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Probabilistic evaluation of uncertainties and risks in aerospace components (1992)

Nagpal, V. K. ; Shiao, M. C. ; Chamis, C. C. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-24

Description: A methodology is presented for the computational simulation of primitive variable uncertainties, and attention is given to the simulation of specific aerospace components. Specific examples treated encompass a probabilistic material behavior model, as well as static, dynamic, and fatigue/damage analyses of a turbine blade in a mistuned bladed rotor in the SSME turbopumps. An account is given of the use of the NESSES probabilistic FEM analysis CFD code.

Keywords: STRUCTURAL MECHANICS

Type: In: Computational nonlinear mechanics in aerospace engineering (A93-12151 02-31); p. 365-415.

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2

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Probabilistic evaluation of uncertainties and risks in aerospace components (1992)

Chamis, C. C. ; Nagpal, V. K. ; Shah, A. R. ; [et al.]

In: CASI

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Publication Date: 2019-06-28

Description: This paper summarizes a methodology developed at NASA Lewis Research Center which computationally simulates the structural, material, and load uncertainties associated with Space Shuttle Main Engine (SSME) components. The methodology was applied to evaluate the scatter in static, buckling, dynamic, fatigue, and damage behavior of the SSME turbo pump blade. Also calculated are the probability densities of typical critical blade responses, such as effective stress, natural frequency, damage initiation, most probable damage path, etc. Risk assessments were performed for different failure modes, and the effect of material degradation on the fatigue and damage behaviors of a blade were calculated using a multi-factor interaction equation. Failure probabilities for different fatigue cycles were computed and the uncertainties associated with damage initiation and damage propagation due to different load cycle were quantified. Evaluations on the effects of mistuned blades on a rotor were made; uncertainties in the excitation frequency were found to significantly amplify the blade responses of a mistuned rotor. The effects of the number of blades on a rotor were studied. The autocorrelation function of displacements and the probability density function of the first passage time for deterministic and random barriers for structures subjected to random processes also were computed. A brief discussion was included on the future direction of probabilistic structural analysis.

Keywords: STRUCTURAL MECHANICS

Type: NASA-TM-105603 , E-6240 , NAS 1.15:105603

Format: application/pdf

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Probabilistic simulation of long term behavior in polymer matrix composites (1995)

Murthy, P. L. N. ; Shah, A. R. ; Chamis, C. C. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: A methodology to compute cumulative probability distribution functions (CDF) of fatigue life for different ratios, r of applied stress to the laminate strength based on first ply failure criteria has been developed and demonstrated. Degradation effects due to long term environmental exposure and mechanical cyclic loads are considered in the simulation process. A unified time-stress dependent multi-factor interaction equation model developed at NASA Lewis Research Center has been used to account for the degradation/aging of material properties due to cyclic loads. Fast probability integration method is used to perform probabilistic simulation of uncertainties. Sensitivity of fatigue life reliability to uncertainties in the primitive random variables are computed and their significance in the reliability based design for maximum life is discussed. The results show that the graphite/epoxy (0/+45/90) deg laminate with ply thickness 0.125 in. has 500,000 cycles life for applied stress to laminate strength ratio of 0.6 and a reliability of 0.999. Also, the fatigue life reliability has been found to be most sensitive to the ply thickness and matrix tensile strength. Tighter quality controls must therefore be enforced on ply thickness and matrix strength in order to achieve high reliability of the structure.

Keywords: STRUCTURAL MECHANICS

Type: NASA-TM-106893 , E-9537 , NAS 1.15:106893 , AIAA PAPER 94-1445 , Structures, Structural Dynamics and Materials Conference; Apr 18, 1994 - Apr 21, 1994; Hilton Head, SC; United States

Format: application/pdf

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4

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Wave propagation in a multilayered laminated cross-ply composite plate (1991)

Datta, S. K. ; Shah, A. H. ; Karunasena, W.

In: Other Sources

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Publication Date: 2019-07-12

Description: Dispersion of guided waves in a cross-ply laminated plate has been studied here using a stiffness method and an exact method. It is shown that the number of laminae strongly influences the dispersion behavior. Further, it is found that when the number of laminae is sufficiently large, then the dispersion behavior can be predicted by treating the plate as homogeneous with six stiffness constants obtained by using an effective modulus method.

Keywords: STRUCTURAL MECHANICS

Type: ASME PAPER 91-WA/APM-41 , ASME, Transactions, Journal of Applied Mechanics (ISSN 0021-8936); 58; 1028-103

Format: text

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5

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Lamb wave scattering by a surface-breaking crack in a plate (1991)

Datta, S. K. ; Shah, A. H. ; Al-Nassar, Y.

In: Other Sources

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Publication Date: 2019-08-28

Description: An NDE method based on finite-element representation and modal expansion has been developed for solving the scattering of Lamb waves in an elastic plate waveguide. This method is very powerful for handling discontinuities of arbitrary shape, weldments of different orientations, canted cracks, etc. The advantage of the method is that it can be used to study the scattering of Lamb waves in anisotropic elastic plates and in multilayered plates as well.

Keywords: STRUCTURAL MECHANICS

Type: Annual Review of Progress in Quantitative Nondestructive Evaluation; Jul 15, 1990 - Jul 20, 1990; La Jolla, CA; United States

Format: text

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6

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Axially symmetric pulse propagation in semi-infinite hollow cylinders (1992)

Shah, A. H. ; Datta, S. K. ; Kohl, T.

In: Other Sources

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Publication Date: 2019-08-28

Description: The effects of dispersion and end conditions on axially symmetric pulse propagation in semiinfinite tubes are investigated. Numerical modeling of the dynamic response is accomplished using a stable and efficient finite element and wave propagation based method. This method yields the dispersive and modal data required to express displacements in a frequency domain modal expansion. Boundary conditions are applied to the tube end to obtain mode amplitudes. A fast Fourier transform is then used to get the time response. The specific end conditions considered are intended to give some insight into how the tube would behave as a member of a jointed truss structure.

Keywords: STRUCTURAL MECHANICS

Type: AIAA Journal (ISSN 0001-1452); 30; 6 Ju

Format: text

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