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Issues

Volume 74, Issue 6
August 1952
This article was originally published in
Transactions of the American Society of Mechanical Engineers
Issue Cover
ISSN 0097-6822
In this Issue

Research Papers

How to Obtain Instrument Accuracy With Proportioning Pumps
J. N. Swarr
Trans. ASME. August 1952, 74(6): 891–895. doi: https://doi.org/10.1115/1.4015955
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Topics: Instrumentation , Pumps , Displacement , Suction , Control equipment , Design , Elevations (Drawings) , Engineers , Flow (Dynamics) , Friction
Discharge Coefficients of Herschel-Type Venturi Tubes
A. L. Jorissen
Trans. ASME. August 1952, 74(6): 905–909. doi: https://doi.org/10.1115/1.4015960
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Topics: Discharge coefficient , Venturi tubes , Calibration , Flow measurement , Reynolds number
Nozzle Characteristics in High-Vacuum Flows—Rarefied Gas Dynamics
R. G. Folsom
Trans. ASME. August 1952, 74(6): 915–918. doi: https://doi.org/10.1115/1.4015965
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Topics: Flow (Dynamics) , Gasdynamics , Nozzles , Vacuum , Gases , Reynolds number , Compressible flow , Flow measuring instruments , Fluids , Orifices
Basic Difficulties in Pulsating-Flow Metering
A. R. Deschere
Trans. ASME. August 1952, 74(6): 919–923. doi: https://doi.org/10.1115/1.4015966
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Topics: Flow (Dynamics) , Pressure , Pulsatile flow , Unsteady flow
Orifice and Flow Coefficients in Pulsating Flow
N. A. Hall
Trans. ASME. August 1952, 74(6): 925–928. doi: https://doi.org/10.1115/1.4015967
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Topics: Flow (Dynamics) , Pulsatile flow , Pressure , Fluids
Pulsations in Gas-Compressor Systems
E. G. Chilton, L. R. Handley
Trans. ASME. August 1952, 74(6): 931–941. doi: https://doi.org/10.1115/1.4015970
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Topics: Compressors , Computation , Filters , Gas compressors , Pipes , Surges
Progress Report on the Study of Supercompressibility Factors for Natural Gases
R. H. Zimmerman, S. R. Beitler
Trans. ASME. August 1952, 74(6): 945–951. doi: https://doi.org/10.1115/1.4015975
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Topics: Natural gas , Pressure
Heat Transfer and Fluid Friction During Flow Across Banks of Tubes—IV: A Study of the Transition Zone Between Viscous and Turbulent Flow
O. P. Bergelin, G. A. Brown, S. C. Doberstein
Trans. ASME. August 1952, 74(6): 953–959. doi: https://doi.org/10.1115/1.4015976
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Topics: Flow (Dynamics) , Heat transfer , Turbulence , Viscosity , Cooling , Heating , Pressure drop , Reynolds number , Viscous flow
Heat Transfer by Gas Conduction and Radiation in Fibrous Insulations
J. D. Verschoor, Paul Greebler
Trans. ASME. August 1952, 74(6): 961–967. doi: https://doi.org/10.1115/1.4015979
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Topics: Heat conduction , Heat transfer , Radiation (Physics) , Thermal conductivity , Insulation , Atmospheric pressure , Density , Gases , Glass , Pressure
A Method of Correlating Heat-Transfer Data for Surface Boiling of Liquids
W. M. Rohsenow
Trans. ASME. August 1952, 74(6): 969–975. doi: https://doi.org/10.1115/1.4015984
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Topics: Boiling , Heat transfer , Fluids , Heating , Nucleate boiling , Pool boiling , Pressure , Temperature
Heat Transfer and Pressure Drop for Turbulent Flow of Air-Water Mixtures in a Horizontal Pipe
H. A. Johnson, A. H. Abou-Sabe
Trans. ASME. August 1952, 74(6): 977–984. doi: https://doi.org/10.1115/1.4015989
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Topics: Heat transfer , Pipes , Pressure drop , Turbulence , Water , Flow (Dynamics) , Brass (Metal) , Gages , Tubing
Runaway Speed of Kaplan Turbines
G. H. Voaden
Trans. ASME. August 1952, 74(6): 989–997. doi: https://doi.org/10.1115/1.4015993
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Topics: Kaplan turbines , Blades , Generators , Turbines
Contributions to Hydraulic Control: 1—Steady-State Axial Forces on Control-Valve Pistons
Shih-Ying Lee, J. F. Blackburn
Trans. ASME. August 1952, 74(6): 1005–1009. doi: https://doi.org/10.1115/1.4016007
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Topics: Hydraulic control , Pistons , Steady state , Valves , Construction , Corners (Structural elements) , Fluids
Contributions to Hydraulic Control: 2—Transient-Flow Forces and Valve Instability
Shih-Ying Lee, J. F. Blackburn
Trans. ASME. August 1952, 74(6): 1013–1016. doi: https://doi.org/10.1115/1.4016010
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Topics: Hydraulic control , Unsteady flow , Valves , Oscillations , Transients (Dynamics)
Tool Forces and Tool-Chip Adhesion in the Machining of Nodular Cast Iron
K. J. Trigger, L. B. Zylstra, B. T. Chao
Trans. ASME. August 1952, 74(6): 1017–1025. doi: https://doi.org/10.1115/1.4016011
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Topics: Adhesion , Machining , Nodular iron , Cutting , Temperature
A Comparison of Parameters for the Machining of Gray Cast Iron
L. V. Colwell, H. J. Holmes, F. B. Rote
Trans. ASME. August 1952, 74(6): 1029–1037. doi: https://doi.org/10.1115/1.4016015
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Topics: Alloys , Carbon , Cast iron , Cutting , Drilling , Ferrites (Magnetic materials) , Graphite , Gray iron , Machining , Mechanical properties
Thermophysical Aspects of Metal Cutting
B. T. Chao, K. J. Trigger, L. B. Zylstra
Trans. ASME. August 1952, 74(6): 1039–1049. doi: https://doi.org/10.1115/1.4016018
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Topics: Metal cutting , Cutting , Differential equations , Dimensionless numbers , Machining , Metals , Temperature , Temperature distribution , Thermal diffusivity
The Mechanics of Three-Dimensional Cutting Operations
M. C. Shaw, N. H. Cook, P. A. Smith
Trans. ASME. August 1952, 74(6): 1055–1064. doi: https://doi.org/10.1115/1.4016022
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Topics: Cutting , Drills (Tools) , Flow (Dynamics) , Cutting tools , Friction , Shear (Mechanics) , Milling , Shear stress
The Rotary Cutting Tool
M. C. Shaw, P. A. Smith, N. H. Cook
Trans. ASME. August 1952, 74(6): 1065–1073. doi: https://doi.org/10.1115/1.4016023
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Topics: Cutting tools , Shear (Mechanics) , Cutting , Disks , Friction , Machining , Shear stress , Size effect , Temperature
Measuring the Cooling Properties of Cutting Fluids
G. M. Hain
Trans. ASME. August 1952, 74(6): 1077–1079. doi: https://doi.org/10.1115/1.4016027
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Topics: Cooling , Cutting , Fluids , Heat transfer , Machining , Metals , Stainless steel , Temperature , Thermocouples , Tubing
The Stresses in a Pressure Vessel With a Flat Head Closure
G. W. Watts, H. A. Lang
Trans. ASME. August 1952, 74(6): 1083–1090. doi: https://doi.org/10.1115/1.4016032
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Topics: Pressure vessels , Stress , Shells , Hoop stress , Vessels , Bending (Stress) , Computation , Cylinders , Junctions , Shear stress
Low-Temperature Separation for High-Pressure Gas-Distillate Wells
C. O. Glasgow
Trans. ASME. August 1952, 74(6): 1093–1097. doi: https://doi.org/10.1115/1.4016035
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Topics: High pressure (Physics) , Low temperature , Separation (Technology) , Wells , Horsepower , Pipelines , Sales , Testing performance , Water

Discussions and Closures

Discussion: “How to Obtain Instrument Accuracy With Proportioning Pumps” (Swarr, J. N., 1952, Trans. ASME, 74, pp. 891–895)
J. R. Hefler
Trans. ASME. August 1952, 74(6): 895–899. doi: https://doi.org/10.1115/1.4015956
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Topics: Instrumentation , Pumps
Discussion: “How to Obtain Instrument Accuracy With Proportioning Pumps” (Swarr, J. N., 1952, Trans. ASME, 74, pp. 891–895)
R. McFarland
Trans. ASME. August 1952, 74(6): 899. doi: https://doi.org/10.1115/1.4015957
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Topics: Instrumentation , Pumps
Discussion: “How to Obtain Instrument Accuracy With Proportioning Pumps” (Swarr, J. N., 1952, Trans. ASME, 74, pp. 891–895)
R. T. Sheen, G. S. Paul
Trans. ASME. August 1952, 74(6): 899–901. doi: https://doi.org/10.1115/1.4015958
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Topics: Instrumentation , Pumps
Closure to “Discussions of ‘How to Obtain Instrument Accuracy With Proportioning Pumps’” (1952, Trans. ASME, 74, pp. 895–901)
J. N. Swarr
Trans. ASME. August 1952, 74(6): 901–903. doi: https://doi.org/10.1115/1.4015959
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Topics: Instrumentation
Discussion: “Discharge Coefficients of Herschel-Type Venturi Tubes” (Jorissen, A. L., 1952, Trans. ASME, 74, pp. 905–909)
I. O. Miner
Trans. ASME. August 1952, 74(6): 909. doi: https://doi.org/10.1115/1.4015961
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Topics: Discharge coefficient , Venturi tubes
Discussion: “Discharge Coefficients of Herschel-Type Venturi Tubes” (Jorissen, A. L., 1952, Trans. ASME, 74, pp. 905–909)
Alb. Schlag
Trans. ASME. August 1952, 74(6): 909–910. doi: https://doi.org/10.1115/1.4015962
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Topics: Discharge coefficient , Venturi tubes
Discussion: “Discharge Coefficients of Herschel-Type Venturi Tubes” (Jorissen, A. L., 1952, Trans. ASME, 74, pp. 905–909)
W. S. Pardoe
Trans. ASME. August 1952, 74(6): 910–912. doi: https://doi.org/10.1115/1.4015963
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Topics: Discharge coefficient , Venturi tubes
Closure to “Discussions of ‘Discharge Coefficients of Herschel-Type Venturi Tubes’” (1952, Trans. ASME, 74, pp. 909–912)
A. L. Jorissen
Trans. ASME. August 1952, 74(6): 913. doi: https://doi.org/10.1115/1.4015964
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Topics: Discharge coefficient , Venturi tubes
Discussion: “Orifice and Flow Coefficients in Pulsating Flow” (Hall, N. A., 1952, Trans. ASME, 74, pp. 925–928)
V. P. Head
Trans. ASME. August 1952, 74(6): 928–929. doi: https://doi.org/10.1115/1.4015968
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Topics: Flow (Dynamics) , Pulsatile flow
Closure to “Discussion of ‘Orifice and Flow Coefficients in Pulsating Flow’” (1952, Trans. ASME, 74, pp. 928–929)
N. A. Hall
Trans. ASME. August 1952, 74(6): 929. doi: https://doi.org/10.1115/1.4015969
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Topics: Flow (Dynamics)
Discussion: “Pulsations in Gas-Compressor Systems” (Chilton, E. G., and Handley, L. R., 1952, Trans. ASME, 74, pp. 931–941)
M. L. Arnold
Trans. ASME. August 1952, 74(6): 941. doi: https://doi.org/10.1115/1.4015971
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Topics: Gas compressors
Discussion: “Pulsations in Gas-Compressor Systems” (Chilton, E. G., and Handley, L. R., 1952, Trans. ASME, 74, pp. 931–941)
R. C. Baird
Trans. ASME. August 1952, 74(6): 942. doi: https://doi.org/10.1115/1.4015972
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Topics: Gas compressors
Discussion: “Pulsations in Gas-Compressor Systems” (Chilton, E. G., and Handley, L. R., 1952, Trans. ASME, 74, pp. 931–941)
E. F. Murphy
Trans. ASME. August 1952, 74(6): 942–943. doi: https://doi.org/10.1115/1.4015973
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Topics: Gas compressors
Closure to “Discussions of ‘Pulsations in Gas-Compressor Systems’” (1952, Trans. ASME, 74, pp. 941–943)
E. G. Chilton, L. R. Handley
Trans. ASME. August 1952, 74(6): 943. doi: https://doi.org/10.1115/1.4015974
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Topics: Gas compressors
Discussion: “Heat Transfer and Fluid Friction During Flow Across Banks of Tubes—IV: A Study of the Transition Zone Between Viscous and Turbulent Flow” (Bergelin, O. P., Brown, G. A., and Doberstein, S. C., 1952, Trans. ASME, 74, pp. 953–959)
C. J. Wilson
Trans. ASME. August 1952, 74(6): 960. doi: https://doi.org/10.1115/1.4015977
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Topics: Flow (Dynamics) , Heat transfer , Turbulence , Viscosity
Closure to “Discussion of ‘Heat Transfer and Fluid Friction During Flow Across Banks of Tubes—IV: A Study of the Transition Zone Between Viscous and Turbulent Flow’” (1952, Trans. ASME, 74, p. 960)
O. P. Bergelin, G. A. Brown, S. C. Doberstein
Trans. ASME. August 1952, 74(6): 960. doi: https://doi.org/10.1115/1.4015978
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Topics: Flow (Dynamics) , Heat transfer , Turbulence , Viscosity
Discussion: “Heat Transfer by Gas Conduction and Radiation in Fibrous Insulations” (Verschoor, J. D., and Greebler, Paul, 1952, Trans. ASME, 74, pp. 961–967)
E. A. Allcut
Trans. ASME. August 1952, 74(6): 967–968. doi: https://doi.org/10.1115/1.4015980
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Topics: Heat conduction , Heat transfer , Radiation (Physics)
Discussion: “Heat Transfer by Gas Conduction and Radiation in Fibrous Insulations” (Verschoor, J. D., and Greebler, Paul, 1952, Trans. ASME, 74, pp. 961–967)
C. B. Bradley
Trans. ASME. August 1952, 74(6): 968. doi: https://doi.org/10.1115/1.4015981
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Topics: Heat conduction , Heat transfer , Radiation (Physics)
Discussion: “Heat Transfer by Gas Conduction and Radiation in Fibrous Insulations” (Verschoor, J. D., and Greebler, Paul, 1952, Trans. ASME, 74, pp. 961–967)
Hyman Marcus
Trans. ASME. August 1952, 74(6): 968. doi: https://doi.org/10.1115/1.4015982
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Topics: Heat conduction , Heat transfer , Radiation (Physics)
Closure to “Discussions of ‘Heat Transfer by Gas Conduction and Radiation in Fibrous Insulations’” (1952, Trans. ASME, 74, pp. 967–968)
J. D. Verschoor, Paul Greebler
Trans. ASME. August 1952, 74(6): 968. doi: https://doi.org/10.1115/1.4015983
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Topics: Heat conduction , Heat transfer , Radiation (Physics)
Discussion: “A Method of Correlating Heat-Transfer Data for Surface Boiling of Liquids” (Rohsenow, W. M., 1952, Trans. ASME, 74, pp. 969–975)
W. Daskin
Trans. ASME. August 1952, 74(6): 975. doi: https://doi.org/10.1115/1.4015985
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Topics: Boiling , Heat transfer
Discussion: “A Method of Correlating Heat-Transfer Data for Surface Boiling of Liquids” (Rohsenow, W. M., 1952, Trans. ASME, 74, pp. 969–975)
M. Jakob
Trans. ASME. August 1952, 74(6): 975. doi: https://doi.org/10.1115/1.4015986
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Topics: Boiling , Heat transfer
Discussion: “A Method of Correlating Heat-Transfer Data for Surface Boiling of Liquids” (Rohsenow, W. M., 1952, Trans. ASME, 74, pp. 969–975)
R. H. Sabersky
Trans. ASME. August 1952, 74(6): 975–976. doi: https://doi.org/10.1115/1.4015987
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Topics: Boiling , Heat transfer
Closure to “Discussions of ‘A Method of Correlating Heat-Transfer Data for Surface Boiling of Liquids’” (1952, Trans. ASME, 74, pp. 975–976)
W. M. Rohsenow
Trans. ASME. August 1952, 74(6): 976. doi: https://doi.org/10.1115/1.4015988
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Topics: Boiling , Heat transfer
Discussion: “Heat Transfer and Pressure Drop for Turbulent Flow of Air-Water Mixtures in a Horizontal Pipe” (Johnson, H. A., and Abou-Sabe, A. H., 1952, Trans. ASME, 74, pp. 977–984)
Carl Gazley, Jr.
Trans. ASME. August 1952, 74(6): 984. doi: https://doi.org/10.1115/1.4015990
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Topics: Heat transfer , Pipes , Pressure drop , Turbulence , Water
Discussion: “Heat Transfer and Pressure Drop for Turbulent Flow of Air-Water Mixtures in a Horizontal Pipe” (Johnson, H. A., and Abou-Sabe, A. H., 1952, Trans. ASME, 74, pp. 977–984)
C. V. Sternling, C. E. Sanborn
Trans. ASME. August 1952, 74(6): 984–985. doi: https://doi.org/10.1115/1.4015991
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Topics: Heat transfer , Pipes , Pressure drop , Turbulence , Water
Closure to “Discussions of ‘Heat Transfer and Pressure Drop for Turbulent Flow of Air-Water Mixtures in a Horizontal Pipe’” (1952, Trans. ASME, 74, pp. 984–985)
H. A. Johnson, A. H. Abou-Sabe
Trans. ASME. August 1952, 74(6): 985–987. doi: https://doi.org/10.1115/1.4015992
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Topics: Heat transfer , Pressure drop , Turbulence , Water
Discussion: “Runaway Speed of Kaplan Turbines” (Voaden, G. H., 1952, Trans. ASME, 74, pp. 989–997)
R. A. Baudry
Trans. ASME. August 1952, 74(6): 997–998. doi: https://doi.org/10.1115/1.4015994
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Topics: Kaplan turbines
Discussion: “Runaway Speed of Kaplan Turbines” (Voaden, G. H., 1952, Trans. ASME, 74, pp. 989–997)
D. E. Brainard
Trans. ASME. August 1952, 74(6): 998. doi: https://doi.org/10.1115/1.4015995
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Topics: Kaplan turbines
Discussion: “Runaway Speed of Kaplan Turbines” (Voaden, G. H., 1952, Trans. ASME, 74, pp. 989–997)
W. K. Cave
Trans. ASME. August 1952, 74(6): 998–999. doi: https://doi.org/10.1115/1.4015996
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Topics: Kaplan turbines
Discussion: “Runaway Speed of Kaplan Turbines” (Voaden, G. H., 1952, Trans. ASME, 74, pp. 989–997)
J. J. Hart
Trans. ASME. August 1952, 74(6): 999–1000. doi: https://doi.org/10.1115/1.4015997
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Topics: Kaplan turbines
Discussion: “Runaway Speed of Kaplan Turbines” (Voaden, G. H., 1952, Trans. ASME, 74, pp. 989–997)
W. B. Hess
Trans. ASME. August 1952, 74(6): 1000. doi: https://doi.org/10.1115/1.4015998
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Topics: Kaplan turbines
Discussion: “Runaway Speed of Kaplan Turbines” (Voaden, G. H., 1952, Trans. ASME, 74, pp. 989–997)
F. M. Lewis
Trans. ASME. August 1952, 74(6): 1000–1001. doi: https://doi.org/10.1115/1.4015999
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Topics: Kaplan turbines
Discussion: “Runaway Speed of Kaplan Turbines” (Voaden, G. H., 1952, Trans. ASME, 74, pp. 989–997)
W. R. MacNamee
Trans. ASME. August 1952, 74(6): 1001. doi: https://doi.org/10.1115/1.4016000
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Topics: Kaplan turbines
Discussion: “Runaway Speed of Kaplan Turbines” (Voaden, G. H., 1952, Trans. ASME, 74, pp. 989–997)
D. J. McCormack
Trans. ASME. August 1952, 74(6): 1001. doi: https://doi.org/10.1115/1.4016001
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Topics: Kaplan turbines
Discussion: “Runaway Speed of Kaplan Turbines” (Voaden, G. H., 1952, Trans. ASME, 74, pp. 989–997)
W. J. Rheingans
Trans. ASME. August 1952, 74(6): 1001–1002. doi: https://doi.org/10.1115/1.4016002
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Topics: Kaplan turbines
Discussion: “Runaway Speed of Kaplan Turbines” (Voaden, G. H., 1952, Trans. ASME, 74, pp. 989–997)
R. A. Sutherland, E. A. Woodhead
Trans. ASME. August 1952, 74(6): 1002–1003. doi: https://doi.org/10.1115/1.4016003
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Topics: Kaplan turbines
Discussion: “Runaway Speed of Kaplan Turbines” (Voaden, G. H., 1952, Trans. ASME, 74, pp. 989–997)
R. B. Willi
Trans. ASME. August 1952, 74(6): 1003. doi: https://doi.org/10.1115/1.4016004
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Topics: Kaplan turbines
Discussion: “Runaway Speed of Kaplan Turbines” (Voaden, G. H., 1952, Trans. ASME, 74, pp. 989–997)
T. Zowski
Trans. ASME. August 1952, 74(6): 1003–1004. doi: https://doi.org/10.1115/1.4016005
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Topics: Kaplan turbines
Closure to “Discussions of ‘Runaway Speed of Kaplan Turbines’” (1952, Trans. ASME, 74, pp. 997–1004)
G. H. Voaden
Trans. ASME. August 1952, 74(6): 1004. doi: https://doi.org/10.1115/1.4016006
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Discussion: “Contributions to Hydraulic Control: 1—Steady-State Axial Forces on Control-Valve Pistons” (Lee, Shih-Ying, and Blackburn, J. F., 1952, Trans. ASME, 74, pp. 1005–1009)
F. C. Paddison
Trans. ASME. August 1952, 74(6): 1009–1011. doi: https://doi.org/10.1115/1.4016008
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Topics: Hydraulic control , Pistons , Steady state , Valves
Closure to “Discussion of ‘Contributions to Hydraulic Control: 1—Steady-State Axial Forces on Control-Valve Pistons’” (1952, Trans. ASME, 74, pp. 1009–1011)
Shih-Ying Lee, J. F. Blackburn
Trans. ASME. August 1952, 74(6): 1011. doi: https://doi.org/10.1115/1.4016009
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Topics: Hydraulic control , Steady state , Valves
Discussion: “Tool Forces and Tool-Chip Adhesion in the Machining of Nodular Cast Iron” (Trigger, K. J., Zylstra, L. B., and Chao, B. T., 1952, Trans. ASME, 74, pp. 1017–1025)
M. Eugene Merchant
Trans. ASME. August 1952, 74(6): 1025. doi: https://doi.org/10.1115/1.4016012
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Topics: Adhesion , Machining , Nodular iron
Discussion: “Tool Forces and Tool-Chip Adhesion in the Machining of Nodular Cast Iron” (Trigger, K. J., Zylstra, L. B., and Chao, B. T., 1952, Trans. ASME, 74, pp. 1017–1025)
L. J. Nowikowski
Trans. ASME. August 1952, 74(6): 1026. doi: https://doi.org/10.1115/1.4016013
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Topics: Adhesion , Machining , Nodular iron
Closure to “Discussions of ‘Tool Forces and Tool-Chip Adhesion in the Machining of Nodular Cast Iron’” (1952, Trans. ASME, 74, pp. 1025–1026)
K. J. Trigger, L. B. Zylstra, B. T. Chao
Trans. ASME. August 1952, 74(6): 1026–1027. doi: https://doi.org/10.1115/1.4016014
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Topics: Adhesion , Machining
Discussion: “A Comparison of Parameters for the Machining of Gray Cast Iron” (Colwell, L. V., Holmes, H. J., and Rote, F. B., 1952, Trans. ASME, 74, pp. 1029–1037)
E. A. Cyrol
Trans. ASME. August 1952, 74(6): 1037–1038. doi: https://doi.org/10.1115/1.4016016
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Topics: Cast iron , Machining
Closure to “Discussion of ‘A Comparison of Parameters for the Machining of Gray Cast Iron’” (1952, Trans. ASME, 74, pp. 1037–1038)
L. V. Colwell, H. J. Holmes, F. B. Rote
Trans. ASME. August 1952, 74(6): 1038. doi: https://doi.org/10.1115/1.4016017
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Topics: Machining
Discussion: “Thermophysical Aspects of Metal Cutting” (Chao, B. T., Trigger, K. J., and Zylstra, L. B., 1952, Trans. ASME, 74, pp. 1039–1049)
E. J. Krabacher, M. E. Merchant
Trans. ASME. August 1952, 74(6): 1049–1050. doi: https://doi.org/10.1115/1.4016019
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Topics: Metal cutting
Discussion: “Thermophysical Aspects of Metal Cutting” (Chao, B. T., Trigger, K. J., and Zylstra, L. B., 1952, Trans. ASME, 74, pp. 1039–1049)
M. C. Shaw, N. H. Cook
Trans. ASME. August 1952, 74(6): 1050–1052. doi: https://doi.org/10.1115/1.4016020
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Topics: Metal cutting
Closure to “Discussions of ‘Thermophysical Aspects of Metal Cutting’” (1952, Trans. ASME, 74, pp. 1049–1052)
B. T. Chao, K. J. Trigger, L. B. Zylstra
Trans. ASME. August 1952, 74(6): 1052–1054. doi: https://doi.org/10.1115/1.4016021
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Topics: Metals
Discussion: “The Rotary Cutting Tool” (Shaw, M. C., Smith, P. A., and Cook, N. H., 1952, Trans. ASME, 74, pp. 1065–1073)
R. S. Hahn
Trans. ASME. August 1952, 74(6): 1073–1074. doi: https://doi.org/10.1115/1.4016024
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Topics: Cutting tools
Discussion: “The Rotary Cutting Tool” (Shaw, M. C., Smith, P. A., and Cook, N. H., 1952, Trans. ASME, 74, pp. 1065–1073)
E. K. Henriksen
Trans. ASME. August 1952, 74(6): 1074–1076. doi: https://doi.org/10.1115/1.4016025
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Topics: Cutting tools
Closure to “Discussions of ‘The Rotary Cutting Tool’” (1952, Trans. ASME, 74, pp. 1073–1076)
M. C. Shaw, P. A. Smith, N. H. Cook
Trans. ASME. August 1952, 74(6): 1076. doi: https://doi.org/10.1115/1.4016026
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Topics: Cutting
Discussion: “Measuring the Cooling Properties of Cutting Fluids” (Hain, G. M., 1952, Trans. ASME, 74, pp. 1077–1079)
B. T. Chao, K. J. Trigger
Trans. ASME. August 1952, 74(6): 1079–1080. doi: https://doi.org/10.1115/1.4016028
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Topics: Cooling , Cutting , Fluids
Discussion: “Measuring the Cooling Properties of Cutting Fluids” (Hain, G. M., 1952, Trans. ASME, 74, pp. 1077–1079)
R. S. Hahn
Trans. ASME. August 1952, 74(6): 1080. doi: https://doi.org/10.1115/1.4016029
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Topics: Cooling , Cutting , Fluids
Discussion: “Measuring the Cooling Properties of Cutting Fluids” (Hain, G. M., 1952, Trans. ASME, 74, pp. 1077–1079)
M. C. Shaw
Trans. ASME. August 1952, 74(6): 1080–1081. doi: https://doi.org/10.1115/1.4016030
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Topics: Cooling , Cutting , Fluids
Closure to “Discussions of ‘Measuring the Cooling Properties of Cutting Fluids’” (1952, Trans. ASME, 74, pp. 1079–1081)
G. M. Hain
Trans. ASME. August 1952, 74(6): 1081–1082. doi: https://doi.org/10.1115/1.4016031
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Topics: Cooling , Cutting
Discussion: “The Stresses in a Pressure Vessel With a Flat Head Closure” (Watts, G. W., and Lang, H. A., 1952, Trans. ASME, 74, pp. 1083–1090)
D. B. Wesstrom
Trans. ASME. August 1952, 74(6): 1090–1091. doi: https://doi.org/10.1115/1.4016033
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Topics: Electrical measurement , Pressure vessels , Stress
Closure to “Discussion of ‘The Stresses in a Pressure Vessel With a Flat Head Closure’” (1952, Trans. ASME, 74, pp. 1090–1091)
G. W. Watts, H. A. Lang
Trans. ASME. August 1952, 74(6): 1091. doi: https://doi.org/10.1115/1.4016034
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Topics: Pressure vessels , Stress
Discussion: “Low-Temperature Separation for High-Pressure Gas-Distillate Wells” (Glasgow, C. O., 1952, Trans. ASME, 74, pp. 1093–1097)
J. A. Newsome, Jr.
Trans. ASME. August 1952, 74(6): 1097–1098. doi: https://doi.org/10.1115/1.4016036
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Topics: High pressure (Physics) , Low temperature , Separation (Technology) , Wells
Closure to “Discussion of ‘Low-Temperature Separation for High-Pressure Gas-Distillate Wells’” (1952, Trans. ASME, 74, pp. 1097–1098)
C. O. Glasgow
Trans. ASME. August 1952, 74(6): 1098. doi: https://doi.org/10.1115/1.4016037
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Topics: High pressure (Physics) , Low temperature , Separation (Technology)
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