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Issues

Volume 92, Issue 1
March 1970
This article was originally published in
Journal of Basic Engineering
Issue Cover
ISSN 0021-9223
In this Issue

Research Papers

Theory of Distributed Systems
Rufus Oldenburger
J. Basic Eng. March 1970, 92(1): 1–9. doi: https://doi.org/10.1115/1.3424935
View articletitled, Theory of Distributed Systems
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Topics: Approximation , Computers , Laplace transforms , Polynomials
An Experimental Investigation of Several Low-Area-Ratio Water Jet Pumps
N. L. Sanger
J. Basic Eng. March 1970, 92(1): 11–19. doi: https://doi.org/10.1115/1.3424917
View articletitled, An Experimental Investigation of Several Low-Area-Ratio Water Jet Pumps
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Topics: Jet pumps , Water , Cavitation , Diffusers , Geometry , Nozzles , Pumps
Resistance of an Inclined Plate Placed on a Plane Boundary in Two-Dimensional Flow
K. G. Ranga Raju, R. J. Garde
J. Basic Eng. March 1970, 92(1): 21–28. doi: https://doi.org/10.1115/1.3424938
View articletitled, Resistance of an Inclined Plate Placed on a Plane Boundary in Two-Dimensional Flow
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Topics: Flow (Dynamics) , Drag (Fluid dynamics) , Boundary layer turbulence , Boundary layers , Dimensions , Tunnels , Wind tunnels
Two-Phase Eccentric Interface Laminar Pipeline Flow
M. Bentwich, D. A. I. Kelly, N. Epstein
J. Basic Eng. March 1970, 92(1): 32–36. doi: https://doi.org/10.1115/1.3424942
View articletitled, Two-Phase Eccentric Interface Laminar Pipeline Flow
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Topics: Flow (Dynamics) , Pipelines , Viscosity , Cylinders , Pressure drop
Discrete Frequency Noise Generation From an Axial Flow Fan Blade Row
Ramani Mani
J. Basic Eng. March 1970, 92(1): 37–43. doi: https://doi.org/10.1115/1.3424944
View articletitled, Discrete Frequency Noise Generation From an Axial Flow Fan Blade Row
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Topics: Axial flow , Blades , Noise (Sound) , Acoustics
Thermodynamic Effects on Desinent Cavitation on Hemispherical Nosed Bodies in Water at Temperatures From 80 Deg F to 260 Deg F
J. W. Holl, A. L. Kornhauser
J. Basic Eng. March 1970, 92(1): 44–57. doi: https://doi.org/10.1115/1.3424947
View articletitled, Thermodynamic Effects on Desinent Cavitation on Hemispherical Nosed Bodies in Water at Temperatures From 80 Deg F to 260 Deg F
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Topics: Cavitation , Temperature , Water , NASA , Theoretical analysis , Tunnels
Annular Two-Phase Flow—Part 1: A Simple Theory
G. B. Wallis
J. Basic Eng. March 1970, 92(1): 59–72. doi: https://doi.org/10.1115/1.3424950
View articletitled, Annular Two-Phase Flow—Part 1: A Simple Theory
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Topics: Two-phase flow , Flow (Dynamics) , Pressure drop , Porosity , Shear (Mechanics) , Shear stress
Annular Two-Phase Flow—Part 2: Additional Effects
G. B. Wallis
J. Basic Eng. March 1970, 92(1): 73–81. doi: https://doi.org/10.1115/1.3424951
View articletitled, Annular Two-Phase Flow—Part 2: Additional Effects
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Topics: Compressibility , Liquid films , Reynolds number , Shear stress , Two-phase flow , Waves
Simultaneous Lateral Skewing in a Three-Dimensional Turbulent Boundary-Layer Flow
W. F. Klinksiek, F. J. Pierce
J. Basic Eng. March 1970, 92(1): 83–90. doi: https://doi.org/10.1115/1.3424954
View articletitled, Simultaneous Lateral Skewing in a Three-Dimensional Turbulent Boundary-Layer Flow
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Topics: Boundary layers , Flow (Dynamics) , Turbulence , Ducts
Linearized Theory of Three-Dimensional Jet Mixing With and Without Walls
S. I. Pai, T. Y. Hsieh
J. Basic Eng. March 1970, 92(1): 93–99. doi: https://doi.org/10.1115/1.3424957
View articletitled, Linearized Theory of Three-Dimensional Jet Mixing With and Without Walls
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Topics: Flow (Dynamics) , Fluids , Nozzles , Pressure gradient
A Continuum Dislocation Theory Model for Predicting the Wall Thickness Changes of Hollow Drawn Tubing
J. E. Flinn
J. Basic Eng. March 1970, 92(1): 101–104. doi: https://doi.org/10.1115/1.3424913
View articletitled, A Continuum Dislocation Theory Model for Predicting the Wall Thickness Changes of Hollow Drawn Tubing
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Topics: Dislocations (Crystals) , Tubing , Wall thickness
Relationship Between the Creep of Solid and Foam Polyurethane Resulting From Combined Stresses
K. G. Nolte, W. N. Findley
J. Basic Eng. March 1970, 92(1): 105–114. doi: https://doi.org/10.1115/1.3424914
View articletitled, Relationship Between the Creep of Solid and Foam Polyurethane Resulting From Combined Stresses
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Topics: Creep , Stress , Urethane foam , Stiffness , Density , Space frame structures , Urethane elastomers , Compression , Polystyrene foam , Tension
Directionality of Fatigue Properties in Some Textured Sheet Metals
I. Le May, K. D. Nair
J. Basic Eng. March 1970, 92(1): 115–120. doi: https://doi.org/10.1115/1.3424916
View articletitled, Directionality of Fatigue Properties in Some Textured Sheet Metals
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Topics: Fatigue properties , Sheet metal , Annealing , Cold rolling , Poles (Building) , Texture (Materials)
Environmentally Controlled Fatigue Crack-Growth Rates in SAE 4340 Steel—Temperature Effects
J. T. Ryder, J. P. Gallagher
J. Basic Eng. March 1970, 92(1): 121–125. doi: https://doi.org/10.1115/1.3424918
View articletitled, Environmentally Controlled Fatigue Crack-Growth Rates in SAE 4340 Steel—Temperature Effects
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Topics: Fatigue , Fracture (Materials) , Steel , Temperature effects , Stress , Corrosion , Temperature , Water , Crack propagation , Cycles
Strain Cycling Effects in 1100 Aluminum
H. A. Moreen
J. Basic Eng. March 1970, 92(1): 126–130. doi: https://doi.org/10.1115/1.3424919
View articletitled, Strain Cycling Effects in 1100 Aluminum
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Topics: Aluminum , Shapes , Stress , Anisotropy , Dislocations , Flow (Dynamics) , Materials properties , Work hardening
Ligament Strain in the Human Knee Joint
R. G. Edwards, J. F. Lafferty, K. O. Lange
J. Basic Eng. March 1970, 92(1): 131–136. doi: https://doi.org/10.1115/1.3424920
View articletitled, Ligament Strain in the Human Knee Joint
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Topics: Knee , Kinematics , Strain gages
A New Apparatus to Shear Bulk Materials at Various Rates Under Very High Pressure
A. E. Abey, H. D. Stromberg
J. Basic Eng. March 1970, 92(1): 137–138. doi: https://doi.org/10.1115/1.3424921
View articletitled, A New Apparatus to Shear Bulk Materials at Various Rates Under Very High Pressure
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Topics: Bulk solids , High pressure (Physics) , Shear (Mechanics) , Hydrostatic pressure , Stress-strain curves
Experimental Investigation of a Fluidic Volume Flowmeter
M. P. Wilson, Jr., C. H. Coogan, Jr., K. Southall
J. Basic Eng. March 1970, 92(1): 139–142. doi: https://doi.org/10.1115/1.3424922
View articletitled, Experimental Investigation of a Fluidic Volume Flowmeter
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Topics: Flowmeters , Oscillations , Water , Density , Feedback , Flow (Dynamics) , Fluids , Viscosity
Controlling the Tonal Characteristics of the Aerodynamic Noise Generated by Fan Rotors
R. C. Mellin, G. Sovran
J. Basic Eng. March 1970, 92(1): 143–154. doi: https://doi.org/10.1115/1.3424923
View articletitled, Controlling the Tonal Characteristics of the Aerodynamic Noise Generated by Fan Rotors
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Topics: Aerodynamic noise , Rotors , Blades , Fans , Noise (Sound) , Shapes , Sound pressure , Waves , Axial flow , Spectra (Spectroscopy)
Experimental Investigation of Discrete Frequency Noise Generated by Unsteady Blade Forces
N. J. Lipstein, R. Mani
J. Basic Eng. March 1970, 92(1): 155–164. doi: https://doi.org/10.1115/1.3424924
View articletitled, Experimental Investigation of Discrete Frequency Noise Generated by Unsteady Blade Forces
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Topics: Blades , Noise (Sound) , Acoustics , Axial flow , Compressors , Rods , Rotors
Effective Drag Coefficient for Gas-Particle Flow in Shock Tubes
George Rudinger
J. Basic Eng. March 1970, 92(1): 165–172. doi: https://doi.org/10.1115/1.3424925
View articletitled, Effective Drag Coefficient for Gas-Particle Flow in Shock Tubes
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Topics: Drag (Fluid dynamics) , Flow (Dynamics) , Particulate matter , Shock tubes , Reynolds number , Shock waves , Equations of motion , Glass , Light scattering , Particle size
Void Fraction and Pressure Drop in a Water Electrolysis Cell
J. F. Thorpe, J. E. Funk, T. Y. Bong
J. Basic Eng. March 1970, 92(1): 173–182. doi: https://doi.org/10.1115/1.3424926
View articletitled, Void Fraction and Pressure Drop in a Water Electrolysis Cell
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Topics: Electrolysis , Porosity , Pressure drop , Water , Atmospheric pressure , Boiling , Forced convection , Heat transfer
Generation of Crack Propagation Data on Notched Rotating Beam Specimens by Means of an Interrupted Stressing Technique
R. Eisenstadt, Ware D. Fuller
J. Basic Eng. March 1970, 92(1): 183–190. doi: https://doi.org/10.1115/1.3424927
View articletitled, Generation of Crack Propagation Data on Notched Rotating Beam Specimens by Means of an Interrupted Stressing Technique
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Topics: Crack propagation , Rotating beams , Stress , Composite materials , Cycles , Dimensions , Fracture (Materials) , Plane strain , Powder metallurgy

Discussions

Discussion: “Theory of Distributed Systems” (Oldenburger, Rufus, 1970, ASME J. Basic Eng., 92, pp. 1–9)
Hitoshi Kinno
J. Basic Eng. March 1970, 92(1): 9–10. doi: https://doi.org/10.1115/1.3424958
View articletitled, Discussion: “Theory of Distributed Systems” (Oldenburger, Rufus, 1970, ASME J. Basic Eng., 92, pp. 1–9)
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Closure to “Discussion of ‘Theory of Distributed Systems’” (1970, ASME J. Basic Eng., 92, pp. 9–10)
Rufus Oldenburger
J. Basic Eng. March 1970, 92(1): 10. doi: https://doi.org/10.1115/1.3424915
View articletitled, Closure to “Discussion of ‘Theory of Distributed Systems’” (1970, ASME J. Basic Eng., 92, pp. 9–10)
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Discussion: “An Experimental Investigation of Several Low-Area-Ratio Water Jet Pumps” (Sanger, N. L., 1970, ASME J. Basic Eng., 92, pp. 11–19)
R. G. Cunningham
J. Basic Eng. March 1970, 92(1): 20. doi: https://doi.org/10.1115/1.3424936
View articletitled, Discussion: “An Experimental Investigation of Several Low-Area-Ratio Water Jet Pumps” (Sanger, N. L., 1970, ASME J. Basic Eng., 92, pp. 11–19)
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Topics: Jet pumps , Water
Closure to “Discussion of ‘An Experimental Investigation of Several Low-Area-Ratio Water Jet Pumps’” (1970, ASME J. Basic Eng., 92, p. 20)
N. L. Sanger
J. Basic Eng. March 1970, 92(1): 20. doi: https://doi.org/10.1115/1.3424937
View articletitled, Closure to “Discussion of ‘An Experimental Investigation of Several Low-Area-Ratio Water Jet Pumps’” (1970, ASME J. Basic Eng., 92, p. 20)
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Topics: Water
Discussion: “Resistance of an Inclined Plate Placed on a Plane Boundary in Two-Dimensional Flow” (Ranga Raju, K. G., and Garde, R. J., 1970, ASME J. Basic Eng., 92, pp. 21–28)
S. Bhaduri
J. Basic Eng. March 1970, 92(1): 28–29. doi: https://doi.org/10.1115/1.3424939
View articletitled, Discussion: “Resistance of an Inclined Plate Placed on a Plane Boundary in Two-Dimensional Flow” (Ranga Raju, K. G., and Garde, R. J., 1970, ASME J. Basic Eng., 92, pp. 21–28)
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Topics: Flow (Dynamics)
Discussion: “Resistance of an Inclined Plate Placed on a Plane Boundary in Two-Dimensional Flow” (Ranga Raju, K. G., and Garde, R. J., 1970, ASME J. Basic Eng., 92, pp. 21–28)
V. W. Goldschmidt
J. Basic Eng. March 1970, 92(1): 29. doi: https://doi.org/10.1115/1.3424940
View articletitled, Discussion: “Resistance of an Inclined Plate Placed on a Plane Boundary in Two-Dimensional Flow” (Ranga Raju, K. G., and Garde, R. J., 1970, ASME J. Basic Eng., 92, pp. 21–28)
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Topics: Flow (Dynamics)
Closure to “Discussions of ‘Resistance of an Inclined Plate Placed on a Plane Boundary in Two-Dimensional Flow’” (1970, ASME J. Basic Eng., 92, pp. 28–29)
K. G. Ranga Raju, R. J. Garde
J. Basic Eng. March 1970, 92(1): 29–31. doi: https://doi.org/10.1115/1.3424941
View articletitled, Closure to “Discussions of ‘Resistance of an Inclined Plate Placed on a Plane Boundary in Two-Dimensional Flow’” (1970, ASME J. Basic Eng., 92, pp. 28–29)
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Discussion: “Two-Phase Eccentric Interface Laminar Pipeline Flow” (Bentwich, M., Kelly, D. A. I., and Epstein, N., 1970, ASME J. Basic Eng., 92, pp. 32–36)
Jan Kruyer
J. Basic Eng. March 1970, 92(1): 36. doi: https://doi.org/10.1115/1.3424943
View articletitled, Discussion: “Two-Phase Eccentric Interface Laminar Pipeline Flow” (Bentwich, M., Kelly, D. A. I., and Epstein, N., 1970, ASME J. Basic Eng., 92, pp. 32–36)
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Topics: Flow (Dynamics) , Pipelines
Discussion: “Discrete Frequency Noise Generation From an Axial Flow Fan Blade Row” (Mani, Ramani, 1970, ASME J. Basic Eng., 92, pp. 37–43)
T. G. Sofrin
J. Basic Eng. March 1970, 92(1): 43. doi: https://doi.org/10.1115/1.3424945
View articletitled, Discussion: “Discrete Frequency Noise Generation From an Axial Flow Fan Blade Row” (Mani, Ramani, 1970, ASME J. Basic Eng., 92, pp. 37–43)
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Topics: Axial flow , Blades , Noise (Sound)
Closure to “Discussion of ‘Discrete Frequency Noise Generation From an Axial Flow Fan Blade Row’” (1970, ASME J. Basic Eng., 92, p. 43)
Ramani Mani
J. Basic Eng. March 1970, 92(1): 43. doi: https://doi.org/10.1115/1.3424946
View articletitled, Closure to “Discussion of ‘Discrete Frequency Noise Generation From an Axial Flow Fan Blade Row’” (1970, ASME J. Basic Eng., 92, p. 43)
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Topics: Axial flow , Blades , Noise (Sound)
Discussion: “Thermodynamic Effects on Desinent Cavitation on Hemispherical Nosed Bodies in Water at Temperatures From 80 Deg F to 260 Deg F” (Holl, J. W., and Kornhauser, A. L., 1970, ASME J. Basic Eng., 92, pp. 44–57)
C. J. Garrison
J. Basic Eng. March 1970, 92(1): 57–58. doi: https://doi.org/10.1115/1.3424948
View articletitled, Discussion: “Thermodynamic Effects on Desinent Cavitation on Hemispherical Nosed Bodies in Water at Temperatures From 80 Deg F to 260 Deg F” (Holl, J. W., and Kornhauser, A. L., 1970, ASME J. Basic Eng., 92, pp. 44–57)
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Topics: Cavitation , Temperature , Water
Closure to “Discussion of ‘Thermodynamic Effects on Desinent Cavitation on Hemispherical Nosed Bodies in Water at Temperatures From 80 Deg F to 260 Deg F’” (1970, ASME J. Basic Eng., 92, pp. 57–58)
J. W. Holl, A. L. Kornhauser
J. Basic Eng. March 1970, 92(1): 58. doi: https://doi.org/10.1115/1.3424949
View articletitled, Closure to “Discussion of ‘Thermodynamic Effects on Desinent Cavitation on Hemispherical Nosed Bodies in Water at Temperatures From 80 Deg F to 260 Deg F’” (1970, ASME J. Basic Eng., 92, pp. 57–58)
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Topics: Cavitation , Temperature , Water
Discussion: “Annular Two-Phase Flow—Parts 1 and 2” (Wallis, G. B., 1970, ASME J. Basic Eng., 92, pp. 59–81)
J. W. Palen
J. Basic Eng. March 1970, 92(1): 81. doi: https://doi.org/10.1115/1.3424952
View articletitled, Discussion: “Annular Two-Phase Flow—Parts 1 and 2” (Wallis, G. B., 1970, ASME J. Basic Eng., 92, pp. 59–81)
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Topics: Two-phase flow
Closure to “Discussion of ‘Annular Two-Phase Flow—Parts 1 and 2’” (1970, ASME J. Basic Eng., 92, p. 81)
G. B. Wallis
J. Basic Eng. March 1970, 92(1): 82. doi: https://doi.org/10.1115/1.3424953
View articletitled, Closure to “Discussion of ‘Annular Two-Phase Flow—Parts 1 and 2’” (1970, ASME J. Basic Eng., 92, p. 81)
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Topics: Two-phase flow
Discussion: “Simultaneous Lateral Skewing in a Three-Dimensional Turbulent Boundary-Layer Flow” (Klinksiek, W. F., and Pierce, F. J., 1970, ASME J. Basic Eng., 92, pp. 83–90)
J. R. Shanebrook, D. E. Hatch
J. Basic Eng. March 1970, 92(1): 90–91. doi: https://doi.org/10.1115/1.3424955
View articletitled, Discussion: “Simultaneous Lateral Skewing in a Three-Dimensional Turbulent Boundary-Layer Flow” (Klinksiek, W. F., and Pierce, F. J., 1970, ASME J. Basic Eng., 92, pp. 83–90)
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Topics: Boundary layers , Flow (Dynamics) , Turbulence
Closure to “Discussion of ‘Simultaneous Lateral Skewing in a Three-Dimensional Turbulent Boundary-Layer Flow’” (1970, ASME J. Basic Eng., 92, pp. 90–91)
W. F. Klinksiek, F. J. Pierce
J. Basic Eng. March 1970, 92(1): 91–92. doi: https://doi.org/10.1115/1.3424956
View articletitled, Closure to “Discussion of ‘Simultaneous Lateral Skewing in a Three-Dimensional Turbulent Boundary-Layer Flow’” (1970, ASME J. Basic Eng., 92, pp. 90–91)
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Topics: Boundary layers , Turbulence
Discussion: “Linearized Theory of Three-Dimensional Jet Mixing With and Without Walls” (Pai, S. I., and Hsieh, T. Y., 1970, ASME J. Basic Eng., 92, pp. 93–99)
I. Greber
J. Basic Eng. March 1970, 92(1): 100. doi: https://doi.org/10.1115/1.3424911
View articletitled, Discussion: “Linearized Theory of Three-Dimensional Jet Mixing With and Without Walls” (Pai, S. I., and Hsieh, T. Y., 1970, ASME J. Basic Eng., 92, pp. 93–99)
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Closure to “Discussion of ‘Linearized Theory of Three-Dimensional Jet Mixing With and Without Walls’” (1970, ASME J. Basic Eng., 92, p. 100)
S. I. Pai, T. Y. Hsieh
J. Basic Eng. March 1970, 92(1): 100. doi: https://doi.org/10.1115/1.3424912
View articletitled, Closure to “Discussion of ‘Linearized Theory of Three-Dimensional Jet Mixing With and Without Walls’” (1970, ASME J. Basic Eng., 92, p. 100)
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Discussion: “Generation of Crack Propagation Data on Notched Rotating Beam Specimens by Means of an Interrupted Stressing Technique” (Eisenstadt, R., and Fuller, Ware D., 1970, ASME J. Basic Eng., 92, pp. 183–190)
T. W. Crooker
J. Basic Eng. March 1970, 92(1): 191. doi: https://doi.org/10.1115/1.3424928
View articletitled, Discussion: “Generation of Crack Propagation Data on Notched Rotating Beam Specimens by Means of an Interrupted Stressing Technique” (Eisenstadt, R., and Fuller, Ware D., 1970, ASME J. Basic Eng., 92, pp. 183–190)
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Topics: Crack propagation , Rotating beams
Discussion: “Generation of Crack Propagation Data on Notched Rotating Beam Specimens by Means of an Interrupted Stressing Technique” (Eisenstadt, R., and Fuller, Ware D., 1970, ASME J. Basic Eng., 92, pp. 183–190)
J. M. Hodge
J. Basic Eng. March 1970, 92(1): 191. doi: https://doi.org/10.1115/1.3424929
View articletitled, Discussion: “Generation of Crack Propagation Data on Notched Rotating Beam Specimens by Means of an Interrupted Stressing Technique” (Eisenstadt, R., and Fuller, Ware D., 1970, ASME J. Basic Eng., 92, pp. 183–190)
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Topics: Crack propagation , Rotating beams
Closure to “Discussions of ‘Generation of Crack Propagation Data on Notched Rotating Beam Specimens by Means of an Interrupted Stressing Technique’” (1970, ASME J. Basic Eng., 92, p. 191)
R. Eisenstadt, Ware D. Fuller
J. Basic Eng. March 1970, 92(1): 192. doi: https://doi.org/10.1115/1.3424930
View articletitled, Closure to “Discussions of ‘Generation of Crack Propagation Data on Notched Rotating Beam Specimens by Means of an Interrupted Stressing Technique’” (1970, ASME J. Basic Eng., 92, p. 191)
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Topics: Crack propagation , Rotating beams
Discussion: “A New Integral Method for Analyzing the Turbulent Boundary Layer With Arbitrary Pressure Gradient” (White, F. M., 1969, ASME J. Basic Eng., 91, pp. 371–378)
A. S. Mujumdar
J. Basic Eng. March 1970, 92(1): 195. doi: https://doi.org/10.1115/1.3424932
View articletitled, Discussion: “A New Integral Method for Analyzing the Turbulent Boundary Layer With Arbitrary Pressure Gradient” (White, F. M., 1969, ASME J. Basic Eng., 91, pp. 371–378)
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Topics: Boundary layer turbulence , Pressure gradient
Closure to “Discussion of ‘A New Integral Method for Analyzing the Turbulent Boundary Layer With Arbitrary Pressure Gradient’” (1970, ASME J. Basic Eng., 92, p. 195)
F. M. White
J. Basic Eng. March 1970, 92(1): 195–196. doi: https://doi.org/10.1115/1.3424933
View articletitled, Closure to “Discussion of ‘A New Integral Method for Analyzing the Turbulent Boundary Layer With Arbitrary Pressure Gradient’” (1970, ASME J. Basic Eng., 92, p. 195)
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Topics: Boundary layer turbulence , Pressure
Discussion: “Sensitivity in Multivariable Control Systems” (Horton, W. F., and Leondes, C. T., 1969, ASME J. Basic Eng., 91, p. 246)
G. Gru¨bel, J. Ackermann
J. Basic Eng. March 1970, 92(1): 196. doi: https://doi.org/10.1115/1.3424934
View articletitled, Discussion: “Sensitivity in Multivariable Control Systems” (Horton, W. F., and Leondes, C. T., 1969, ASME J. Basic Eng., 91, p. 246)
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Topics: Control systems

Technical Briefs

Losses in a Compact 180-Deg Return Flow Passage as a Function of Reynolds Number
S. Wolf, D. M. Gluntz
J. Basic Eng. March 1970, 92(1): 193–194. doi: https://doi.org/10.1115/1.3424931
View articletitled, Losses in a Compact 180-Deg Return Flow Passage as a Function of Reynolds Number
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Topics: Flow (Dynamics) , Reynolds number
All Issues
Enhancement of the Thermodynamic Suppression Effect of Cavitation in a Hydrofoil with a Slit
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Digitalization of Test-Rigs for Model Acceptance Testing of Hydraulic Machines: Gaussian-Process based Digital-Twin of a Turbine on a Hydraulic Test-Rig for Efficiency-Analysis and Test-Automation
J. Fluids Eng
Unsteady Flow and Pressure Pulsation Characteristics in an Ultra-High-Speed Centrifugal Pump Considering the Weak Compressibility Effect
J. Fluids Eng
Development and Validation of Machine-Learned Actuator Line Model for Hydrokinetic Turbine Rotor
J. Fluids Eng (August 2025)
Investigation of the Surface Pressure and Thrust Generated by a Tilt Distributed Electric Propulsion Wing
J. Fluids Eng (August 2025)
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