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Analysis of aircraft engine blade subject to ice impact (1992)

Reddy, E. S. ; Murthy, P. L. N. ; Chamis, C. C. ; [et al.]

In: CASI

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Publication Date: 2013-08-31

Description: The ice impact problem on an engine blade made of layered composite is simulated. The ice piece is modeled as an equivalent spherical object and has the velocity opposite to that of the aircraft with direction parallel to the engine axis. Near the impact region and along the leading edge, the blade is assumed to be fully stressed and undergoes large deflection. A specified portion of the blade around the impact region is modeled. The effect of ice size and velocity on the average leading edge strain are investigated for a modified SR-2 model unswept composite propfan blade. Parametric studies are performed to study the response due to ice impact at various locations along the span. Also, the effects of engine speed on the strain and impact displacements are discussed. It is found that for a given engine speed, a critical ice speed exists that corresponds to the maximum strain and this critical speed increases with increase in the engine speed.

Keywords: AIRCRAFT PROPULSION AND POWER

Type: FAA, Ninth DOD(NASA)FAA Conference on Fibrous Composites in Structural Design, Volume 3; p 1319-1331

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2

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Ice-impact analysis of blades (1994)

Singhal, S. N. ; Chamis, C. C. ; Reddy, E. S. ; [et al.]

In: CASI

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Publication Date: 2013-08-29

Description: A computational capability is described for evaluating the ice-impact on engine blades made from composites. The ice block is modeled as an equivalent spherical object and has the velocity opposite to that of the aircraft with direction parallel to the engine axis. A finer finite element mesh is used for a portion of the blade near the impact region compared to the course mesh for the rest of the blade. The effects of ice size and velocity on the average leading edge strain are evaluated for a simulated unswept composite propfan blade. Parametric studies are performed to assess the blade structural responses due to the ice-impact at various locations along the span. It is found that: (1) for a given engine speed, a critical ice speed exists that corresponds to the maximum strain; and (2) the tip bending type frequencies increase after impact while the torsion frequencies decrease.

Keywords: AIRCRAFT PROPULSION AND POWER

Type: AGARD, Erosion, Corrosion and Foreign Object Damage Effects in Gas Turbines; 12 p

Format: text

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3

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Structural tailoring of aircraft engine blade subject to ice impact constraints (1992)

Abumeri, G. H. ; Reddy, E. S. ; Chamis, C. C. ; [et al.]

In: Other Sources

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Publication Date: 2019-06-28

Description: In this paper, results are presented for the minimum weight design of SR2 unswept blade made of (Titanium/Graphite-Epoxy/Titanium)s fiber composite. The blade which is rotating at high RPM is subject to ice impact. The root chord length, blade thicknesses at five stations, and graphite-epoxy ply orientation are chosen as design variables. The design constraints are placed on the behavior variables: leading edge strain and root damage parameter due to ice impact, maximum post-impact bending stress at the root due to rotation, first three natural frequencies and resonance margin after impact. The method of feasible directions is employed to solve the inequality constrained minimization problem. The effect of ice speed and the ice impact location on the final design are discussed.

Keywords: AIRCRAFT PROPULSION AND POWER

Type: AIAA PAPER 92-4710 , In: AIAA(USAF)NASA/OAI Symposium on Multidisciplinary Analysis and Optimization, 4th, Cleveland, OH, Sept. 21-23, 1992, Technical Papers. Pt. 1 (A93-20301 06-66); p. 197-206.

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4

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APPLE - An aeroelastic analysis system for turbomachines and propfans (1992)

Bakhle, Milind A. ; Reddy, T. S. R. ; Mehmed, Oral ; [et al.]

In: Other Sources

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Publication Date: 2019-06-28

Description: This paper reviews aeroelastic analysis methods for propulsion elements (advanced propellers, compressors and turbines) being developed and used at NASA Lewis Research Center. These aeroelastic models include both structural and aerodynamic components. The structural models include the typical section model, the beam model with and without disk flexibility, and the finite element blade model with plate bending elements. The aerodynamic models are based on the solution of equations ranging from the two-dimensional linear potential equation for a cascade to the three-dimensional Euler equations for multi-blade configurations. Typical results are presented for each aeroelastic model. Suggestions for further research are indicated. All the available aeroelastic models and analysis methods are being incorporated into a unified computer program named APPLE (Aeroelasticity Program for Propulsion at LEwis).

Keywords: AIRCRAFT PROPULSION AND POWER

Type: AIAA PAPER 92-4712 , In: AIAA(USAF)NASA/OAI Symposium on Multidisciplinary Analysis and Optimization, 4th, Cleveland, OH, Sept. 21-23, 1992, Technical Papers. Pt. 1 (A93-20301 06-66); p. 207-225.

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5

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BLASIM - A computational tool to assess ice impact damage on engine blades (1993)

Abumeri, G. H. ; Reddy, E. S. ; Chamis, C. C.

In: Other Sources

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Publication Date: 2019-06-28

Description: A portable computer code called BLASIM is developed at NASA LeRC to assess the ice impact damage on aircraft engine blades. In addition to the ice impact analyses, the code is also capable of carrying out static, dynamic, resonance margin and flutter analyses. The blade can be solid, hollow, superhybrid or composite material. An optional preprocessor (input generator) is also developed to generate input to the code through interactive process. The blade geometry can be defined either by a series of airfoils at discrete input stations or by a finite element grid. The code employs a coarse fixed finite element mesh with triangular plate finite elements and has quick turnaround time. The ice piece is modeled as an equivalent spherical object and has the velocity opposite to that of the aircraft with direction parallel to the engine axis. For the local impact damage assessment, the impact force is considered as a distributed load acting over a region around the impact point and the average radial strain of the finite elements along the leading edge is taken as a measure of the local damage. To estimate the damage at the blade root, the impact is considered to be an impulse and a combined stress failure criteria is employed. Parametric studies for local and root ice impact damage, and post-impact dynamics are discussed for solid and composite blades.

Keywords: AIRCRAFT PROPULSION AND POWER

Type: AIAA PAPER 93-1638 , In: AIAA(ASME)ASCE/AHS/ASC Structures, Structural Dynamics, and Materials Conference, 34th and AIAA/ASME Adaptive Structures Forum, La Jolla, CA, Apr. 19-22, 1993, Technical Papers. Pt. 5 (A93-33876 1; p. 2912-2918.

Format: text

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6

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Unsteady aerodynamics and flutter of propfans using a three-dimensional Full-Potential Solver (1993)

Reddy, T. S. R. ; Bakhle, Milind A.

In: Other Sources

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Publication Date: 2019-06-28

Description: A full-potential solver coupled with a linear structural dynamics model is used to calculate the unsteady aerodynamics and aeroelasticity of propfans. The solver allows calculations for arbitrary interblade phase angles. Results are presented for two propfan configurations. Good agreement is seen between the full-potential results and results from linear theory since the flow is subsonic and the thickness of the propfan blades is small. Some difficulty is encountered due to wave reflections from outer computational boundaries; however, this does not affect the results in the range of frequencies of aeroelastic interest.

Keywords: AIRCRAFT PROPULSION AND POWER

Type: AIAA PAPER 93-1633 , In: AIAA(ASME)ASCE/AHS/ASC Structures, Structural Dynamics, and Materials Conference, 34th and AIAA/ASME Adaptive Structures Forum, La Jolla, CA, Apr. 19-22, 1993, Technical Papers. Pt. 5 (A93-33876 1; p. 2876-2886.

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7

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Analysis of an unswept propfan blade with a semiempirical dynamic stall model (1989)

Kaza, K. R. V. ; Reddy, T. S. R.

In: CASI

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Publication Date: 2019-06-28

Description: The time history response of a propfan wind tunnel model with dynamic stall is studied analytically. The response obtained from the analysis is compared with available experimental data. The governing equations of motion are formulated in terms of blade normal modes which are calculated using the COSMIC-NASTRAN computer code. The response analysis considered the blade plunging and pitching motions. The lift, drag and moment coefficients for angles of attack below the static stall angle are obtained from a quasi-steady theory. For angles above static stall angles, a semiempirical dynamic stall model based on a correction to angle of attack is used to obtain lift, drag and moment coefficients. Using these coefficients, the aerodynamic forces are calculated at a selected number of strips, and integrated to obtain the total generalized forces. The combined momentum-blade element theory is used to calculate the induced velocity. The semiempirical stall model predicted a limit cycle oscillation near the setting angle at which large vibratory stresses were observed in an experiment. The predicted mode and frequency of oscillation also agreed with those measured in the experiment near the setting angle.

Keywords: AIRCRAFT PROPULSION AND POWER

Type: NASA-TM-4083 , E-4196 , NAS 1.15:4083

Format: application/pdf

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8

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Propfan Test Assessment (PTA): Flight test report (1989)

Reddy, N. N. ; Bartel, H. W. ; Withers, C. C. ; [et al.]

In: CASI

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Publication Date: 2019-06-28

Description: The Propfan Test Assessment (PTA) aircraft was flown to obtain glade stress and noise data for a 2.74m (9 ft.) diameter single rotation propfan. Tests were performed at Mach numbers to 0.85 and altitudes to 12,192m (40,000 ft.). The propfan was well-behaved structurally over the entire flight envelope, demonstrating that the blade design technology was completely adequate. Noise data were characterized by strong signals at blade passage frequency and up to 10 harmonics. Cabin noise was not so high as to preclude attainment of comfortable levels with suitable wall treatment. Community noise was not excessive.

Keywords: AIRCRAFT PROPULSION AND POWER

Type: NASA-CR-182278 , NAS 1.26:182278 , LG89ER0026

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9

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Viscous three-dimensional analyses for nozzles for hypersonic propulsion (1990)

Lai, H. T. ; Harloff, G. J. ; Reddy, D. R.

In: CASI

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Publication Date: 2019-07-13

Description: A Navier-Stokes computer code was validated using a number of two- and three-dimensional configurations for both laminar and turbulent flows. The validation data covers a range of freestream Mach numbers from 3 to 14, includes wall pressures, velocity profiles, and skin friction. Nozzle flow fields computed for a generic scramjet nozzle from Mach 3 to 20, wall pressures, wall skin friction values, heat transfer values, and overall performance are presented. In addition, three-dimensional solutions obtained for two asymmetric, single expansion ramp nozzles at a pressure ratio of 10 consists of the internal expansion region in the converging/diverging sections and the external supersonic exhaust in a quiescent ambient environment. The fundamental characteristics that were captured successfully include expansion fans; Mach wave reflections; mixing layers; and nonsymmetrical, multiple inviscid cell, supersonic exhausts. Comparison with experimental data for wall pressure distributions at the center planes shows good agreement.

Keywords: AIRCRAFT PROPULSION AND POWER

Type: NASA-CR-185197 , E-5267 , NAS 1.26:185197 , AGARD Symposium on Combined Cycle Propulsion for Hypersonic Application; May 21, 1990 - May 25, 1990; Madrid; Spain

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10

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Dynamic analysis of a pre-and-post ice impacted blade (1992)

Reddy, E. S. ; Abumeri, G. H. ; Murthy, P. L. N. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-13

Description: The dynamic characteristics of an engine blade are evaluated under pre-and-post ice impact conditions using the NASA in-house computer code BLASIM. The ice impacts the leading edge of the blade causing severe local damage. The local structural response of the blade due to the ice impact is predicted via a transient response analysis by modeling only a local patch around the impact region. After ice impact, the global geometry of the blade is updated using deformations of the local patch and a free vibration analysis is performed. The effects of ice impact location, ice size and ice velocity on the blade mode shapes and natural frequencies are investigated. The results indicate that basic nature of the mode shapes remains unchanged after impact and that the maximum variation in natural frequencies occurs for the twisting mode of the blade.

Keywords: AIRCRAFT PROPULSION AND POWER

Type: AIAA PAPER 92-4273 , ; 9 p.|AIAA, Aircraft Design Systems Meeting; Aug 24, 1992 - Aug 26, 1992; Hilton Head Island, SC; United States

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