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A study of the effect of subcritical crack growth on the geometry dependence on nonlinear fracture toughness parameters (1976)

Jones, D. L. ; Liebowitz, H. ; Poulose, P. K.

In: CASI

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Publication Date: 2006-08-09

Description: The effect of subcritical crack growth on the geometry dependence of nonlinear fracture toughness parameters was studied by comparing the toughness values for different specimen geometries at the onset of subcritical crack growth and at the initiation of unstable crack propagation. Center-cracked thin sheet specimens of 2024-T3 and 7075-T6 aluminum alloys were tested by varying the specimen length L, width w, and crack length-to-width ratio c/w. When the onset of unstable crack propagation was selected as the critical point, the nonlinear energy toughness and the R curve toughness increased with increasing w and decreasing L and c/w. However, when the onset of subcritical crack growth was taken as the critical point, energy toughness and the linear toughness values were independent of these geometrical variables.

Keywords: STRUCTURAL MECHANICS

Type: NASA. Langley Res. Center Advan. in Eng. Sci., Vol. 1; p 257-266

Format: text

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2

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Forced vibrations of simply supported orthotropic sandwich plates (1977)

Bhat, B. R. ; Sinha, P. K.

In: Other Sources

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Publication Date: 2011-08-17

Description: Force transmissibility, driving-point impedance, and transfer impedance of a simply supported rectangular orthotropic sandwich plate are investigated. The plate is driven by a sinusoidally varying point force either at the plate center or at any arbitrary location. The variation of force transmissibility and impedance with frequency, and the manner in which this is influenced by the various sandwich-plate parameters are studied and presented graphically.

Keywords: STRUCTURAL MECHANICS

Type: Acoustical Society of America; vol. 61

Format: text

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3

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Development of an integrated BEM for hot fluid-structure interaction (1988)

Banerjee, P. K. ; Dargush, G. F.

In: CASI

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Publication Date: 2013-08-31

Description: One of the most difficult problems in engine structural component durability analysis is the determination of the temperatures and fluxes in the structural components directly in contact with the hot gas flow path. Currently there exists no rational analytical or numerical technique which can effectively deal with this problem. Since the temperature distribution in the structural components are strongly influenced by both the fluid flow and the deformation as well as the cooling system in the structure, the only effective way to deal with this problem is to develop an integrated solid mechanics, fluid mechanics and heat transfer analysis for this problem. Herein, the Boundary Element Method (BEM) is chosen as the basic analysis tool principally because the definition of quantities like fluxes, temperatures, displacements, and velocities are very precise on a boundary based discretization scheme. One fundamental difficulty is that a BEM analysis requires a considerable amount of analytical work which is not present in other numerical methods. During the past year, all of this analytical work was completed and a two dimensional, general purpose code was written. A portion of the work is summarized.

Keywords: STRUCTURAL MECHANICS

Type: NASA, Marshall Space Flight Center, Advanced Earth-to-Orbit Propulsion Technology 1988, Volume 1; p 69-86

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4

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Development of an integrated BEM for hot fluid-structure interaction (1989)

Banerjee, P. K. ; Dargush, G. F.

In: CASI

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Publication Date: 2013-08-31

Description: The Boundary Element Method (BEM) is chosen as a basic analysis tool principally because the definition of quantities like fluxes, temperature, displacements, and velocities is very precise on a boundary base discretization scheme. One fundamental difficulty is, of course, that the entire analysis requires a very considerable amount of analytical work which is not present in other numerical methods. During the last 18 months all of this analytical work was completed and a two-dimensional, general purpose code was written. Some of the early results are described. It is anticipated that within the next two to three months almost all two-dimensional idealizations will be examined. It should be noted that the analytical work for the three-dimensional case has also been done and numerical implementation will begin next year.

Keywords: STRUCTURAL MECHANICS

Type: NASA. Langley Research Center, NASA Workshop on Computational Structural Mechanics 1987, Part 3; p 831-863

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5

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An automated procedure for material parameter evaluation for viscoplastic constitutive models (1988)

Imbrie, P. K. ; James, G. H. ; Haisler, W. E. ; [et al.]

In: CASI

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Publication Date: 2013-08-31

Description: An automated procedure is presented for evaluating the material parameters in Walker's exponential viscoplastic constitutive model for metals at elevated temperature. Both physical and numerical approximations are utilized to compute the constants for Inconel 718 at 1100 F. When intermediate results are carefully scrutinized and engineering judgement applied, parameters may be computed which yield stress output histories that are in agreement with experimental results. A qualitative assessment of the theta-plot method for predicting the limiting value of stress is also presented. The procedure may also be used as a basis to develop evaluation schemes for other viscoplastic constitutive theories of this type.

Keywords: STRUCTURAL MECHANICS

Type: NASA. Lewis Research Center, Nonlinear Constitutive Relations for High Temperature Applications, 1986; p 317-352

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6

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An experimental comparison of several current viscoplastic constitutive models at elevated temperature (1988)

Hill, P. S. ; Haisler, W. E. ; James, G. H. ; [et al.]

In: CASI

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Publication Date: 2013-08-31

Description: Four current viscoplastic models are compared experimentally for Inconel 718 at 593 C. This material system responds with apparent negative strain rate sensitivity, undergoes cyclic work softening, and is susceptible to low cycle fatigue. A series of tests were performed to create a data base from which to evaluate material constants. A method to evaluate the constants is developed which draws on common assumptions for this type of material, recent advances by other researchers, and iterative techniques. A complex history test, not used in calculating the constants, is then used to compare the predictive capabilities of the models. The combination of exponentially based inelastic strain rate equations and dynamic recovery is shown to model this material system with the greatest success. The method of constant calculation developed was successfully applied to the complex material response encountered. Backstress measuring tests were found to be invaluable and to warrant further development.

Keywords: STRUCTURAL MECHANICS

Type: NASA. Lewis Research Center, Nonlinear Constitutive Relations for High Temperature Applications, 1986; p 253-289

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7

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Susceptibility of symmetric structures to nonlinear torsional coupling (1982)

Syamal, P. K. ; Pekau, O. A.

In: Other Sources

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Publication Date: 2011-08-18

Description: The susceptibility to induced torsional response of symmetric building structures with nonliner resisting elements was investigated. Stability curves show the effect of the arrangement of the load resisting elements on induced torsional coupling in these nonliner but other wise symmetric structures. Universal upper and lower bound instability curves are also derived; these identify the susceptibility to torsional coupling of symmetric structures with different stiffness arrangements but which have equal mass and total lateral stiffness, and which are intended to model alternative structural strategies for lateral load resistance.

Keywords: STRUCTURAL MECHANICS

Type: NASA. Langley Research Center Res. in Struct. and Solid Mech., 1982; p 313-328

Format: text

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8

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Adaptive finite element analysis based on p-convergence (1978)

Rossow, M. P. ; Basu, P. K. ; Szabo, B. A.

In: CASI

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Publication Date: 2016-06-07

Description: The results of numerical experiments are presented in which a posteriori estimators of error in strain energy were examined on the basis of a typical problem in linear elastic fracture mechanics. Two estimators were found to give close upper and lower bounds for the strain energy error. The potential significance of this is that the same estimators may provide a suitable basis for adaptive redistribution of the degrees of freedom in finite element models.

Keywords: STRUCTURAL MECHANICS

Type: NASA. Langley Res. Center Res. in Computerized Structural Analysis and Syn.,; p 43-50

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9

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Analysis of a spherical shell with a non-axisymmetric boundary (1966)

Elias, Z. M. ; Ho, P. K.

In: CASI

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Publication Date: 2019-05-30

Description: Spherical shell problem formulated in terms of stress functions, and applied to nonaxisymmetric boundary

Keywords: STRUCTURAL MECHANICS

Type: NASA-CR-567

Format: application/pdf

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10

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Effect of type of load on stress analysis of thin-walled ducts (1992)

Aggarwal, P. K. ; Min, J. B.

In: CASI

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Publication Date: 2019-06-28

Description: The standard procedure for qualifying the design of duct (pipe) systems in the Space Shuttle Main Engine (SSME) has been fairly well defined. However, since pipe elbows are quite common and important in the SSME duct systems, a clear understanding of the detailed stress profile of the components is necessary for accurate structural and life assessments. This study was initiated to predict the stress profile at/near the tangent point along the cross section of the duct under various types of loads. Also, this study was further extended to understand the stiffening effect on stresses due to pressure at the tangent point. The intention of this study was to identify the importance of selecting proper locations for mounting strain gauges and to utilize the obtained results to anchor dynamic models for accurate structural and life assessments of the SSME ducts under a dynamic environment. The finite element method was utilized in this study.

Keywords: STRUCTURAL MECHANICS

Type: NASA-TP-3248 , M-688 , NAS 1.60:3248

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