture mechanics assessment (McClung et al 2004, Waldhart et al 2004. …”

Section: Computational Efficiencymentioning

confidence: 99%

See 1 more Smart Citation

Probabilistic Methodology for Life Prediction of Aircraft Turbine Rotors

Enright

Huyse

McClung

et al. 2004

Engineering, Construction, and Operations in Challenging Environments

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The presence of rare metallurgical or manufacturing anomalies in aircraft turbine rotors/disks may contribute to uncontained engine failures. A probabilistic methodology has been developed to quantify the risk of fracture and the influence of periodic inspection on overall risk, supplementing the current safe life approach. This paper summarizes the methodology and computational implementation, including a brief description of a new method for defining surface damage-related crack growth using 3D finite element results. The results can be applied to risk assessment of aerospace structures where uncertainties associated with fatigue crack growth must be quantitatively addressed.

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Section: Strategy For Surface Damage-based Defectsmentioning

confidence: 99%

Section: Computational Efficiencymentioning

confidence: 99%

Probabilistic Methodology for Life Prediction of Aircraft Turbine Rotors

Enright

Huyse

McClung

et al. 2004

Engineering, Construction, and Operations in Challenging Environments

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“…Previous studies [6][7][8] have focused on modeling the spatial conditional failure JPDF as a multivariate histogram associated with regions within the domain that are referred to as "zones". The uniform probability density for each zone is set to the maximum possible value within the associated region to ensure a conservative value of F p .…”

mentioning

confidence: 99%

Efficient Integration of Sampling-Based Spatial Conditional Failure Joint Probability Densities

Enright

Millwater²,

Moody

2007

48th AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics, and Materials Conference

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“…As examples, though not exhaustive, the following input data have been developed: the frequency and probability distribution for the initial defect size of hard alpha particles in titanium [6,7], the constitutive properties of hard alpha defects [8], the crack growth rate in a vacuum for titanium [8], fatigue testing of the initiation of cracking for hard alpha defects [9], effects of residual stresses around hard alpha particles [10], the expected amount of variation in fatigue crack propagation scatter [11], and weight-function-based stress intensity factor equations for flaws under a bivariant stress field [12]. An FAA advisory circular has been issued that describes a probabilistic methodology and suggested input data to quantify the POF with respect to hard alpha defects [13].…”

Section: Introductionmentioning

confidence: 99%

Probabilistic Sensitivities for Fatigue Analysis of Turbine Engine Disks

Millwater

Osborn

2006

International Journal of Rotating Machinery

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A methodology is developed and applied that determines the sensitivities of the probability-of-fracture of a gas turbine disk fatigue analysis with respect to the parameters of the probability distributions describing the random variables. The disk material is subject to initial anomalies, in either low-or high-frequency quantities, such that commonly used materials (titanium, nickel, powder nickel) and common damage mechanisms (inherent defects or surface damage) can be considered. The derivation is developed for Monte Carlo sampling such that the existing failure samples are used and the sensitivities are obtained with minimal additional computational time. Variance estimates and confidence bounds of the sensitivity estimates are developed. The methodology is demonstrated and verified using a multizone probabilistic fatigue analysis of a gas turbine compressor disk analysis considering stress scatter, crack growth propagation scatter, and initial crack size as random variables.

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Efficient Fracture Design for Complex Turbine Engine Components

Cited by 31 publications

References 19 publications

Probabilistic Methodology for Life Prediction of Aircraft Turbine Rotors

Probabilistic Methodology for Life Prediction of Aircraft Turbine Rotors

Efficient Integration of Sampling-Based Spatial Conditional Failure Joint Probability Densities

Probabilistic Sensitivities for Fatigue Analysis of Turbine Engine Disks

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