Volume 87 Issue 4 | J. Fluids Eng. | ASME Digital Collection

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Volume 87, Issue 4

December 1965

This article was originally published in

Journal of Basic Engineering

ISSN 0021-9223

Research Papers

Plane-Contact Problem of Thermoelasticity During Quasi-Stationary Heat Generation on the Contact Surfaces

M. V. Korovchinski

J. Basic Eng. December 1965, 87(4): 811–817. doi: https://doi.org/10.1115/1.3650823

Abstract

View articletitled, Plane-Contact Problem of Thermoelasticity During Quasi-Stationary Heat Generation on the Contact Surfaces

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Topics: Heat , Thermoelasticity , Temperature , Pressure , Cylinders , Friction , Strips

Hydromagnetic Squeeze Films Between Two Conducting Surfaces

J. B. Shukla, R. Prasad

J. Basic Eng. December 1965, 87(4): 818–822. doi: https://doi.org/10.1115/1.3650824

Abstract

View articletitled, Hydromagnetic Squeeze Films Between Two Conducting Surfaces

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Topics: Magnetohydrodynamics , Magnetic fields , Pressure , Stress

Thermal Wedge Lubrication of Parallel Surface Thrust Bearings

I. G. Currie, C. A. Brockley, F. A. Dvorak

J. Basic Eng. December 1965, 87(4): 823–830. doi: https://doi.org/10.1115/1.3650825

Abstract

View articletitled, Thermal Wedge Lubrication of Parallel Surface Thrust Bearings

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Topics: Lubrication , Thrust bearings , Wedges , Bearings , Lubricants , Temperature , Computers , Density , Dimensions , Flow (Dynamics)

The Theory of the Infinitely Wide, Perfectly Flexible, Self-Acting Foil Bearing

A. Eshel, H. G. Elrod, Jr.

J. Basic Eng. December 1965, 87(4): 831–836. doi: https://doi.org/10.1115/1.3650826

Abstract

View articletitled, The Theory of the Infinitely Wide, Perfectly Flexible, Self-Acting Foil Bearing

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Topics: Differential equations , Film thickness , Foil bearings

An Investigation of Self-Acting Foil Bearings

J. T. S. Ma

J. Basic Eng. December 1965, 87(4): 837–846. doi: https://doi.org/10.1115/1.3650827

Abstract

View articletitled, An Investigation of Self-Acting Foil Bearings

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Topics: Foil bearings , Film thickness , Sensors

Torque Produced by Misalignment in Short Lubricated Bearings

L. Galletti-Manacorda, G. Capriz

J. Basic Eng. December 1965, 87(4): 847–849. doi: https://doi.org/10.1115/1.3650828

Abstract

View articletitled, Torque Produced by Misalignment in Short Lubricated Bearings

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Topics: Bearings , Torque , Damping , Lubricants , Oscillations , Rotors , Steady state , Stress , Vibration , Whirls

Plastic Strain Fatigue in Air and Vacuum

D. E. Martin

J. Basic Eng. December 1965, 87(4): 850–856. doi: https://doi.org/10.1115/1.3650829

Abstract

View articletitled, Plastic Strain Fatigue in Air and Vacuum

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Topics: Fatigue , Vacuum , Cycles

Push-Pull Fatigue Strength of Mild Steel at Very High Frequencies of Stress Up to 100 kc/s

M. Kikukawa, K. Ohji, K. Ogura

J. Basic Eng. December 1965, 87(4): 857–864. doi: https://doi.org/10.1115/1.3650830

Abstract

View articletitled, Push-Pull Fatigue Strength of Mild Steel at Very High Frequencies of Stress Up to 100 kc/s

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Topics: Fatigue strength , Steel , Stress , Fatigue limit , Machinery , Fatigue testing , Carbon steel , Ferrites (Magnetic materials) , Resonance

Uranium-Molybdenum Alloy for Use in a Prompt-Burst Reactor

F. Rienecker, W. H. Moran

J. Basic Eng. December 1965, 87(4): 865–870. doi: https://doi.org/10.1115/1.3650831

Abstract

View articletitled, Uranium-Molybdenum Alloy for Use in a Prompt-Burst Reactor

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Topics: Alloys , Molybdenum , Uranium , Stress , Temperature , Brittle fracture , Carbon , Elongation , Gages , Inertia (Mechanics)

A Behavioral Model for the Fracture of Surface Hardened Components

L. J. Ebert, F. T. Krotine, A. R. Troiano

J. Basic Eng. December 1965, 87(4): 871–874. doi: https://doi.org/10.1115/1.3650832

Abstract

View articletitled, A Behavioral Model for the Fracture of Surface Hardened Components

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Topics: Fracture (Materials) , Fracture (Process) , Stress

Stress-Rupture of Metals Under Increasing Stress

G. H. Rowe, H. R. Meck

J. Basic Eng. December 1965, 87(4): 875–878. doi: https://doi.org/10.1115/1.3650833

Abstract

View articletitled, Stress-Rupture of Metals Under Increasing Stress

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Topics: Metals , Rupture , Stress , Alloys , High temperature , Stainless steel , Zirconium

The Interaction Effect of Neighboring Holes or Cavities, With Particular Reference to Pressure Vessels and Rocket Cases

R. E. Peterson

J. Basic Eng. December 1965, 87(4): 879–884. doi: https://doi.org/10.1115/1.3650834

Abstract

View articletitled, The Interaction Effect of Neighboring Holes or Cavities, With Particular Reference to Pressure Vessels and Rocket Cases

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Topics: Cavities , Pressure vessels , Rockets , Failure , Forgings (Products) , Nondestructive evaluation , Porosity , Stress , Welded joints , X-rays

An Engineering Basis for Establishing Radiographic Acceptance Standards for Porosity in Steel Weldments

H. Greenberg

J. Basic Eng. December 1965, 87(4): 887–893. doi: https://doi.org/10.1115/1.3650838

Abstract

View articletitled, An Engineering Basis for Establishing Radiographic Acceptance Standards for Porosity in Steel Weldments

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Topics: Acceptance criteria , Porosity , Steel , Failure , Welded joints , Design , Engines , Fracture mechanics , Motors , Nondestructive evaluation

An Elastic-Plastic Curved Bar Analysis

I. S. Tuba

J. Basic Eng. December 1965, 87(4): 894–898. doi: https://doi.org/10.1115/1.3650839

Abstract

View articletitled, An Elastic-Plastic Curved Bar Analysis

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Topics: Shear stress , Stress

An Approximate Analysis of Deflections of Beams in Creep Bending

H. R. Meck

J. Basic Eng. December 1965, 87(4): 899–903. doi: https://doi.org/10.1115/1.3650840

Abstract

View articletitled, An Approximate Analysis of Deflections of Beams in Creep Bending

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Topics: Creep , Deflection

Plane-Strain Fracture Toughness of High-Strength Aluminum Alloys

C. M. Carman, D. F. Armiento, H. Markus

J. Basic Eng. December 1965, 87(4): 904–916. doi: https://doi.org/10.1115/1.3650841

Abstract

View articletitled, Plane-Strain Fracture Toughness of High-Strength Aluminum Alloys

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Topics: Aluminum alloys , Fracture toughness , Plane strain , Alloys , Fracture (Materials) , Iron , Silicon , Yield strength , Design , Electrons

System Oscillations Associated With Cavitating Inducers

L. E. Sack, H. B. Nottage

J. Basic Eng. December 1965, 87(4): 917–924. doi: https://doi.org/10.1115/1.3650844

Abstract

View articletitled, System Oscillations Associated With Cavitating Inducers

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Topics: Oscillations , Cavitation , Circuits , Computer simulation , Design , Dynamic response , Flow (Dynamics) , Fluids , Pressure , Simulation

Resonance in Bersimis No. 2 Piping System

E. B. Wylie, V. L. Streeter

J. Basic Eng. December 1965, 87(4): 925–931. doi: https://doi.org/10.1115/1.3650845

Abstract

View articletitled, Resonance in Bersimis No. 2 Piping System

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Topics: Piping systems , Resonance , Computers , Hydropower , Pressure

Tip-Clearance Effects in Centrifugal Pumps

G. M. Wood, H. Welna, R. P. Lamers

J. Basic Eng. December 1965, 87(4): 932–939. doi: https://doi.org/10.1115/1.3650846

Abstract

View articletitled, Tip-Clearance Effects in Centrifugal Pumps

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Topics: Centrifugal pumps , Clearances (Engineering) , Impellers , Design , Cavitation , Water

The Flow and Interference Effects of a Body of Revolution and Its Stabilizing Surfaces When at a Small Angle of Attack

E. J. Rodgers

J. Basic Eng. December 1965, 87(4): 941–952. doi: https://doi.org/10.1115/1.3650849

Abstract

View articletitled, The Flow and Interference Effects of a Body of Revolution and Its Stabilizing Surfaces When at a Small Angle of Attack

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Topics: Flow (Dynamics) , Pressure , Vorticity , Weapons , Wind tunnels

Pressure Peaks in the Hydraulic Actuator

D. McCloy

J. Basic Eng. December 1965, 87(4): 953–959. doi: https://doi.org/10.1115/1.3650850

Abstract

View articletitled, Pressure Peaks in the Hydraulic Actuator

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Topics: Actuators , Pressure , Valves , Cavitation , Cavities , Compressibility , Damage , Fatigue failure , Hydraulic actuators

Resonance in Pressurized Piping Systems

E. B. Wylie

J. Basic Eng. December 1965, 87(4): 960–966. doi: https://doi.org/10.1115/1.3650851

Abstract

View articletitled, Resonance in Pressurized Piping Systems

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Topics: Piping systems , Resonance , Complex systems , Frequency response , Geometry , Hydraulic drive systems

An Experimental Study of Accelerated Cavitation Induced by Ultrasonics

F. Numachi

J. Basic Eng. December 1965, 87(4): 967–976. doi: https://doi.org/10.1115/1.3650852

Abstract

View articletitled, An Experimental Study of Accelerated Cavitation Induced by Ultrasonics

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Topics: Cavitation , Ultrasonics , Erosion , Bubbles , Photography , Ultrasonic waves , Waves

Cavitation Bubble Collapse in Viscous, Compressible Liquids—Numerical Analysis

R. D. Ivany, F. G. Hammitt

J. Basic Eng. December 1965, 87(4): 977–985. doi: https://doi.org/10.1115/1.3650853

Abstract

View articletitled, Cavitation Bubble Collapse in Viscous, Compressible Liquids—Numerical Analysis

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Topics: Bubbles , Cavitation , Collapse , Numerical analysis , Viscosity , Surface tension , Compression , Density , Navier-Stokes equations , Shear (Mechanics)

Externally Pressurized Foil Gas Bearings

E. J. Barlow

J. Basic Eng. December 1965, 87(4): 986–990. doi: https://doi.org/10.1115/1.3650854

Abstract

View articletitled, Externally Pressurized Foil Gas Bearings

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Topics: Foil bearings , Gas bearings , Lubricants , Pressure , Shapes

Some Analytical Aspects of Bubble Dynamics

Din-Yu Hsieh

J. Basic Eng. December 1965, 87(4): 991–1005. doi: https://doi.org/10.1115/1.3650855

Abstract

View articletitled, Some Analytical Aspects of Bubble Dynamics

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Topics: Bubbles , Dynamics (Mechanics) , Oscillations , Collapse , Flow (Dynamics) , Stability

General Formulation of a Perturbation Theory for Unsteady Cavity Flows

D. P. Wang, T. Yao-Tsu Wu

J. Basic Eng. December 1965, 87(4): 1006–1010. doi: https://doi.org/10.1115/1.3650791

Abstract

View articletitled, General Formulation of a Perturbation Theory for Unsteady Cavity Flows

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Topics: Cavity flows , Perturbation theory , Gravity (Force) , Surface waves (Fluid) , Cavities , Flow (Dynamics) , Fluids , Vortex flow , Water , Waves

Resonance in Liquid Rocket Engine Systems

R. H. Fashbaugh, V. L. Streeter

J. Basic Eng. December 1965, 87(4): 1011–1017. doi: https://doi.org/10.1115/1.3650792

Abstract

View articletitled, Resonance in Liquid Rocket Engine Systems

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Topics: Resonance , Rocket engines , Pumps , Unsteady flow , Cavitation , Computation , Friction , Momentum , Partial differential equations , Pressure

Slip Flow in Rectangular and Annular Ducts

W. A. Ebert, E. M. Sparrow

J. Basic Eng. December 1965, 87(4): 1018–1024. doi: https://doi.org/10.1115/1.3650793

Abstract

View articletitled, Slip Flow in Rectangular and Annular Ducts

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Topics: Ducts , Slip flow , Pressure drop , Compressibility , Density , Flow (Dynamics) , Friction , Knudsen number , Momentum , Pressure gradient

Performance of a Small-Sized, Critical Flowmeter Assembly

D. E. Dye

J. Basic Eng. December 1965, 87(4): 1025–1027. doi: https://doi.org/10.1115/1.3650794

Abstract

View articletitled, Performance of a Small-Sized, Critical Flowmeter Assembly

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Topics: Flowmeters , Manufacturing , Flow (Dynamics) , Nozzles , Discharge coefficient , Calibration , Errors , Manifolds , Pressure , Temperature

ASME Research on High Pressure-High Temperature Steam and Water Flow Measurement: Report of Subcommittee 7 of the ASME Fluid Meters Research Committee

J. W. Murdock

J. Basic Eng. December 1965, 87(4): 1029–1040. doi: https://doi.org/10.1115/1.3650798

Abstract

View articletitled, ASME Research on High Pressure-High Temperature Steam and Water Flow Measurement: Report of Subcommittee 7 of the ASME Fluid Meters Research Committee

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Topics: Flow measurement , Flowmeters , Pressure , Steam , Temperature , Water , Nozzles , Orifices , Flow (Dynamics) , Inspection

Density Effect and Reynolds Number Effect on Gas Turbine Flowmeters

W. F. Z. Lee, H. J. Evans

J. Basic Eng. December 1965, 87(4): 1043–1051. doi: https://doi.org/10.1115/1.3650802

Abstract

View articletitled, Density Effect and Reynolds Number Effect on Gas Turbine Flowmeters

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Topics: Density , Flowmeters , Gas turbines , Reynolds number , Calibration , Gases , Pressure , Temperature

Determination of ASME Nozzle Flow Coefficients by Thrust Measurement

Robert M. Reimer

J. Basic Eng. December 1965, 87(4): 1058–1062. doi: https://doi.org/10.1115/1.3650807

Abstract

View articletitled, Determination of ASME Nozzle Flow Coefficients by Thrust Measurement

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Topics: Flow (Dynamics) , Nozzles , Thrust , Reynolds number , Aircraft , Boundary layers , High pressure (Physics) , Incompressible fluids , Pressure measurement , Test facilities

Generation of Precise Reference Pressures Up to 15,750 Psi

J. O. Ess

J. Basic Eng. December 1965, 87(4): 1063–1071. doi: https://doi.org/10.1115/1.3650808

Abstract

View articletitled, Generation of Precise Reference Pressures Up to 15,750 Psi

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Topics: Clearances (Engineering) , Computers , Design , Gages , Performance characterization , Pistons , Pressure , Wear

Elastic Shell-Theory Formulation for Bourdon Tubes

Robert Dressler

J. Basic Eng. December 1965, 87(4): 1072–1077. doi: https://doi.org/10.1115/1.3650809

Abstract

View articletitled, Elastic Shell-Theory Formulation for Bourdon Tubes

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Topics: Shells , Partial differential equations , Approximation , Boundary-value problems , Deflection , Displacement , Equilibrium (Physics) , Fluid pressure , Geometry , Membranes

Discussions

Discussion: “The Interaction Effect of Neighboring Holes or Cavities, With Particular Reference to Pressure Vessels and Rocket Cases” (Peterson, R. E., 1965, ASME J. Basic Eng., 87, pp. 879–884)

I. S. Tuba

J. Basic Eng. December 1965, 87(4): 884–885. doi: https://doi.org/10.1115/1.3650835

View articletitled, Discussion: “The Interaction Effect of Neighboring Holes or Cavities, With Particular Reference to Pressure Vessels and Rocket Cases” (Peterson, R. E., 1965, ASME J. Basic Eng., 87, pp. 879–884)

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Topics: Cavities , Pressure vessels , Rockets

Discussion: “The Interaction Effect of Neighboring Holes or Cavities, With Particular Reference to Pressure Vessels and Rocket Cases” (Peterson, R. E., 1965, ASME J. Basic Eng., 87, pp. 879–884)

Volker Weiss, Akio Takimoto

J. Basic Eng. December 1965, 87(4): 885–886. doi: https://doi.org/10.1115/1.3650836

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Topics: Cavities , Pressure vessels , Rockets

Closure to “Discussions of ‘The Interaction Effect of Neighboring Holes or Cavities, With Particular Reference to Pressure Vessels and Rocket Cases’” (1965, ASME J. Basic Eng., 87, pp. 884–886)

R. E. Peterson

J. Basic Eng. December 1965, 87(4): 886. doi: https://doi.org/10.1115/1.3650837

View articletitled, Closure to “Discussions of ‘The Interaction Effect of Neighboring Holes or Cavities, With Particular Reference to Pressure Vessels and Rocket Cases’” (1965, ASME J. Basic Eng., 87, pp. 884–886)

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Topics: Cavities , Pressure vessels , Rockets

Discussion: “Plane-Strain Fracture Toughness of High-Strength Aluminum Alloys” (Carman, C. M., Armiento, D. F., and Markus, H., 1965, ASME J. Basic Eng., 87, pp. 904–916)

J. M. Krafft

J. Basic Eng. December 1965, 87(4): 916. doi: https://doi.org/10.1115/1.3650842

View articletitled, Discussion: “Plane-Strain Fracture Toughness of High-Strength Aluminum Alloys” (Carman, C. M., Armiento, D. F., and Markus, H., 1965, ASME J. Basic Eng., 87, pp. 904–916)

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Topics: Aluminum alloys , Fracture toughness , Plane strain

Closure to “Discussion of ‘Plane-Strain Fracture Toughness of High-Strength Aluminum Alloys’” (1965, ASME J. Basic Eng., 87, p. 916)

C. M. Carman, D. F. Armiento, H. Markus

J. Basic Eng. December 1965, 87(4): 916. doi: https://doi.org/10.1115/1.3650843

View articletitled, Closure to “Discussion of ‘Plane-Strain Fracture Toughness of High-Strength Aluminum Alloys’” (1965, ASME J. Basic Eng., 87, p. 916)

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Topics: Aluminum , Fracture toughness , Plane strain

Discussion: “Tip-Clearance Effects in Centrifugal Pumps” (Wood, G. M., Welna, H., and Lamers, R. P., 1965, ASME J. Basic Eng., 87, pp. 932–939)

F. G. Hammitt

J. Basic Eng. December 1965, 87(4): 939. doi: https://doi.org/10.1115/1.3650847

View articletitled, Discussion: “Tip-Clearance Effects in Centrifugal Pumps” (Wood, G. M., Welna, H., and Lamers, R. P., 1965, ASME J. Basic Eng., 87, pp. 932–939)

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Topics: Centrifugal pumps , Clearances (Engineering) , Wood products

Closure to “Discussion of ‘Tip-Clearance Effects in Centrifugal Pumps’” (1965, ASME J. Basic Eng., 87, p. 939)

G. M. Wood, H. Welna, R. P. Lamers

J. Basic Eng. December 1965, 87(4): 939–940. doi: https://doi.org/10.1115/1.3650848

View articletitled, Closure to “Discussion of ‘Tip-Clearance Effects in Centrifugal Pumps’” (1965, ASME J. Basic Eng., 87, p. 939)

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Topics: Clearances (Engineering)

Discussion: “Performance of a Small-Sized, Critical Flowmeter Assembly” (Dye, D. E., 1965, ASME J. Basic Eng., 87, pp. 1025–1027)

R. M. Johnson

J. Basic Eng. December 1965, 87(4): 1027. doi: https://doi.org/10.1115/1.3650795

View articletitled, Discussion: “Performance of a Small-Sized, Critical Flowmeter Assembly” (Dye, D. E., 1965, ASME J. Basic Eng., 87, pp. 1025–1027)

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Topics: Flowmeters , Manufacturing

Discussion: “Performance of a Small-Sized, Critical Flowmeter Assembly” (Dye, D. E., 1965, ASME J. Basic Eng., 87, pp. 1025–1027)

R. M. Reimer

J. Basic Eng. December 1965, 87(4): 1027–1028. doi: https://doi.org/10.1115/1.3650796

View articletitled, Discussion: “Performance of a Small-Sized, Critical Flowmeter Assembly” (Dye, D. E., 1965, ASME J. Basic Eng., 87, pp. 1025–1027)

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Topics: Flowmeters , Manufacturing

Closure to “Discussions of ‘Performance of a Small-Sized, Critical Flowmeter Assembly’” (1965, ASME J. Basic Eng., 87, pp. 1027–1028)

D. E. Dye

J. Basic Eng. December 1965, 87(4): 1028. doi: https://doi.org/10.1115/1.3650797

View articletitled, Closure to “Discussions of ‘Performance of a Small-Sized, Critical Flowmeter Assembly’” (1965, ASME J. Basic Eng., 87, pp. 1027–1028)

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Topics: Flowmeters

Discussion: “ASME Research on High Pressure-High Temperature Steam and Water Flow Measurement: Report of Subcommittee 7 of the ASME Fluid Meters Research Committee” (Murdock, J. W., 1965, ASME J. Basic Eng., 87, pp. 1029–1040)

N. R. Deming

J. Basic Eng. December 1965, 87(4): 1041. doi: https://doi.org/10.1115/1.3650799

View articletitled, Discussion: “ASME Research on High Pressure-High Temperature Steam and Water Flow Measurement: Report of Subcommittee 7 of the ASME Fluid Meters Research Committee” (Murdock, J. W., 1965, ASME J. Basic Eng., 87, pp. 1029–1040)

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Topics: Flow measurement , Flowmeters , Pressure , Steam , Temperature , Water

Discussion: “ASME Research on High Pressure-High Temperature Steam and Water Flow Measurement: Report of Subcommittee 7 of the ASME Fluid Meters Research Committee” (Murdock, J. W., 1965, ASME J. Basic Eng., 87, pp. 1029–1040)

L. A. Dodge

J. Basic Eng. December 1965, 87(4): 1041–1042. doi: https://doi.org/10.1115/1.3650800

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Topics: Flow measurement , Flowmeters , Pressure , Steam , Temperature , Water

Closure to “Discussions of ‘ASME Research on High Pressure-High Temperature Steam and Water Flow Measurement: Report of Subcommittee 7 of the ASME Fluid Meters Research Committee’” (1965, ASME J. Basic Eng., 87, pp. 1041–1042)

J. W. Murdock

J. Basic Eng. December 1965, 87(4): 1042. doi: https://doi.org/10.1115/1.3650801

View articletitled, Closure to “Discussions of ‘ASME Research on High Pressure-High Temperature Steam and Water Flow Measurement: Report of Subcommittee 7 of the ASME Fluid Meters Research Committee’” (1965, ASME J. Basic Eng., 87, pp. 1041–1042)

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Topics: Flow measurement , Flowmeters , Pressure , Steam , Temperature , Water

Discussion: “Density Effect and Reynolds Number Effect on Gas Turbine Flowmeters” (Lee, W. F. Z., and Evans, H. J., 1965, ASME J. Basic Eng., 87, pp. 1043–1051)

W. G. Fox

J. Basic Eng. December 1965, 87(4): 1051–1052. doi: https://doi.org/10.1115/1.3650803

View articletitled, Discussion: “Density Effect and Reynolds Number Effect on Gas Turbine Flowmeters” (Lee, W. F. Z., and Evans, H. J., 1965, ASME J. Basic Eng., 87, pp. 1043–1051)

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Topics: Density , Flowmeters , Gas turbines , Reynolds number

Discussion: “Density Effect and Reynolds Number Effect on Gas Turbine Flowmeters” (Lee, W. F. Z., and Evans, H. J., 1965, ASME J. Basic Eng., 87, pp. 1043–1051)

Montgomery R. Shafer

J. Basic Eng. December 1965, 87(4): 1052–1053. doi: https://doi.org/10.1115/1.3650804

View articletitled, Discussion: “Density Effect and Reynolds Number Effect on Gas Turbine Flowmeters” (Lee, W. F. Z., and Evans, H. J., 1965, ASME J. Basic Eng., 87, pp. 1043–1051)

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Topics: Density , Flowmeters , Gas turbines , Reynolds number

Discussion: “Density Effect and Reynolds Number Effect on Gas Turbine Flowmeters” (Lee, W. F. Z., and Evans, H. J., 1965, ASME J. Basic Eng., 87, pp. 1043–1051)

Leroy H. Smith, Jr.

J. Basic Eng. December 1965, 87(4): 1053. doi: https://doi.org/10.1115/1.3650805

View articletitled, Discussion: “Density Effect and Reynolds Number Effect on Gas Turbine Flowmeters” (Lee, W. F. Z., and Evans, H. J., 1965, ASME J. Basic Eng., 87, pp. 1043–1051)

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Topics: Density , Flowmeters , Gas turbines , Reynolds number

Closure to “Discussions of ‘Density Effect and Reynolds Number Effect on Gas Turbine Flowmeters’” (1965, ASME J. Basic Eng., 87, pp. 1051–1053)

W. F. Z. Lee, H. J. Evans

J. Basic Eng. December 1965, 87(4): 1053–1057. doi: https://doi.org/10.1115/1.3650806

View articletitled, Closure to “Discussions of ‘Density Effect and Reynolds Number Effect on Gas Turbine Flowmeters’” (1965, ASME J. Basic Eng., 87, pp. 1051–1053)

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Topics: Density , Gas turbines , Reynolds number

Discussion: “Investigation of a Partial Arc Pad Bearing in the Superlaminar Flow Regime” (Orcutt, F. K., 1965, ASME J. Basic Eng., 87, pp. 145–152)

R. A. Burton

J. Basic Eng. December 1965, 87(4): 1090. doi: https://doi.org/10.1115/1.3650819

View articletitled, Discussion: “Investigation of a Partial Arc Pad Bearing in the Superlaminar Flow Regime” (Orcutt, F. K., 1965, ASME J. Basic Eng., 87, pp. 145–152)

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Topics: Bearings , Flow (Dynamics)

Closure to “Discussion of ‘Investigation of a Partial Arc Pad Bearing in the Superlaminar Flow Regime’” (1965, ASME J. Basic Eng., 87, p. 1090)

F. K. Orcutt

J. Basic Eng. December 1965, 87(4): 1090–1091. doi: https://doi.org/10.1115/1.3650820

View articletitled, Closure to “Discussion of ‘Investigation of a Partial Arc Pad Bearing in the Superlaminar Flow Regime’” (1965, ASME J. Basic Eng., 87, p. 1090)

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Topics: Bearings , Flow (Dynamics)

Discussion: “Analysis and Test of the Screw Seal in Laminar and Turbulent Operations” (McGrew, J. M., and McHugh, J. D., 1965, ASME J. Basic Eng., 87, pp. 153–162)

R. A. Burton

J. Basic Eng. December 1965, 87(4): 1091. doi: https://doi.org/10.1115/1.3650821

View articletitled, Discussion: “Analysis and Test of the Screw Seal in Laminar and Turbulent Operations” (McGrew, J. M., and McHugh, J. D., 1965, ASME J. Basic Eng., 87, pp. 153–162)

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Topics: Screws , Turbulence

Closure to “Discussions of ‘Significance of the Vortex Breakdown Phenomenon’” (1965, ASME J. Basic Eng., 87, pp. 522–524)

T. B. Benjamin

J. Basic Eng. December 1965, 87(4): 1091–1092. doi: https://doi.org/10.1115/1.3650822

View articletitled, Closure to “Discussions of ‘Significance of the Vortex Breakdown Phenomenon’” (1965, ASME J. Basic Eng., 87, pp. 522–524)

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Topics: Vortices

Errata

Erratum: “Supercavitating Cascade Flow Analysis” (Journal of Basic Engineering, 1964, 86, pp. 805–814)

J. K. Jakobsen

J. Basic Eng. December 1965, 87(4): 1078. doi: https://doi.org/10.1115/1.3650810

View articletitled, Erratum: “Supercavitating Cascade Flow Analysis” (Journal of Basic Engineering, 1964, 86, pp. 805–814)

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Topics: Flow (Dynamics)

Technical Briefs

Artificially Produced Boundary Layer

J. A. Brighton

J. Basic Eng. December 1965, 87(4): 1079–1080. doi: https://doi.org/10.1115/1.3650811

View articletitled, Artificially Produced Boundary Layer

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Topics: Boundary layers

“Painting” of Polystyrene Beads for Use in Flow Visualization

H. S. Enis

J. Basic Eng. December 1965, 87(4): 1080–1081. doi: https://doi.org/10.1115/1.3650812

View articletitled, “Painting” of Polystyrene Beads for Use in Flow Visualization

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Topics: Flow visualization , Painting

A Variational Principle Applied to the Plane Slider Bearing

Clarence J. Maday

J. Basic Eng. December 1965, 87(4): 1081–1082. doi: https://doi.org/10.1115/1.3650813

Abstract

View articletitled, A Variational Principle Applied to the Plane Slider Bearing

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Topics: Slider bearings , Variational principles , Film thickness , Hydrodynamics , Stress , Viscosity

Experimental Study of Flow Through Moving Orifices

Philip F. Meyfarth, Andrew J. Shine

J. Basic Eng. December 1965, 87(4): 1082–1083. doi: https://doi.org/10.1115/1.3650814

View articletitled, Experimental Study of Flow Through Moving Orifices

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Topics: Flow (Dynamics) , Orifices

Contact Pressures and Stresses in One Theoretically Investigated Case

A. I. Petrusevich

J. Basic Eng. December 1965, 87(4): 1083–1085. doi: https://doi.org/10.1115/1.3650815

Abstract

View articletitled, Contact Pressures and Stresses in One Theoretically Investigated Case

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Topics: Composite materials , Cylinders , Pressure , Steel , Stress , Temperature , Viscosity

An Approximate Solution for the Infinitely Long, Gas Lubricated Slider Bearing

H. J. Sneck

J. Basic Eng. December 1965, 87(4): 1085–1086. doi: https://doi.org/10.1115/1.3650816

Abstract

View articletitled, An Approximate Solution for the Infinitely Long, Gas Lubricated Slider Bearing

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Topics: Slider bearings , Design , Geometry , Load bearing capacity , Pressure , Wedges

The Short Gas Lubricated Journal Bearing

H. J. Sneck

J. Basic Eng. December 1965, 87(4): 1087–1089. doi: https://doi.org/10.1115/1.3650817

View articletitled, The Short Gas Lubricated Journal Bearing

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Topics: Journal bearings

Pressure Transients in Viscous Fluid Systems

E. B. Wylie

J. Basic Eng. December 1965, 87(4): 1089. doi: https://doi.org/10.1115/1.3650818

View articletitled, Pressure Transients in Viscous Fluid Systems

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Topics: Fluids , Pressure , Transients (Dynamics)

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