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Issues

Volume 75, Issue 7
October 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

Design of Shrink Fits
P. R. Paslay, R. Plunkett
Trans. ASME. October 1953, 75(7): 1199–1202. doi: https://doi.org/10.1115/1.4015580
View articletitled, Design of Shrink Fits
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Topics: Design , Press fits , Steel
An Investigation of Cemented Tungsten Carbide as Bearing Material
J. S. Kozacka, H. A. Erickson, H. W. Highriter, A. F. Gabriel
Trans. ASME. October 1953, 75(7): 1203–1209. doi: https://doi.org/10.1115/1.4015581
View articletitled, An Investigation of Cemented Tungsten Carbide as Bearing Material
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Topics: Bearings , Tungsten , Cutting tools , Grinding , Lubricating oils , Lubrication , Metal stamping , Metalworking lubricants , Pressure , Stress
Some Vibration Effects on Surfaces Produced by Turret Lathes
P. T. Eisele, R. F. Griffin
Trans. ASME. October 1953, 75(7): 1211–1217. doi: https://doi.org/10.1115/1.4015582
View articletitled, Some Vibration Effects on Surfaces Produced by Turret Lathes
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Topics: Vibration , Finishes , Motors , Poles (Building) , Surface roughness , Theoretical analysis
The Effects of Cold-Drawing, Microstructure, and Thermal Treatments on the Machinability and Mechanical Properties of Carbon and Alloy Steel
Ford E. Dreves
Trans. ASME. October 1953, 75(7): 1219–1232. doi: https://doi.org/10.1115/1.4015583
View articletitled, The Effects of Cold-Drawing, Microstructure, and Thermal Treatments on the Machinability and Mechanical Properties of Carbon and Alloy Steel
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Topics: Alloy steel , Carbon , Machinability , Mechanical properties , Steel , Engineers , Machining , Metal cutting , Alloys , Economics
Temperature and Gas-Analysis Surveys in the Combustion Zone of a Gas-Fired Gas-Turbine Combustor
K. L. Rieke
Trans. ASME. October 1953, 75(7): 1233–1239. doi: https://doi.org/10.1115/1.4015584
View articletitled, Temperature and Gas-Analysis Surveys in the Combustion Zone of a Gas-Fired Gas-Turbine Combustor
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Topics: Combustion , Combustion chambers , Gas turbines , Temperature , Fuels , Design
Aerodynamic Design of Efficient Two-Dimensional Channels
J. D. Stanitz
Trans. ASME. October 1953, 75(7): 1241–1254. doi: https://doi.org/10.1115/1.4015587
View articletitled, Aerodynamic Design of Efficient Two-Dimensional Channels
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Topics: Design , Boundary layers , Design methodology , Separation (Technology) , Approximation , Diffusers , Flow (Dynamics) , Incompressible fluids , Turbulence
Cavitation Tests on Hydrofoils in Cascade
Fukusaburō Numachi
Trans. ASME. October 1953, 75(7): 1257–1268. doi: https://doi.org/10.1115/1.4015590
View articletitled, Cavitation Tests on Hydrofoils in Cascade
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Topics: Cascades (Fluid dynamics) , Cavitation , Hydrofoil , Tunnels
Calculation of Transpiration-Cooled Gas-Turbine Blades
J. N. B. Livingood, E. R. G. Eckert
Trans. ASME. October 1953, 75(7): 1271–1278. doi: https://doi.org/10.1115/1.4015593
View articletitled, Calculation of Transpiration-Cooled Gas-Turbine Blades
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Topics: Blades , Gas turbines , Transpiration , Flow (Dynamics) , Coolants , Flat plates , Approximation , Laminar flow , Shapes , Turbulence
The Mechanism of Disintegration of Liquid Sheets
J. L. York, H. E. Stubbs, M. R. Tek
Trans. ASME. October 1953, 75(7): 1279–1286. doi: https://doi.org/10.1115/1.4015594
View articletitled, The Mechanism of Disintegration of Liquid Sheets
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Topics: Aerodynamics , Experimental analysis , Fluid-dynamic forces , Fluids , Sprays , Stability , Surface tension , Waves
New Aspects of Natural-Convection Heat Transfer: Preliminary Study of Effect of Frictional Heating
Simon Ostrach
Trans. ASME. October 1953, 75(7): 1287–1289. doi: https://doi.org/10.1115/1.4015595
View articletitled, New Aspects of Natural-Convection Heat Transfer: Preliminary Study of Effect of Frictional Heating
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Topics: Heat transfer , Heating , Natural convection , Flow (Dynamics) , Compression , Plates (structures) , Temperature distribution
Local Heat-Transfer Coefficients on Surface of an Elliptical Cylinder, Axis Ratio 1:3, in a High-Speed Air Stream
R. M. Drake, Jr., R. A. Seban, D. L. Doughty, S. Levy
Trans. ASME. October 1953, 75(7): 1291–1301. doi: https://doi.org/10.1115/1.4015597
View articletitled, Local Heat-Transfer Coefficients on Surface of an Elliptical Cylinder, Axis Ratio 1:3, in a High-Speed Air Stream
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Topics: Cylinders , Heat transfer , Flow (Dynamics) , Reynolds number , Wind tunnels
Combustion of a Low-Volatility Fuel in a Turbojet Combustion Chamber—Effects of Fuel Vaporization
V. V. Holmes, A. J. Pahnke, O. A. Uyehara, P. S. Myers
Trans. ASME. October 1953, 75(7): 1303–1310. doi: https://doi.org/10.1115/1.4015600
View articletitled, Combustion of a Low-Volatility Fuel in a Turbojet Combustion Chamber—Effects of Fuel Vaporization
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Topics: Combustion , Combustion chambers , Fuels , Turbojets , Volatility , Flames , Temperature , Diesel
Investigation of Flame Temperatures in a Single-Cylinder Spark-Ignition Engine
J. H. Potter, R. B. Dillaway
Trans. ASME. October 1953, 75(7): 1311–1321. doi: https://doi.org/10.1115/1.4015603
View articletitled, Investigation of Flame Temperatures in a Single-Cylinder Spark-Ignition Engine
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Topics: Cylinders , Flames , Spark-ignition engine , Temperature , Engines , Calibration , Combustion , Cycles , Pressure , Sodium
On the Evaluation of the Accuracy of the Coefficient of Discharge in the Basic Flow-Measurement Equation
A. L. Jorissen
Trans. ASME. October 1953, 75(7): 1323–1325. doi: https://doi.org/10.1115/1.4015604
View articletitled, On the Evaluation of the Accuracy of the Coefficient of Discharge in the Basic Flow-Measurement Equation
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Topics: Discharge coefficient , Errors , Flow (Dynamics) , Flow measurement , Fluid dynamics , Nozzles , Plates (structures) , Pressure , Venturi tubes
Some Notes on Dust-Sampling Equipment and Technique
W. C. Holton, E. J. Schulz
Trans. ASME. October 1953, 75(7): 1327–1331. doi: https://doi.org/10.1115/1.4015607
View articletitled, Some Notes on Dust-Sampling Equipment and Technique
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Topics: Dust , Coal , Combustion , Flue gases , Locomotives
An Investigation of the Burning Characteristics of Pulverized Cinders
J. M. Allen
Trans. ASME. October 1953, 75(7): 1333–1337. doi: https://doi.org/10.1115/1.4015608
View articletitled, An Investigation of the Burning Characteristics of Pulverized Cinders
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Topics: Combustion , Furnaces , Locomotives , Design , Particulate matter , Temperature
Oil Whip of Flexible Rotors
A. C. Hagg, P. C. Warner
Trans. ASME. October 1953, 75(7): 1339–1344. doi: https://doi.org/10.1115/1.4015609
View articletitled, Oil Whip of Flexible Rotors
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Topics: Rotors , Bearings , Stability , Machine components , Machinery , Vibration
European Practice With Sulzer Monotube Steam Generators
Jacques Gastpar
Trans. ASME. October 1953, 75(7): 1345–1361. doi: https://doi.org/10.1115/1.4015610
View articletitled, European Practice With Sulzer Monotube Steam Generators
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Topics: Boilers , Public utilities , Temperature
Investigation of Gravity Reinjection of Fly Ash on a Spreader-Stoker-Fired Boiler Unit
C. H. Morrow, W. C. Holton, H. L. Wagner
Trans. ASME. October 1953, 75(7): 1363–1370. doi: https://doi.org/10.1115/1.4015614
View articletitled, Investigation of Gravity Reinjection of Fly Ash on a Spreader-Stoker-Fired Boiler Unit
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Topics: Boilers , Fly ash , Gravity (Force) , Engineers , Coal , Combustion , Dust , Fuels , Furnaces , Power stations
Approaching the Control Problem of the Automatic Chemical or Petroleum Plant
M. V. Long, E. G. Holzmann
Trans. ASME. October 1953, 75(7): 1373–1380. doi: https://doi.org/10.1115/1.4015621
View articletitled, Approaching the Control Problem of the Automatic Chemical or Petroleum Plant
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Topics: Petroleum , Computer control , Computers , Control equipment , Control systems , Design , Economics , Petroleum industry , Process control systems , Turbines
An Analysis of the Dynamics of Hydraulic Servomotors Under Inertia Loads and the Application to Design
Harold Gold, E. W. Otto, V. L. Ransom
Trans. ASME. October 1953, 75(7): 1383–1390. doi: https://doi.org/10.1115/1.4015625
View articletitled, An Analysis of the Dynamics of Hydraulic Servomotors Under Inertia Loads and the Application to Design
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Topics: Design , Dynamics (Mechanics) , Inertia (Mechanics) , Servomotors , Stress , Dynamic response , Flight , Power steering , Valves
Dynamic Operation of a Force-Compensated Hydraulic Throttling Valve
J. L. Bower, F. B. Tuteur
Trans. ASME. October 1953, 75(7): 1395–1405. doi: https://doi.org/10.1115/1.4015630
View articletitled, Dynamic Operation of a Force-Compensated Hydraulic Throttling Valve
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Topics: Valves , Feedback , Circuits , Hydraulic control , Stress , Symmetry (Physics)

Discussions and Closures

Discussion: “Temperature and Gas-Analysis Surveys in the Combustion Zone of a Gas-Fired Gas-Turbine Combustor” (Rieke, K. L., 1953, Trans. ASME, 75, pp. 1233–1239)
J. H. Potter
Trans. ASME. October 1953, 75(7): 1239. doi: https://doi.org/10.1115/1.4015585
View articletitled, Discussion: “Temperature and Gas-Analysis Surveys in the Combustion Zone of a Gas-Fired Gas-Turbine Combustor” (Rieke, K. L., 1953, Trans. ASME, 75, pp. 1233–1239)
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Topics: Combustion , Combustion chambers , Gas turbines , Temperature
Closure to “Discussion of ‘Temperature and Gas-Analysis Surveys in the Combustion Zone of a Gas-Fired Gas-Turbine Combustor’” (1953, Trans. ASME, 75, p. 1239)
K. L. Rieke
Trans. ASME. October 1953, 75(7): 1239. doi: https://doi.org/10.1115/1.4015586
View articletitled, Closure to “Discussion of ‘Temperature and Gas-Analysis Surveys in the Combustion Zone of a Gas-Fired Gas-Turbine Combustor’” (1953, Trans. ASME, 75, p. 1239)
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Topics: Combustion , Gas turbines , Temperature
Discussion: “Aerodynamic Design of Efficient Two-Dimensional Channels” (Stanitz, J. D., 1953, Trans. ASME, 75, pp. 1241–1254)
E. M. Knoernschild
Trans. ASME. October 1953, 75(7): 1254–1255. doi: https://doi.org/10.1115/1.4015588
View articletitled, Discussion: “Aerodynamic Design of Efficient Two-Dimensional Channels” (Stanitz, J. D., 1953, Trans. ASME, 75, pp. 1241–1254)
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Topics: Design
Closure to “Discussion of ‘Aerodynamic Design of Efficient Two-Dimensional Channels’” (1953, Trans. ASME, 75, pp. 1254–1255)
J. D. Stanitz
Trans. ASME. October 1953, 75(7): 1255. doi: https://doi.org/10.1115/1.4015589
View articletitled, Closure to “Discussion of ‘Aerodynamic Design of Efficient Two-Dimensional Channels’” (1953, Trans. ASME, 75, pp. 1254–1255)
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Topics: Design
Discussion: “Cavitation Tests on Hydrofoils in Cascade” (Numachi, Fukusaburō, 1953, Trans. ASME, 75, pp. 1257–1268)
W. J. Rheingans
Trans. ASME. October 1953, 75(7): 1269. doi: https://doi.org/10.1115/1.4015591
View articletitled, Discussion: “Cavitation Tests on Hydrofoils in Cascade” (Numachi, Fukusaburō, 1953, Trans. ASME, 75, pp. 1257–1268)
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Topics: Cascades (Fluid dynamics) , Cavitation , Hydrofoil
Closure to “Discussion of ‘Cavitation Tests on Hydrofoils in Cascade’” (1953, Trans. ASME, 75, p. 1269)
Fukusaburō Numachi
Trans. ASME. October 1953, 75(7): 1269. doi: https://doi.org/10.1115/1.4015592
View articletitled, Closure to “Discussion of ‘Cavitation Tests on Hydrofoils in Cascade’” (1953, Trans. ASME, 75, p. 1269)
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Topics: Cavitation , Hydrofoil
Discussion: “New Aspects of Natural-Convection Heat Transfer: Preliminary Study of Effect of Frictional Heating” (Ostrach, Simon, 1953, Trans. ASME, 75, pp. 1287–1289)
J. C. Matheson
Trans. ASME. October 1953, 75(7): 1289–1290. doi: https://doi.org/10.1115/1.4015596
View articletitled, Discussion: “New Aspects of Natural-Convection Heat Transfer: Preliminary Study of Effect of Frictional Heating” (Ostrach, Simon, 1953, Trans. ASME, 75, pp. 1287–1289)
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Topics: Heat transfer , Heating , Natural convection
Discussion: “Local Heat-Transfer Coefficients on Surface of an Elliptical Cylinder, Axis Ratio 1:3, in a High-Speed Air Stream” (Drake, Jr., R. M., Seban, R. A., Doughty, D. L., and Levy, S., 1953, Trans. ASME, 75, pp. 1291–1301)
Myron Tribus
Trans. ASME. October 1953, 75(7): 1301. doi: https://doi.org/10.1115/1.4015598
View articletitled, Discussion: “Local Heat-Transfer Coefficients on Surface of an Elliptical Cylinder, Axis Ratio 1:3, in a High-Speed Air Stream” (Drake, Jr., R. M., Seban, R. A., Doughty, D. L., and Levy, S., 1953, Trans. ASME, 75, pp. 1291–1301)
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Topics: Cylinders , Heat transfer
Closure to “Discussion of ‘Local Heat-Transfer Coefficients on Surface of an Elliptical Cylinder, Axis Ratio 1:3, in a High-Speed Air Stream’” (1953, Trans. ASME, 75, p. 1301)
R. M. Drake, Jr., R. A. Seban, D. L. Doughty, S. Levy
Trans. ASME. October 1953, 75(7): 1301–1302. doi: https://doi.org/10.1115/1.4015599
View articletitled, Closure to “Discussion of ‘Local Heat-Transfer Coefficients on Surface of an Elliptical Cylinder, Axis Ratio 1:3, in a High-Speed Air Stream’” (1953, Trans. ASME, 75, p. 1301)
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Topics: Cylinders , Heat transfer
Discussion: “Combustion of a Low-Volatility Fuel in a Turbojet Combustion Chamber—Effects of Fuel Vaporization” (Holmes, V. V., Pahnke, A. J., Uyehara, O. A., and Myers, P. S., 1953, Trans. ASME, 75, pp. 1303–1310)
H. I. Wilson
Trans. ASME. October 1953, 75(7): 1310. doi: https://doi.org/10.1115/1.4015601
View articletitled, Discussion: “Combustion of a Low-Volatility Fuel in a Turbojet Combustion Chamber—Effects of Fuel Vaporization” (Holmes, V. V., Pahnke, A. J., Uyehara, O. A., and Myers, P. S., 1953, Trans. ASME, 75, pp. 1303–1310)
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Topics: Combustion , Combustion chambers , Fuels , Turbojets , Volatility
Closure to “Discussion of ‘Combustion of a Low-Volatility Fuel in a Turbojet Combustion Chamber—Effects of Fuel Vaporization’” (1953, Trans. ASME, 75, p. 1310)
V. V. Holmes, A. J. Pahnke, O. A. Uyehara, P. S. Myers
Trans. ASME. October 1953, 75(7): 1310. doi: https://doi.org/10.1115/1.4015602
View articletitled, Closure to “Discussion of ‘Combustion of a Low-Volatility Fuel in a Turbojet Combustion Chamber—Effects of Fuel Vaporization’” (1953, Trans. ASME, 75, p. 1310)
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Topics: Combustion , Combustion chambers , Fuels , Turbojets , Volatility
Discussion: “On the Evaluation of the Accuracy of the Coefficient of Discharge in the Basic Flow-Measurement Equation” (Jorissen, A. L., 1953, Trans. ASME, 75, pp. 1323–1325)
L. K. Spink
Trans. ASME. October 1953, 75(7): 1325–1326. doi: https://doi.org/10.1115/1.4015605
View articletitled, Discussion: “On the Evaluation of the Accuracy of the Coefficient of Discharge in the Basic Flow-Measurement Equation” (Jorissen, A. L., 1953, Trans. ASME, 75, pp. 1323–1325)
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Topics: Discharge coefficient , Flow measurement
Closure to “Discussion of ‘On the Evaluation of the Accuracy of the Coefficient of Discharge in the Basic Flow-Measurement Equation’” (1953, Trans. ASME, 75, pp. 1325–1326)
A. L. Jorissen
Trans. ASME. October 1953, 75(7): 1326. doi: https://doi.org/10.1115/1.4015606
View articletitled, Closure to “Discussion of ‘On the Evaluation of the Accuracy of the Coefficient of Discharge in the Basic Flow-Measurement Equation’” (1953, Trans. ASME, 75, pp. 1325–1326)
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Topics: Discharge coefficient , Flow measurement
Discussion: “European Practice With Sulzer Monotube Steam Generators” (Gastpar, Jacques, 1953, Trans. ASME, 75, pp. 1345–1361)
F. P. Fairchild
Trans. ASME. October 1953, 75(7): 1361. doi: https://doi.org/10.1115/1.4015611
View articletitled, Discussion: “European Practice With Sulzer Monotube Steam Generators” (Gastpar, Jacques, 1953, Trans. ASME, 75, pp. 1345–1361)
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Topics: Boilers
Discussion: “European Practice With Sulzer Monotube Steam Generators” (Gastpar, Jacques, 1953, Trans. ASME, 75, pp. 1345–1361)
Philip Sporn
Trans. ASME. October 1953, 75(7): 1361. doi: https://doi.org/10.1115/1.4015612
View articletitled, Discussion: “European Practice With Sulzer Monotube Steam Generators” (Gastpar, Jacques, 1953, Trans. ASME, 75, pp. 1345–1361)
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Topics: Boilers
Closure to “Discussions of ‘European Practice With Sulzer Monotube Steam Generators’” (1953, Trans. ASME, 75, p. 1361)
Jacques Gastpar
Trans. ASME. October 1953, 75(7): 1362. doi: https://doi.org/10.1115/1.4015613
View articletitled, Closure to “Discussions of ‘European Practice With Sulzer Monotube Steam Generators’” (1953, Trans. ASME, 75, p. 1361)
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Topics: Steam
Discussion: “Investigation of Gravity Reinjection of Fly Ash on a Spreader-Stoker-Fired Boiler Unit” (Morrow, C. H., Holton, W. C., and Wagner, H. L., 1953, Trans. ASME, 75, pp. 1363–1370)
H. C. Carroll
Trans. ASME. October 1953, 75(7): 1370. doi: https://doi.org/10.1115/1.4015615
View articletitled, Discussion: “Investigation of Gravity Reinjection of Fly Ash on a Spreader-Stoker-Fired Boiler Unit” (Morrow, C. H., Holton, W. C., and Wagner, H. L., 1953, Trans. ASME, 75, pp. 1363–1370)
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Topics: Boilers , Fly ash , Gravity (Force)
Discussion: “Investigation of Gravity Reinjection of Fly Ash on a Spreader-Stoker-Fired Boiler Unit” (Morrow, C. H., Holton, W. C., and Wagner, H. L., 1953, Trans. ASME, 75, pp. 1363–1370)
P. S. Dickey
Trans. ASME. October 1953, 75(7): 1370–1371. doi: https://doi.org/10.1115/1.4015616
View articletitled, Discussion: “Investigation of Gravity Reinjection of Fly Ash on a Spreader-Stoker-Fired Boiler Unit” (Morrow, C. H., Holton, W. C., and Wagner, H. L., 1953, Trans. ASME, 75, pp. 1363–1370)
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Topics: Boilers , Fly ash , Gravity (Force)
Discussion: “Investigation of Gravity Reinjection of Fly Ash on a Spreader-Stoker-Fired Boiler Unit” (Morrow, C. H., Holton, W. C., and Wagner, H. L., 1953, Trans. ASME, 75, pp. 1363–1370)
L. F. Lang
Trans. ASME. October 1953, 75(7): 1371. doi: https://doi.org/10.1115/1.4015617
View articletitled, Discussion: “Investigation of Gravity Reinjection of Fly Ash on a Spreader-Stoker-Fired Boiler Unit” (Morrow, C. H., Holton, W. C., and Wagner, H. L., 1953, Trans. ASME, 75, pp. 1363–1370)
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Topics: Boilers , Fly ash , Gravity (Force)
Discussion: “Investigation of Gravity Reinjection of Fly Ash on a Spreader-Stoker-Fired Boiler Unit” (Morrow, C. H., Holton, W. C., and Wagner, H. L., 1953, Trans. ASME, 75, pp. 1363–1370)
A. A. Orning
Trans. ASME. October 1953, 75(7): 1371. doi: https://doi.org/10.1115/1.4015618
View articletitled, Discussion: “Investigation of Gravity Reinjection of Fly Ash on a Spreader-Stoker-Fired Boiler Unit” (Morrow, C. H., Holton, W. C., and Wagner, H. L., 1953, Trans. ASME, 75, pp. 1363–1370)
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Topics: Boilers , Fly ash , Gravity (Force)
Discussion: “Investigation of Gravity Reinjection of Fly Ash on a Spreader-Stoker-Fired Boiler Unit” (Morrow, C. H., Holton, W. C., and Wagner, H. L., 1953, Trans. ASME, 75, pp. 1363–1370)
J. B. Saxe
Trans. ASME. October 1953, 75(7): 1371. doi: https://doi.org/10.1115/1.4015619
View articletitled, Discussion: “Investigation of Gravity Reinjection of Fly Ash on a Spreader-Stoker-Fired Boiler Unit” (Morrow, C. H., Holton, W. C., and Wagner, H. L., 1953, Trans. ASME, 75, pp. 1363–1370)
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Topics: Boilers , Fly ash , Gravity (Force)
Closure to “Discussions of ‘Investigation of Gravity Reinjection of Fly Ash on a Spreader-Stoker-Fired Boiler Unit’” (1953, Trans. ASME, 75, pp. 1370–1371)
C. H. Morrow, W. C. Holton, H. L. Wagner
Trans. ASME. October 1953, 75(7): 1371–1372. doi: https://doi.org/10.1115/1.4015620
View articletitled, Closure to “Discussions of ‘Investigation of Gravity Reinjection of Fly Ash on a Spreader-Stoker-Fired Boiler Unit’” (1953, Trans. ASME, 75, pp. 1370–1371)
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Topics: Boilers , Fly ash , Gravity (Force)
Discussion: “Approaching the Control Problem of the Automatic Chemical or Petroleum Plant” (Long, M. V., and Holzmann, E. G., 1953, Trans. ASME, 75, pp. 1373–1380)
Rufus Oldenburger
Trans. ASME. October 1953, 75(7): 1380. doi: https://doi.org/10.1115/1.4015622
View articletitled, Discussion: “Approaching the Control Problem of the Automatic Chemical or Petroleum Plant” (Long, M. V., and Holzmann, E. G., 1953, Trans. ASME, 75, pp. 1373–1380)
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Topics: Petroleum
Discussion: “Approaching the Control Problem of the Automatic Chemical or Petroleum Plant” (Long, M. V., and Holzmann, E. G., 1953, Trans. ASME, 75, pp. 1373–1380)
V. V. Tivy
Trans. ASME. October 1953, 75(7): 1380–1381. doi: https://doi.org/10.1115/1.4015623
View articletitled, Discussion: “Approaching the Control Problem of the Automatic Chemical or Petroleum Plant” (Long, M. V., and Holzmann, E. G., 1953, Trans. ASME, 75, pp. 1373–1380)
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Topics: Petroleum
Closure to “Discussions of ‘Approaching the Control Problem of the Automatic Chemical or Petroleum Plant’” (1953, Trans. ASME, 75, pp. 1380–1381)
M. V. Long, E. G. Holzmann
Trans. ASME. October 1953, 75(7): 1381. doi: https://doi.org/10.1115/1.4015624
View articletitled, Closure to “Discussions of ‘Approaching the Control Problem of the Automatic Chemical or Petroleum Plant’” (1953, Trans. ASME, 75, pp. 1380–1381)
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Topics: Petroleum
Discussion: “An Analysis of the Dynamics of Hydraulic Servomotors Under Inertia Loads and the Application to Design” (Gold, Harold, Otto, E. W., and Ransom, V. L., 1953, Trans. ASME, 75, pp. 1383–1390)
M. E. Campbell
Trans. ASME. October 1953, 75(7): 1390–1392. doi: https://doi.org/10.1115/1.4015626
View articletitled, Discussion: “An Analysis of the Dynamics of Hydraulic Servomotors Under Inertia Loads and the Application to Design” (Gold, Harold, Otto, E. W., and Ransom, V. L., 1953, Trans. ASME, 75, pp. 1383–1390)
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Topics: Design , Dynamics (Mechanics) , Inertia (Mechanics) , Servomotors , Stress
Discussion: “An Analysis of the Dynamics of Hydraulic Servomotors Under Inertia Loads and the Application to Design” (Gold, Harold, Otto, E. W., and Ransom, V. L., 1953, Trans. ASME, 75, pp. 1383–1390)
S. Z. Dushkes
Trans. ASME. October 1953, 75(7): 1392–1393. doi: https://doi.org/10.1115/1.4015627
View articletitled, Discussion: “An Analysis of the Dynamics of Hydraulic Servomotors Under Inertia Loads and the Application to Design” (Gold, Harold, Otto, E. W., and Ransom, V. L., 1953, Trans. ASME, 75, pp. 1383–1390)
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Topics: Design , Dynamics (Mechanics) , Inertia (Mechanics) , Servomotors , Stress
Discussion: “An Analysis of the Dynamics of Hydraulic Servomotors Under Inertia Loads and the Application to Design” (Gold, Harold, Otto, E. W., and Ransom, V. L., 1953, Trans. ASME, 75, pp. 1383–1390)
R. Oldenburger
Trans. ASME. October 1953, 75(7): 1393–1394. doi: https://doi.org/10.1115/1.4015628
View articletitled, Discussion: “An Analysis of the Dynamics of Hydraulic Servomotors Under Inertia Loads and the Application to Design” (Gold, Harold, Otto, E. W., and Ransom, V. L., 1953, Trans. ASME, 75, pp. 1383–1390)
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Topics: Design , Dynamics (Mechanics) , Inertia (Mechanics) , Servomotors , Stress
Closure to “Discussions of ‘An Analysis of the Dynamics of Hydraulic Servomotors Under Inertia Loads and the Application to Design’” (1953, Trans. ASME, 75, pp. 1390–1394)
Harold Gold, E. W. Otto, V. L. Ransom
Trans. ASME. October 1953, 75(7): 1394. doi: https://doi.org/10.1115/1.4015629
View articletitled, Closure to “Discussions of ‘An Analysis of the Dynamics of Hydraulic Servomotors Under Inertia Loads and the Application to Design’” (1953, Trans. ASME, 75, pp. 1390–1394)
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Topics: Dynamics (Mechanics) , Inertia (Mechanics) , Servomotors , Stress
Discussion: “Dynamic Operation of a Force-Compensated Hydraulic Throttling Valve” (Bower, J. L., and Tuteur, F. B., 1953, Trans. ASME, 75, pp. 1395–1405)
R. Oldenburger
Trans. ASME. October 1953, 75(7): 1405. doi: https://doi.org/10.1115/1.4015631
View articletitled, Discussion: “Dynamic Operation of a Force-Compensated Hydraulic Throttling Valve” (Bower, J. L., and Tuteur, F. B., 1953, Trans. ASME, 75, pp. 1395–1405)
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Topics: Valves
Closure to “Discussion of ‘Dynamic Operation of a Force-Compensated Hydraulic Throttling Valve’” (1953, Trans. ASME, 75, p. 1405)
J. L. Bower, F. B. Tuteur
Trans. ASME. October 1953, 75(7): 1405–1406. doi: https://doi.org/10.1115/1.4015632
View articletitled, Closure to “Discussion of ‘Dynamic Operation of a Force-Compensated Hydraulic Throttling Valve’” (1953, Trans. ASME, 75, p. 1405)
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