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BUCLAP2: A computer program for instability analysis of laminated long plates subjected to combined inplane loads. User's manual (1973)

Tamekuni, M. ; Halstead, D. W. ; Baker, L. L. ; [et al.]

In: CASI

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Publication Date: 2019-06-27

Description: The usage of the computer program BUCLAP2 is described. The program is intended for linear instability analysis of long, rectangular flat and curved laminated plates with arbitrary orientation of orthotropic axes in each layer. The loadings considered are combinations of inplane normal and shear loads. Arbitray elastic boundary conditions are included for the sides of the plate Instructions for use of the program are included along with Input data requirements, output information, and sample problems. For program description, see .

Keywords: STRUCTURAL MECHANICS

Type: NASA-CR-132298 , D6-60187

Format: application/pdf

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2

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BUCLAP2: A computer program for instability analysis of laminated long plates subjected to combined inplane loads (1973)

Tripp, L. L. ; Baker, L. L. ; Halstead, D. W. ; [et al.]

In: CASI

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Publication Date: 2019-06-27

Description: This program description document describes the program structure and the design details of a CDC 6600 FORTRAN 4 digital computer program, BUCLAP2, which uses minimum energy principles to do an elastic stability analysis of curved and flat laminated rectangular long plates subjected to combined inplane normal and shear loads. Given the geometry, the material properties, and slected boundary conditions for the plate element, the program calculates the minimum buckling load for various wave lengths. The two parallel ends of the program calculates the minimum buckling load for various wave lengths. The two parallel ends of the long plate must be simply supported and arbitrary elastic boundary conditions may be imposed along either one or both external longitudinal sides. For guide to program use, see

Keywords: STRUCTURAL MECHANICS

Type: NASA-CR-132299

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3

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Structural analysis of vibroacoustical processes (1973)

Myasnikova, Y. N. ; Myasnikov, L. L. ; Gromov, A. P. ; [et al.]

In: CASI

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Publication Date: 2006-03-28

Description: The method of automatic identification of acoustical signals, by means of the segmentation was used to investigate noises and vibrations in machines and mechanisms, for cybernetic diagnostics. The structural analysis consists of presentation of a noise or vibroacoustical signal as a sequence of segments, determined by the time quantization, in which each segment is characterized by specific spectral characteristics. The structural spectrum is plotted as a histogram of the segments, also as a relation of the probability density of appearance of a segment to the segment type. It is assumed that the conditions of ergodic processes are maintained.

Keywords: STRUCTURAL MECHANICS

Type: Cybernetic Diagnostics of Mech. Systems with Vibro-acoustic Phenomena (NASA-TT-F-14899); p 179-180

Format: text

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4

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Electronic strain-level counter (1973)

Spencer, J. L. ; Pitts, F. L.

In: CASI

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Publication Date: 2019-06-27

Description: An electronic strain level counter for obtaining structural strain data on in-flight aircraft is described. The device counts the number of times the strain at a point on an aircraft structural member exceeds each of several preset levels. A dead band is provided at each level to prohibit the counting of small strain variations around a given preset level.

Keywords: STRUCTURAL MECHANICS

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5

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The Influence of Wing Loading on Turbofan Powered STOL Transports with and Without Externally Blown Flaps (1973)

Pasley, L. H. ; Hanke, C. R. ; Morris, R. L. ; [et al.]

In: CASI

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Publication Date: 2019-06-27

Description: The effects of wing loading on the design of short takeoff and landing (STOL) transports using (1) mechanical flap systems, and (2) externally blown flap systems are determined. Aircraft incorporating each high-lift method are sized for field lengths of 2,000 feet, 2,500 feet, and 3,500 feet, and for payloads of 40, 150, and 300 passengers, for a total of 18 point-design aircraft. An assumed 1975 level of technology is applied to both concepts in terms of propulsion, weights, active controls, supercritical wing methodology, and acoustics. Low-wing-loading STOL configurations with mechanical flaps are found to be competitive with externally blown flap STOL configurations over wide ranges of payload and field length for the airworthiness rules and technology improvements assumed. Because the results of design studies like this one are sensitive to the ground rules assumed, careful attention is paid to describing the assumptions. These assumptions must be understood before the results are compared with other STOL airplane studies.

Keywords: AIRCRAFT

Type: NASA-CR-2320 , D3-8514-7

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6

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BUCLASP 3: A computer program for stresses and buckling of heated composite stiffened panels and other structures, user's manual (1973)

Viswanathan, A. V. ; Tripp, L. L. ; Tamekuni, M.

In: CASI

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Publication Date: 2019-06-27

Description: The use of the computer program BUCLASP3 is described. The code is intended for thermal stress and instability analyses of structures such as unidirectionally stiffened panels. There are two types of instability analyses that can be effected by PAINT; (1) thermal buckling, and (2) buckling due to a specified inplane biaxial loading. Any structure that has a constant cross section in one direction, that may be idealized as an assemblage of beam elements and laminated flat and curved plate strip-elements can be analyzed. The two parallel ends of the panel must be simply supported, whereas arbitrary elastic boundary conditions may be imposed along any one or both external longitudinal side. Any variation in the temperature rise (from ambient) through the cross section of a panel is considered in the analyses but it must be assumed that in the longitudinal direction the temperature field is constant. Load distributions for the externally applied inplane biaxial loads are similar in nature to the permissible temperature field.

Keywords: STRUCTURAL MECHANICS

Type: NASA-CR-112228

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7

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BUCLASP 2: A computer program for instability analysis of biaxially loaded composite stiffened panels and other structures (1973)

Tripp, L. L. ; Tamekuni, M. ; Viswanathan, A. V.

In: CASI

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Publication Date: 2019-06-27

Description: The use of the computer program BUCLASP2 is described. The program is intended for linear instability analyses of structures such as unidirectionally stiffened panels. Any structure that has a constant cross section in one direction, that may be idealized as an assemblage of beam elements and laminated flat and curved plant strip elements can be analyzed. The loadings considered are combinations of axial compressive loads and in-plane transverse loads. The two parallel ends of the panel must be simply supported and arbitrary elastic boundary conditions may be imposed along any one or both external longitudinal side. This manual consists of instructions for use of the program with sample problems, including input and output information. The theoretical basis of BUCLASP2 and correlations of calculated results with known solutions, are presented.

Keywords: STRUCTURAL MECHANICS

Type: NASA-CR-112226

Format: application/pdf

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8

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Effect of exhaust nozzle configuration on aerodynamic and acoustic performance of an externally blown flap system with a quiet 6:1 bypass ratio engine (1973)

Heidelberg, L. J. ; Samanich, N. E. ; Jones, W. L.

In: CASI

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Publication Date: 2019-07-13

Description: A highly suppressed TF-34 engine was used to investigate engine and flap interaction noise associated with an externally blown flap STOL powered lift system. Noise, efficiency, and velocity decay characteristics of mixed and separate flow exhaust systems including convergent, co-annular, and lobed designs were determined with the engine operating alone. Noise data were then obtained for several of the exhaust configurations with the engine blowing a wing-flap segment. Noise for both the engine alone and the engine with blown flaps showed substantial differences for the various exhaust configurations tested. The differences in observed noise are related primarily to nozzle effective exhaust velocity, flap impingement velocity, and noise spectral shape.

Keywords: AIRCRAFT

Type: NASA-TM-X-71466 , E-7765 , Propulsion Joint Specialist Conf.; Nov 05, 1973 - Nov 07, 1973; Las Vegas, NV; United States

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9

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Applications of advanced aerodynamic technology to light aircraft. (1973)

Crane, H. L. ; Mcghee, R. J. ; Kohlman, D. L.

In: Other Sources

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Publication Date: 2019-07-13

Description: This paper discusses a project for adapting advanced technology, much of it borrowed from the jet transport, to general aviation design practice. The NASA funded portion of the work began in 1969 at the University of Kansas and resulted in a smaller, experimental wing with spoilers and powerful flap systems for a Cessna Cardinal airplane. Some flight data and research pilot comments are presented. The project was expanded in 1972 to include a light twin-engine airplane. For the twin there was the added incentive of a potential increase in single-engine climb performance. The use of a new high-lift Whitcomb airfoil is planned for both the wing and the propellers. Preliminary data on the characteristics of the new airfoil are discussed. The configuration of an experimental wing for a Piper Seneca PA-34 and estimated airplane performance with this wing are discussed.

Keywords: AIRCRAFT

Type: SAE PAPER 730318 , Business Aircraft Meeting; Apr 03, 1973 - Apr 06, 1973; Wichita, KS

Format: text

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10

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Optimization of a corrugated stiffened composite panel under uniaxial compression (1973)

Sobel, L. H. ; Agarwal, B. L.

In: CASI

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Publication Date: 2019-07-13

Description: An approach of structural optimization has been used to optimize the weight of a simply supported, corrugated hat stiffened composite panel under uniaxial compression. The approach consists of the employment of nonlinear mathematical programming techniques to reach an optimum solution. Some simplifying assumptions are made in the stress analysis to obtain faster convergence to an optimum solution. With these simplifying assumptions the number of unknown design parameters is reduced to twelve.

Keywords: STRUCTURAL MECHANICS

Type: NASA-CR-132314

Format: application/pdf

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