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Wind Tunnel Model Support Cart with Telescoping Mast and Cable Yaw Drive (1999)

Gregory, Peyton B. ; Monroe, Charles A.

In: CASI

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Publication Date: 2004-12-03

Description: The 14-by-22 Foot Subsonic Tunnel at NASA Langley Research Center uses model carts to support and position models in the test section. The carts are portable through the use of air bearings and can be moved from the test to the Model Prep Area (MPA) to change models in preparation for a new test. This paper describes the design of a new model cart that is three feet shorter than existing carts. This will eliminate clearance problems when moving the model and cart from the MPA to the test section.

Keywords: Mechanical Engineering

Type: 33rd Aerospace Mechanisms Symposium; 419-430; NASA/CP-1998-209259

Format: text

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2

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Quick actuating closure and handling system (1988)

Updike, Benjamin T. ; Gregory, Peyton B. ; Allred, Johnny W. ; [et al.]

In: CASI

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Publication Date: 2013-08-31

Description: A quick activating closure and handling system, which utilizes conical sections for locking, was developed to allow quick access to the combustor internal components of the 8 ft High Temperature Tunnel. These critical components include the existing methane spraybar, a transpiration cooled nozzle and the new liquid oxygen (LOX) injection system housed within the combustor. A substantial cost savings will be realized once the mechanism is installed since it will substantially reduce the access time and increase the time available for conducting wind tunnel tests. A need exists for more frequent inspections when the wind tunnel operates at the more severe conditions generated by using LOX in the combustor. A loads analysis and a structural (finite element) analysis were conducted to verify that the new closure system is compatible with the existing pressure shell. In addition, strain gages were placed on the pressure vessel to verify how the pressure shell reacts to transient pressure loads. A scale model of the new closure system was built to verify the operation of the conical sections in the locking mechanisms.

Keywords: MECHANICAL ENGINEERING

Type: The 22nd Aerospace Mechanisms Symposium,; p 99-114

Format: application/pdf

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3

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Thermal/structural analysis of the shaft-disk region of a fan drive system (1990)

Gregory, Peyton B. ; Holland, Anne D.

In: CASI

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Publication Date: 2019-06-28

Description: In January 1989, a mishap occurred in the National Transonic Facility wind tunnel at NASA-Langley. It is believed that the failure of an insulation retainer holding foam insulation around the exterior of the fan drive shaft resulted in the subsequent damage to other components in the tunnel. The effect was determined of removing the external thermal insulation on the shaft would have on the stresses on the shaft, disk and bolts holding the two together. To accomplish this, a detailed thermal/structural finite element analysis of the shaft-disk interface was performed. The maximum stresses on the three components were determined for several configurations and conditions with and without the external thermal insulation, and then these results were compared to the original analyses to access the effect of removing the external thermal insulation on the proposed future operation of the shaft/disk structures of the fan drive system. Although the stresses were higher without the external insulation, the stresses did meet all stress criteria. In addition, all stresses were within the infinite life regime of the Modified Goodman diagram. Therefore, it was determined that the structural integrity of the shaft-disk region is not compromised if the external insulation is removed.

Keywords: STRUCTURAL MECHANICS

Type: NASA-TM-101687 , NAS 1.15:101687

Format: application/pdf

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4

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Transient/structural analysis of a combustor under explosive loads (1992)

Holland, Anne D. ; Gregory, Peyton B.

In: CASI

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Publication Date: 2019-06-28

Description: The 8-Foot High Temperature Tunnel (HTT) at NASA Langley Research Center is a combustion-driven blow-down wind tunnel. A major potential failure mode that was considered during the combustor redesign was the possibility of a deflagration and/or detonation in the combustor. If a main burner flame-out were to occur, then unburned fuel gases could accumulate and, if reignited, an explosion could occur. An analysis has been performed to determine the safe operating limits of the combustor under transient explosive loads. The failure criteria was defined and the failure mechanisms were determined for both peak pressures and differential pressure loadings. An overview of the gas dynamics analysis was given. A finite element model was constructed to evaluate 13 transient load cases. The sensitivity of the structure to the frequency content of the transient loading was assessed. In addition, two closed form dynamic analyses were conducted to verify the finite element analysis. It was determined that the differential pressure load or thrust load was the critical load mechanism and that the nozzle is the weak link in the combustor system.

Keywords: STRUCTURAL MECHANICS

Type: NASA-TM-107660 , NAS 1.15:107660

Format: application/pdf

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5

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Thermal/structural analysis of a transpiration cooled nozzle (1992)

Thompson, Jon E. ; Mouring, Chris A. ; Gray, Carl E., Jr. ; [et al.]

In: CASI

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Publication Date: 2019-06-28

Description: The 8-foot High Temperature Tunnel (HTT) at LaRC is a combustion driven, high enthalpy blow down wind tunnel. In Mar. 1991, during check out of the transpiration cooled nozzle, pieces of platelets were found in the tunnel test section. It was determined that incorrect tolerancing between the platelets and the housing was the primary cause of the platelet failure. An analysis was performed to determine the tolerance layout between the platelets and the housing to meet the structural and performance criteria under a range of thermal, pressure, and bolt preload conditions. Three recommendations resulted as a product of this analysis.

Keywords: STRUCTURAL MECHANICS

Type: NASA-TM-104184 , NAS 1.15:104184

Format: application/pdf

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6

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Dynamics of column stability with partial end restraints (1990)

Gregory, Peyton B.

In: CASI

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Publication Date: 2019-06-28

Description: The dynamic behavior of columns with partial end restraints and loads consisting of a dead load and a pulsating load are investigated. The differential equation is solved using a lumped impulse recurrence formula relative to time coupled with a finite difference discretization along the member length. A computer program is written from which the first critical frequencies are found as a function of end stiffness. The case of a pinned ended column compares very well with the exact solution. Also, the natural frequency and buckling load formulas are derived for equal and unequal end restraints.

Keywords: STRUCTURAL MECHANICS

Type: NASA-TM-101651 , NAS 1.15:101651

Format: application/pdf

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Deflecting Shearpin (1993)

Gregory, Peyton B.

In: Other Sources

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Publication Date: 2019-07-12

Description: Spring loading helps prevent permanent deformation of adjacent bearing surfaces. Shearpin deflects as load compresses inner spring. Maximum deflection determined by gap between halves of capture ring. Beyond deflection, pin acts as standard shearpin.

Keywords: FABRICATION TECHNOLOGY

Type: LAR-14005 , NASA Tech Briefs (ISSN 0145-319X); 17; 3; P. 105

Format: text

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Damage Tolerance Analysis of a Pressurized Liquid Oxygen Tank (2006)

Gregory, Peyton B. ; Harvin, Stephen F. ; Hoffman, Eric K. ; [et al.]

In: CASI

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Publication Date: 2019-07-11

Description: A damage tolerance assessment was conducted of an 8,000 gallon pressurized Liquid Oxygen (LOX) tank. The LOX tank is constructed of a stainless steel pressure vessel enclosed by a thermal-insulating vacuum jacket. The vessel is pressurized to 2,250 psi with gaseous nitrogen resulting in both thermal and pressure stresses on the tank wall. Finite element analyses were performed on the tank to characterize the stresses from operation. Engineering material data was found from both the construction of the tank and the technical literature. An initial damage state was assumed based on records of a nondestructive inspection performed on the tank. The damage tolerance analyses were conducted using the NASGRO computer code. This paper contains the assumptions, and justifications, made for the input parameters to the damage tolerance analyses and the results of the damage tolerance analyses with a discussion on the operational safety of the LOX tank.

Keywords: Structural Mechanics

Type: NASA/TM-2006-214274 , L-19212

Format: application/pdf

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