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Issues

Volume 75, Issue 5
July 1953
This article was originally published in
Transactions of the American Society of Mechanical Engineers
Issue Cover
ISSN 0097-6822
In this Issue

Research Papers

Air-Preheater Design as Affected by Fuel Characteristics
Hilmer Karlsson, W. E. Hammond
Trans. ASME. July 1953, 75(5): 711–718. doi: https://doi.org/10.1115/1.4015404
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Topics: Design , Fuels , Corrosion , Sulfur , Temperature , Automatic control , Carbon , Certainty , Combustion , Compressed air
Tubular Air-Heater Problems
E. F. Rothemich, G. Parmakian
Trans. ASME. July 1953, 75(5): 723–727. doi: https://doi.org/10.1115/1.4015411
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Topics: Coal , Design , Maintenance , Natural gas , Steam
Contamination of Condensate by Heat-Exchanger-Tube Alloys
J. D. Ristroph, E. B. Powell
Trans. ASME. July 1953, 75(5): 729–738. doi: https://doi.org/10.1115/1.4015415
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Topics: Alloys , Condensed matter , Contamination , Heat , Heat exchangers , Power stations , Steam , Temperature , Testing , Thermal power stations
The Motion of a Link Chain Over a Roller
A. E. Richard de Jonge
Trans. ASME. July 1953, 75(5): 747–757. doi: https://doi.org/10.1115/1.4015423
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Topics: Chain , Rollers , Geometry , Coal , Cutting , Dimensions , Electric motors , Kinematics , Trenching machinery
Effect of Rotary Regenerator Performance on Gas-Turbine-Plant Performance
D. B. Harper, W. M. Rohsenow
Trans. ASME. July 1953, 75(5): 759–764. doi: https://doi.org/10.1115/1.4015426
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Topics: Leakage , Turbines
The Rotary Regenerative Air Preheater for Gas Turbines
A. T. Bowden, W. Hryniszak
Trans. ASME. July 1953, 75(5): 767–776. doi: https://doi.org/10.1115/1.4015429
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Topics: Gas turbines , Cycles , Dimensions , Fuel consumption
The Periodic-Flow Regenerator—A Summary of Design Theory
J. E. Coppage, A. L. London
Trans. ASME. July 1953, 75(5): 779–785. doi: https://doi.org/10.1115/1.4015432
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Topics: Design theory , Flow (Dynamics) , Gas turbines , Design , Algebra , Exhaust systems , Heat exchangers , Thermal energy
A Practical Solution of a Three-Dimensional Flow Problem of Axial-Flow Turbomachinery
L. H. Smith, Jr., S. C. Traugott, G. F. Wislicenus
Trans. ASME. July 1953, 75(5): 789–799. doi: https://doi.org/10.1115/1.4015436
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Topics: Axial flow , Flow (Dynamics) , Turbomachinery , Approximation , Design , Fluids , Vorticity
Some NACA Research on Centrifugal Compressors
I. A. Johnsen, Ambrose Ginsburg
Trans. ASME. July 1953, 75(5): 805–815. doi: https://doi.org/10.1115/1.4015445
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Topics: Compressors , Aircraft , Design , Diffusers , Engineering design processes , Engines , Flow (Dynamics) , Gas turbines , Impellers , Turbomachinery
Complete Characteristic Circle Diagrams for Turbomachinery
W. M. Swanson
Trans. ASME. July 1953, 75(5): 819–826. doi: https://doi.org/10.1115/1.4015450
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Topics: Turbomachinery , Flow (Dynamics) , Pumps , Axial flow , Machinery
Theoretical Consideration of Retarded Control
G. H. Cohen, G. A. Coon
Trans. ASME. July 1953, 75(5): 827–834. doi: https://doi.org/10.1115/1.4015451
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Topics: Control equipment , Stability
A Fast-Response True-Mass-Rate Flowmeter
Yao Tzu Li, Shih-Ying Lee
Trans. ASME. July 1953, 75(5): 835–841. doi: https://doi.org/10.1115/1.4015454
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Topics: Flowmeters , Flow (Dynamics) , Flow measurement , Instrumentation
Optimum Three-Mode Controller Settings for Automatic Start-Up
D. W. Pessen
Trans. ASME. July 1953, 75(5): 843–848. doi: https://doi.org/10.1115/1.4015455
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Topics: Control equipment , Stress
Analogies for Hydraulic and Electric Drives in Servomechanisms
Yaohan Chu, L. A. Gould
Trans. ASME. July 1953, 75(5): 851–857. doi: https://doi.org/10.1115/1.4015458
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Topics: Servomechanisms , Hydraulic drive systems , Electric propulsion , Feedback , Hydraulic circuits , Machinery , Pressure
Laminar-Flow Forced Convection in Rectangular Tubes
S. H. Clark, W. M. Kays
Trans. ASME. July 1953, 75(5): 859–866. doi: https://doi.org/10.1115/1.4015459
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Topics: Forced convection , Laminar flow , Wall temperature , Heat , Boundary-value problems , Design , Gas flow , Heat exchangers , Heat transfer , Interpolation
Effect of Stress Amplitude on Statistical Variability in Fatigue Life of 75S-T6 Aluminum Alloy
G. M. Sinclair, T. J. Dolan
Trans. ASME. July 1953, 75(5): 867–870. doi: https://doi.org/10.1115/1.4015460
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Topics: Aluminum alloys , Fatigue life , Stress , Electromagnetic scattering , Failure , Fatigue , Probability , Testing , Composite materials , Machinery
Grinding and Lapping Stresses in Manganese Oil-Hardening Tool Steel
H. R. Letner, H. J. Snyder
Trans. ASME. July 1953, 75(5): 873–880. doi: https://doi.org/10.1115/1.4015466
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Topics: Grinding , Hardening , Stress , Tool steel , Chemical etching , Deformation , Interferometry
Workpiece and Surface Temperatures in Milling
A. O. Schmidt
Trans. ASME. July 1953, 75(5): 883–889. doi: https://doi.org/10.1115/1.4015469
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Topics: Milling , Temperature , Cutting , High temperature , Temperature gradient
Creep of Neoprene in Shear Under Static Conditions; Ten Years
W. Newlin Keen
Trans. ASME. July 1953, 75(5): 891–893. doi: https://doi.org/10.1115/1.4015474
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Topics: Creep , Neoprene rubber , Shear (Mechanics) , Natural rubber , Temperature
Stress-Crazing of Plastics
J. A. Sauer, C. C. Hsiao
Trans. ASME. July 1953, 75(5): 895–901. doi: https://doi.org/10.1115/1.4015475
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Topics: Plastics , Stress , Fracture (Process) , Fracture (Materials) , Annealing , Coatings , Metals , Rubber , Transparency
Some Design Considerations for Injection-Molding Heating Chambers
G. D. Gilmore, G. B. Thayer
Trans. ASME. July 1953, 75(5): 903–906. doi: https://doi.org/10.1115/1.4015478
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Topics: Design , Heating , Injection molding , Heat transfer , Plastics , Pressure , Engineering design , Fluids , Geometry
Furnace Heat Absorption in a Spreader-Stoker-Fired Steam Generator: 1—Furnace Heat-Absorption Efficiency as Shown by Enthalpy of Gases Leaving the Furnace
J. W. Myers, R. C. Corey
Trans. ASME. July 1953, 75(5): 909–923. doi: https://doi.org/10.1115/1.4015481
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Topics: Absorption , Boilers , Enthalpy , Furnaces , Gases , Heat , Combustion , Heat transfer , Temperature , Fireplaces
Furnace Heat Absorption in a Spreader-Stoker-Fired Steam Generator: 2—Variation in Furnace Heat Absorption as Shown by Measurement of Temperature of Exposed Side of Furnace Tubes
F. G. Feeley, Jr., E. C. Miller
Trans. ASME. July 1953, 75(5): 925–940. doi: https://doi.org/10.1115/1.4015482
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Topics: Absorption , Boilers , Furnaces , Heat , Temperature measurement , Coal , Dust , Temperature , Testing
The Venturi as a Meter for Gas-Solids Mixtures
Leonard Farbar
Trans. ASME. July 1953, 75(5): 943–950. doi: https://doi.org/10.1115/1.4015486
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Topics: Solids , Venturi tubes , Gas flow , Flow (Dynamics) , Pressure , Air flow , Catalysts , Diffusers , Glass
Experimental Evaluation of Expansion Factors for Steam
J. W. Murdock, C. J. Foltz
Trans. ASME. July 1953, 75(5): 953–959. doi: https://doi.org/10.1115/1.4015489
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Topics: Steam , Natural gas , Fluids , Superheating
Measurement of Pulsating Flow With Propeller and Turbine-Type Meters
R. B. Dowdell, A. H. Liddle, Jr.
Trans. ASME. July 1953, 75(5): 961–966. doi: https://doi.org/10.1115/1.4015492
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Topics: Propellers , Pulsatile flow , Turbines , Flowmeters , Unsteady flow
The Pitot-Venturi Flow Element Water Service Report
H. W. Stoll
Trans. ASME. July 1953, 75(5): 969–974. doi: https://doi.org/10.1115/1.4015497
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Topics: Flow (Dynamics) , Venturi tubes , Water , Air flow , Design , Instrumentation , Pipes

Discussions and Closures

Discussion: “Air-Preheater Design as Affected by Fuel Characteristics” (Karlsson, Hilmer, and Hammond, W. E., 1953, Trans. ASME, 75, pp. 711–718)
J. F. Barkley
Trans. ASME. July 1953, 75(5): 718–719. doi: https://doi.org/10.1115/1.4015405
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Topics: Design , Fuels
Discussion: “Air-Preheater Design as Affected by Fuel Characteristics” (Karlsson, Hilmer, and Hammond, W. E., 1953, Trans. ASME, 75, pp. 711–718)
Wilhelm Gumz
Trans. ASME. July 1953, 75(5): 719–720. doi: https://doi.org/10.1115/1.4015406
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Topics: Design , Fuels
Discussion: “Air-Preheater Design as Affected by Fuel Characteristics” (Karlsson, Hilmer, and Hammond, W. E., 1953, Trans. ASME, 75, pp. 711–718)
S. I. Juhasz
Trans. ASME. July 1953, 75(5): 720–721. doi: https://doi.org/10.1115/1.4015407
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Topics: Design , Fuels
Discussion: “Air-Preheater Design as Affected by Fuel Characteristics” (Karlsson, Hilmer, and Hammond, W. E., 1953, Trans. ASME, 75, pp. 711–718)
Paul Koch
Trans. ASME. July 1953, 75(5): 721–722. doi: https://doi.org/10.1115/1.4015408
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Topics: Design , Fuels
Discussion: “Air-Preheater Design as Affected by Fuel Characteristics” (Karlsson, Hilmer, and Hammond, W. E., 1953, Trans. ASME, 75, pp. 711–718)
R. J. Robertson, W. B. Gurney
Trans. ASME. July 1953, 75(5): 722. doi: https://doi.org/10.1115/1.4015409
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Topics: Design , Fuels
Closure to “Discussions of ‘Air-Preheater Design as Affected by Fuel Characteristics’” (1953, Trans. ASME, 75, pp. 718–722)
Hilmer Karlsson, W. E. Hammond
Trans. ASME. July 1953, 75(5): 722. doi: https://doi.org/10.1115/1.4015410
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Topics: Design , Fuels
Discussion: “Tubular Air-Heater Problems” (Rothemich, E. F., and Parmakian, G., 1953, Trans. ASME, 75, pp. 723–727)
H. Karlsson
Trans. ASME. July 1953, 75(5): 727–728. doi: https://doi.org/10.1115/1.4015412
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Discussion: “Tubular Air-Heater Problems” (Rothemich, E. F., and Parmakian, G., 1953, Trans. ASME, 75, pp. 723–727)
P. Koch
Trans. ASME. July 1953, 75(5): 728. doi: https://doi.org/10.1115/1.4015413
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Closure to “Discussions of ‘Tubular Air-Heater Problems’” (1953, Trans. ASME, 75, pp. 727–728)
E. F. Rothemich, G. Parmakian
Trans. ASME. July 1953, 75(5): 728. doi: https://doi.org/10.1115/1.4015414
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Discussion: “Contamination of Condensate by Heat-Exchanger-Tube Alloys” (Ristroph, J. D., and Powell, E. B., 1953, Trans. ASME, 75, pp. 729–738)
C. L. Bulow
Trans. ASME. July 1953, 75(5): 738–739. doi: https://doi.org/10.1115/1.4015416
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Topics: Alloys , Condensed matter , Contamination , Heat
Discussion: “Contamination of Condensate by Heat-Exchanger-Tube Alloys” (Ristroph, J. D., and Powell, E. B., 1953, Trans. ASME, 75, pp. 729–738)
W. V. Drake, W. L. Thompson
Trans. ASME. July 1953, 75(5): 739–740. doi: https://doi.org/10.1115/1.4015417
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Topics: Alloys , Condensed matter , Contamination , Heat
Discussion: “Contamination of Condensate by Heat-Exchanger-Tube Alloys” (Ristroph, J. D., and Powell, E. B., 1953, Trans. ASME, 75, pp. 729–738)
C. E. Kaufman, E. A. Yorkgitis
Trans. ASME. July 1953, 75(5): 740. doi: https://doi.org/10.1115/1.4015418
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Topics: Alloys , Condensed matter , Contamination , Heat
Discussion: “Contamination of Condensate by Heat-Exchanger-Tube Alloys” (Ristroph, J. D., and Powell, E. B., 1953, Trans. ASME, 75, pp. 729–738)
E. H. Krieg
Trans. ASME. July 1953, 75(5): 740. doi: https://doi.org/10.1115/1.4015419
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Topics: Alloys , Condensed matter , Contamination , Heat
Discussion: “Contamination of Condensate by Heat-Exchanger-Tube Alloys” (Ristroph, J. D., and Powell, E. B., 1953, Trans. ASME, 75, pp. 729–738)
F. L. LaQue
Trans. ASME. July 1953, 75(5): 741. doi: https://doi.org/10.1115/1.4015420
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Topics: Alloys , Condensed matter , Contamination , Heat
Discussion: “Contamination of Condensate by Heat-Exchanger-Tube Alloys” (Ristroph, J. D., and Powell, E. B., 1953, Trans. ASME, 75, pp. 729–738)
S. T. Powell
Trans. ASME. July 1953, 75(5): 741–742. doi: https://doi.org/10.1115/1.4015421
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Topics: Alloys , Condensed matter , Contamination , Heat
Closure to “Discussions of ‘Contamination of Condensate by Heat-Exchanger-Tube Alloys’” (1953, Trans. ASME, 75, pp. 738–742)
J. D. Ristroph, E. B. Powell
Trans. ASME. July 1953, 75(5): 742–745. doi: https://doi.org/10.1115/1.4015422
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Topics: Condensed matter , Contamination , Heat
Discussion: “The Motion of a Link Chain Over a Roller” (de Jonge, A. E. Richard, 1953, Trans. ASME, 75, pp. 747–757)
Allan H. Candee
Trans. ASME. July 1953, 75(5): 757. doi: https://doi.org/10.1115/1.4015424
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Topics: Chain , Rollers
Closure to “Discussion of ‘The Motion of a Link Chain Over a Roller’” (1953, Trans. ASME, 75, p. 757)
A. E. Richard de Jonge
Trans. ASME. July 1953, 75(5): 757–758. doi: https://doi.org/10.1115/1.4015425
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Topics: Chain
Discussion: “Effect of Rotary Regenerator Performance on Gas-Turbine-Plant Performance” (Harper, D. B., and Rohsenow, W. M., 1953, Trans. ASME, 75, pp. 759–764)
David Aronson
Trans. ASME. July 1953, 75(5): 764. doi: https://doi.org/10.1115/1.4015427
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Topics: Turbines
Closure to “Discussion of ‘Effect of Rotary Regenerator Performance on Gas-Turbine-Plant Performance’” (1953, Trans. ASME, 75, p. 764)
D. B. Harper, W. M. Rohsenow
Trans. ASME. July 1953, 75(5): 765. doi: https://doi.org/10.1115/1.4015428
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Topics: Turbines
Discussion: “The Rotary Regenerative Air Preheater for Gas Turbines” (Bowden, A. T., and Hryniszak, W., 1953, Trans. ASME, 75, pp. 767–776)
David Aronson
Trans. ASME. July 1953, 75(5): 776–777. doi: https://doi.org/10.1115/1.4015430
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Topics: Gas turbines
Closure to “Discussion of ‘The Rotary Regenerative Air Preheater for Gas Turbines’” (1953, Trans. ASME, 75, pp. 776–777)
A. T. Bowden, W. Hryniszak
Trans. ASME. July 1953, 75(5): 777. doi: https://doi.org/10.1115/1.4015431
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Discussion: “The Periodic-Flow Regenerator—A Summary of Design Theory” (Coppage, J. E., and London, A. L., 1953, Trans. ASME, 75, pp. 779–785)
G. M. Dusinberre
Trans. ASME. July 1953, 75(5): 785. doi: https://doi.org/10.1115/1.4015433
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Topics: Design theory , Flow (Dynamics)
Discussion: “The Periodic-Flow Regenerator—A Summary of Design Theory” (Coppage, J. E., and London, A. L., 1953, Trans. ASME, 75, pp. 779–785)
D. B. Harper
Trans. ASME. July 1953, 75(5): 785–786. doi: https://doi.org/10.1115/1.4015434
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Topics: Design theory , Flow (Dynamics)
Closure to “Discussions of ‘The Periodic-Flow Regenerator—A Summary of Design Theory’” (1953, Trans. ASME, 75, pp. 785–786)
J. E. Coppage, A. L. London
Trans. ASME. July 1953, 75(5): 786–787. doi: https://doi.org/10.1115/1.4015435
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Topics: Design , Flow (Dynamics)
Discussion: “A Practical Solution of a Three-Dimensional Flow Problem of Axial-Flow Turbomachinery” (Smith, Jr., L. H., Traugott, S. C., and Wislicenus, G. F., 1953, Trans. ASME, 75, pp. 789–799)
C. C. Alsworth
Trans. ASME. July 1953, 75(5): 799. doi: https://doi.org/10.1115/1.4015437
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Topics: Axial flow , Flow (Dynamics) , Turbomachinery
Discussion: “A Practical Solution of a Three-Dimensional Flow Problem of Axial-Flow Turbomachinery” (Smith, Jr., L. H., Traugott, S. C., and Wislicenus, G. F., 1953, Trans. ASME, 75, pp. 789–799)
R. O. Bullock
Trans. ASME. July 1953, 75(5): 799–800. doi: https://doi.org/10.1115/1.4015438
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Topics: Axial flow , Flow (Dynamics) , Turbomachinery
Discussion: “A Practical Solution of a Three-Dimensional Flow Problem of Axial-Flow Turbomachinery” (Smith, Jr., L. H., Traugott, S. C., and Wislicenus, G. F., 1953, Trans. ASME, 75, pp. 789–799)
Walter Doll
Trans. ASME. July 1953, 75(5): 800. doi: https://doi.org/10.1115/1.4015439
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Topics: Axial flow , Flow (Dynamics) , Turbomachinery
Discussion: “A Practical Solution of a Three-Dimensional Flow Problem of Axial-Flow Turbomachinery” (Smith, Jr., L. H., Traugott, S. C., and Wislicenus, G. F., 1953, Trans. ASME, 75, pp. 789–799)
K. E. Fransson
Trans. ASME. July 1953, 75(5): 801. doi: https://doi.org/10.1115/1.4015440
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Topics: Axial flow , Flow (Dynamics) , Turbomachinery
Discussion: “A Practical Solution of a Three-Dimensional Flow Problem of Axial-Flow Turbomachinery” (Smith, Jr., L. H., Traugott, S. C., and Wislicenus, G. F., 1953, Trans. ASME, 75, pp. 789–799)
J. W. McBride
Trans. ASME. July 1953, 75(5): 801. doi: https://doi.org/10.1115/1.4015441
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Topics: Axial flow , Flow (Dynamics) , Turbomachinery
Discussion: “A Practical Solution of a Three-Dimensional Flow Problem of Axial-Flow Turbomachinery” (Smith, Jr., L. H., Traugott, S. C., and Wislicenus, G. F., 1953, Trans. ASME, 75, pp. 789–799)
R. W. Pinnes
Trans. ASME. July 1953, 75(5): 801–802. doi: https://doi.org/10.1115/1.4015442
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Topics: Axial flow , Flow (Dynamics) , Turbomachinery
Discussion: “A Practical Solution of a Three-Dimensional Flow Problem of Axial-Flow Turbomachinery” (Smith, Jr., L. H., Traugott, S. C., and Wislicenus, G. F., 1953, Trans. ASME, 75, pp. 789–799)
C. H. Wu
Trans. ASME. July 1953, 75(5): 802–803. doi: https://doi.org/10.1115/1.4015443
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Topics: Axial flow , Flow (Dynamics) , Turbomachinery
Closure to “Discussions of ‘A Practical Solution of a Three-Dimensional Flow Problem of Axial-Flow Turbomachinery’” (1953, Trans. ASME, 75, pp. 799–803)
L. H. Smith, Jr., S. C. Traugott, G. F. Wislicenus
Trans. ASME. July 1953, 75(5): 803. doi: https://doi.org/10.1115/1.4015444
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Topics: Axial flow , Flow (Dynamics)
Discussion: “Some NACA Research on Centrifugal Compressors” (Johnsen, I. A., and Ginsburg, Ambrose, 1953, Trans. ASME, 75, pp. 805–815)
E. M. Knoernschild
Trans. ASME. July 1953, 75(5): 815. doi: https://doi.org/10.1115/1.4015446
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Topics: Compressors
Discussion: “Some NACA Research on Centrifugal Compressors” (Johnsen, I. A., and Ginsburg, Ambrose, 1953, Trans. ASME, 75, pp. 805–815)
C. F. Koenig
Trans. ASME. July 1953, 75(5): 815–816. doi: https://doi.org/10.1115/1.4015447
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Topics: Compressors
Discussion: “Some NACA Research on Centrifugal Compressors” (Johnsen, I. A., and Ginsburg, Ambrose, 1953, Trans. ASME, 75, pp. 805–815)
G. F. Wislicenus
Trans. ASME. July 1953, 75(5): 816–817. doi: https://doi.org/10.1115/1.4015448
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Topics: Compressors
Closure to “Discussions of ‘Some NACA Research on Centrifugal Compressors’” (1953, Trans. ASME, 75, pp. 815–817)
I. A. Johnsen, Ambrose Ginsburg
Trans. ASME. July 1953, 75(5): 817. doi: https://doi.org/10.1115/1.4015449
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Discussion: “Theoretical Consideration of Retarded Control” (Cohen, G. H., and Coon, G. A., 1953, Trans. ASME, 75, pp. 827–834)
Y. Takahashi
Trans. ASME. July 1953, 75(5): 834. doi: https://doi.org/10.1115/1.4015452
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Closure to “Discussion of ‘Theoretical Consideration of Retarded Control’” (1953, Trans. ASME, 75, p. 834)
G. H. Cohen, G. A. Coon
Trans. ASME. July 1953, 75(5): 834. doi: https://doi.org/10.1115/1.4015453
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Discussion: “Optimum Three-Mode Controller Settings for Automatic Start-Up” (Pessen, D. W., 1953, Trans. ASME, 75, pp. 843–848)
N. B. Nichols
Trans. ASME. July 1953, 75(5): 848–849. doi: https://doi.org/10.1115/1.4015456
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Topics: Control equipment
Closure to “Discussion of ‘Optimum Three-Mode Controller Settings for Automatic Start-Up’” (1953, Trans. ASME, 75, pp. 848–849)
D. W. Pessen
Trans. ASME. July 1953, 75(5): 849. doi: https://doi.org/10.1115/1.4015457
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Topics: Control equipment
Discussion: “Effect of Stress Amplitude on Statistical Variability in Fatigue Life of 75S-T6 Aluminum Alloy” (Sinclair, G. M., and Dolan, T. J., 1953, Trans. ASME, 75, pp. 867–870)
G. E. Dieter, G. T. Horne
Trans. ASME. July 1953, 75(5): 870–871. doi: https://doi.org/10.1115/1.4015461
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Topics: Aluminum alloys , Fatigue life , Stress
Discussion: “Effect of Stress Amplitude on Statistical Variability in Fatigue Life of 75S-T6 Aluminum Alloy” (Sinclair, G. M., and Dolan, T. J., 1953, Trans. ASME, 75, pp. 867–870)
R. E. Peterson
Trans. ASME. July 1953, 75(5): 871. doi: https://doi.org/10.1115/1.4015462
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Topics: Aluminum alloys , Fatigue life , Stress
Discussion: “Effect of Stress Amplitude on Statistical Variability in Fatigue Life of 75S-T6 Aluminum Alloy” (Sinclair, G. M., and Dolan, T. J., 1953, Trans. ASME, 75, pp. 867–870)
F. B. Stulen
Trans. ASME. July 1953, 75(5): 871. doi: https://doi.org/10.1115/1.4015463
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Topics: Aluminum alloys , Fatigue life , Stress
Discussion: “Effect of Stress Amplitude on Statistical Variability in Fatigue Life of 75S-T6 Aluminum Alloy” (Sinclair, G. M., and Dolan, T. J., 1953, Trans. ASME, 75, pp. 867–870)
R. T. Schwartz
Trans. ASME. July 1953, 75(5): 871. doi: https://doi.org/10.1115/1.4015464
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Topics: Aluminum alloys , Fatigue life , Stress
Closure to “Discussions of ‘Effect of Stress Amplitude on Statistical Variability in Fatigue Life of 75S-T6 Aluminum Alloy’” (1953, Trans. ASME, 75, pp. 870–871)
G. M. Sinclair, T. J. Dolan
Trans. ASME. July 1953, 75(5): 872. doi: https://doi.org/10.1115/1.4015465
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Topics: Aluminum , Fatigue life , Stress
Discussion: “Grinding and Lapping Stresses in Manganese Oil-Hardening Tool Steel” (Letner, H. R., and Snyder, H. J., 1953, Trans. ASME, 75, pp. 873–880)
E. K. Henriksen
Trans. ASME. July 1953, 75(5): 881. doi: https://doi.org/10.1115/1.4015467
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Topics: Grinding , Hardening , Stress , Tool steel
Closure to “Discussion of ‘Grinding and Lapping Stresses in Manganese Oil-Hardening Tool Steel’” (1953, Trans. ASME, 75, p. 881)
H. R. Letner, H. J. Snyder
Trans. ASME. July 1953, 75(5): 882. doi: https://doi.org/10.1115/1.4015468
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Topics: Grinding , Hardening , Stress
Discussion: “Workpiece and Surface Temperatures in Milling” (Schmidt, A. O., 1953, Trans. ASME, 75, pp. 883–889)
W. W. Gilbert
Trans. ASME. July 1953, 75(5): 889. doi: https://doi.org/10.1115/1.4015470
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Topics: Milling , Temperature
Discussion: “Workpiece and Surface Temperatures in Milling” (Schmidt, A. O., 1953, Trans. ASME, 75, pp. 883–889)
V. Paschkis
Trans. ASME. July 1953, 75(5): 889. doi: https://doi.org/10.1115/1.4015471
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Topics: Milling , Temperature
Discussion: “Workpiece and Surface Temperatures in Milling” (Schmidt, A. O., 1953, Trans. ASME, 75, pp. 883–889)
K. J. Trigger, B. T. Chao
Trans. ASME. July 1953, 75(5): 889–890. doi: https://doi.org/10.1115/1.4015472
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Topics: Milling , Temperature
Closure to “Discussions of ‘Workpiece and Surface Temperatures in Milling’” (1953, Trans. ASME, 75, pp. 889–890)
A. O. Schmidt
Trans. ASME. July 1953, 75(5): 890. doi: https://doi.org/10.1115/1.4015473
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Topics: Temperature
Discussion: “Stress-Crazing of Plastics” (Sauer, J. A., and Hsiao, C. C., 1953, Trans. ASME, 75, pp. 895–901)
A. G. H. Dietz
Trans. ASME. July 1953, 75(5): 901. doi: https://doi.org/10.1115/1.4015476
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Topics: Plastics , Stress
Closure to “Discussion of ‘Stress-Crazing of Plastics’” (1953, Trans. ASME, 75, p. 901)
J. A. Sauer, C. C. Hsiao
Trans. ASME. July 1953, 75(5): 901–902. doi: https://doi.org/10.1115/1.4015477
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Topics: Stress
Discussion: “Some Design Considerations for Injection-Molding Heating Chambers” (Gilmore, G. D., and Thayer, G. B., 1953, Trans. ASME, 75, pp. 903–906)
W. R. McLain
Trans. ASME. July 1953, 75(5): 906–907. doi: https://doi.org/10.1115/1.4015479
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Topics: Design , Heating , Injection molding
Closure to “Discussion of ‘Some Design Considerations for Injection-Molding Heating Chambers’” (1953, Trans. ASME, 75, pp. 906–907)
G. D. Gilmore, G. B. Thayer
Trans. ASME. July 1953, 75(5): 907. doi: https://doi.org/10.1115/1.4015480
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Topics: Design , Heating , Injection molding
Discussion: “Furnace Heat Absorption in a Spreader-Stoker-Fired Steam Generator: 1 and 2” (Myers, J. W., Corey, R. C., Feeley, Jr., F. G., and Miller, E. C., 1953, Trans. ASME, 75, pp. 909–923 and pp. 925–940)
LeRoy F. Deming
Trans. ASME. July 1953, 75(5): 940. doi: https://doi.org/10.1115/1.4015483
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Topics: Absorption , Boilers , Furnaces , Heat
Discussion: “Furnace Heat Absorption in a Spreader-Stoker-Fired Steam Generator: 1 and 2” (Myers, J. W., Corey, R. C., Feeley, Jr., F. G., and Miller, E. C., 1953, Trans. ASME, 75, pp. 909–923 and pp. 925–940)
R. B. Engdahl, W. C. Holton
Trans. ASME. July 1953, 75(5): 941. doi: https://doi.org/10.1115/1.4015484
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Topics: Absorption , Boilers , Furnaces , Heat
Closure to “Discussions of ‘Furnace Heat Absorption in a Spreader-Stoker-Fired Steam Generator: 1 and 2’” (1953, Trans. ASME, 75, pp. 940–941)
J. W. Myers, R. C. Corey, F. G. Feeley, Jr., E. C. Miller
Trans. ASME. July 1953, 75(5): 941–942. doi: https://doi.org/10.1115/1.4015485
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Topics: Absorption , Boilers , Furnaces , Heat
Discussion: “The Venturi as a Meter for Gas-Solids Mixtures” (Farbar, Leonard, 1953, Trans. ASME, 75, pp. 943–950)
J. D. Hummell, R. B. Engdahl, H. M. Carlson, P. M. Frazier
Trans. ASME. July 1953, 75(5): 950–951. doi: https://doi.org/10.1115/1.4015487
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Topics: Solids , Venturi tubes
Closure to “Discussion of ‘The Venturi as a Meter for Gas-Solids Mixtures’” (1953, Trans. ASME, 75, pp. 950–951)
Leonard Farbar
Trans. ASME. July 1953, 75(5): 951. doi: https://doi.org/10.1115/1.4015488
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Topics: Solids , Venturi tubes
Discussion: “Experimental Evaluation of Expansion Factors for Steam” (Murdock, J. W., and Foltz, C. J., 1953, Trans. ASME, 75, pp. 953–959)
K. J. Berrian
Trans. ASME. July 1953, 75(5): 959. doi: https://doi.org/10.1115/1.4015490
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Topics: Steam
Closure to “Discussion of ‘Experimental Evaluation of Expansion Factors for Steam’” (1953, Trans. ASME, 75, p. 959)
J. W. Murdock, C. J. Foltz
Trans. ASME. July 1953, 75(5): 959. doi: https://doi.org/10.1115/1.4015491
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Discussion: “Measurement of Pulsating Flow With Propeller and Turbine-Type Meters” (Dowdell, R. B., and Liddle, Jr., A. H., 1953, Trans. ASME, 75, pp. 961–966)
E. G. Chilton
Trans. ASME. July 1953, 75(5): 966. doi: https://doi.org/10.1115/1.4015493
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Topics: Propellers , Pulsatile flow , Turbines
Discussion: “Measurement of Pulsating Flow With Propeller and Turbine-Type Meters” (Dowdell, R. B., and Liddle, Jr., A. H., 1953, Trans. ASME, 75, pp. 961–966)
A. R. Deschere
Trans. ASME. July 1953, 75(5): 966. doi: https://doi.org/10.1115/1.4015494
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Topics: Propellers , Pulsatile flow , Turbines
Discussion: “Measurement of Pulsating Flow With Propeller and Turbine-Type Meters” (Dowdell, R. B., and Liddle, Jr., A. H., 1953, Trans. ASME, 75, pp. 961–966)
V. P. Head
Trans. ASME. July 1953, 75(5): 966–967. doi: https://doi.org/10.1115/1.4015495
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Topics: Propellers , Pulsatile flow , Turbines
Closure to “Discussions of ‘Measurement of Pulsating Flow With Propeller and Turbine-Type Meters’” (1953, Trans. ASME, 75, pp. 966–967)
R. B. Dowdell, A. H. Liddle, Jr.
Trans. ASME. July 1953, 75(5): 967–968. doi: https://doi.org/10.1115/1.4015496
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Topics: Propellers , Pulsatile flow , Turbines
Discussion: “The Pitot-Venturi Flow Element Water Service Report” (Stoll, H. W., 1953, Trans. ASME, 75, pp. 969–974)
E. J. Lindahl
Trans. ASME. July 1953, 75(5): 974. doi: https://doi.org/10.1115/1.4015498
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Topics: Flow (Dynamics) , Venturi tubes , Water
Closure to “Discussion of ‘The Pitot-Venturi Flow Element Water Service Report’” (1953, Trans. ASME, 75, p. 974)
H. W. Stoll
Trans. ASME. July 1953, 75(5): 974. doi: https://doi.org/10.1115/1.4015499
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Topics: Flow (Dynamics) , Venturi tubes , Water
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