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Volume 80, Issue 2
February 1958
This article was originally published in
Transactions of the American Society of Mechanical Engineers
Issue Cover
ISSN 0097-6822
In this Issue

Research Papers

Designing Thermocouples for Response Rate
R. J. Moffat
Trans. ASME. February 1958, 80(2): 257–262. doi: https://doi.org/10.1115/1.4012333
View articletitled, Designing Thermocouples for Response Rate
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Topics: Design , Thermocouples , Junctions , Engines , Probes , Temperature , Engineers , Flow (Dynamics) , Geometry , Manufacturing
Analysis of Incompressible, Nonviscous Blade-to-Blade Flow in Rotating Blade Rows
J. J. Kramer
Trans. ASME. February 1958, 80(2): 263–272. doi: https://doi.org/10.1115/1.4012337
View articletitled, Analysis of Incompressible, Nonviscous Blade-to-Blade Flow in Rotating Blade Rows
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Topics: Blades , Flow (Dynamics) , Rotating blades , Impellers , Weight (Mass)
Two-Phase Flow in Rough Tubes
D. Chisholm, A. D. K. Laird
Trans. ASME. February 1958, 80(2): 276–284. doi: https://doi.org/10.1115/1.4012342
View articletitled, Two-Phase Flow in Rough Tubes
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Topics: Surface roughness , Two-phase flow , Flow (Dynamics) , Pressure drop , Water
Laminar Flow Over an Enclosed Rotating Disk
S. L. Soo
Trans. ASME. February 1958, 80(2): 287–294. doi: https://doi.org/10.1115/1.4012346
View articletitled, Laminar Flow Over an Enclosed Rotating Disk
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Topics: Laminar flow , Rotating disks , Disks , Inertia (Mechanics) , Approximation , Centrifugal force , Cooling , Fluids , Friction , Inflow
Influence of Various Grinding Conditions Upon Residual Stresses in Titanium
P. A. Clorite, E. C. Reed
Trans. ASME. February 1958, 80(2): 297–300. doi: https://doi.org/10.1115/1.4012351
View articletitled, Influence of Various Grinding Conditions Upon Residual Stresses in Titanium
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Topics: Grinding , Residual stresses , Titanium , Stress , Fluids , Titanium alloys , Wheels
A Tool-Work-Thermocouple Compensating Circuit
K. J. Trigger, R. K. Campbell, B. T. Chao
Trans. ASME. February 1958, 80(2): 302–306. doi: https://doi.org/10.1115/1.4012354
View articletitled, A Tool-Work-Thermocouple Compensating Circuit
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Topics: Circuits , Thermocouples , Cutting , Flow (Dynamics) , Reliability , Temperature
On the Theoretical Analysis of a Dynamic Thermocouple
E. W. Gaylord, W. F. Hughes, F. C. Appl, F. F. Ling
Trans. ASME. February 1958, 80(2): 307–310. doi: https://doi.org/10.1115/1.4012357
View articletitled, On the Theoretical Analysis of a Dynamic Thermocouple
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Topics: Theoretical analysis , Thermocouples , Junctions , Temperature , Boundary-value problems , Laplace equations , Metals
Temperature Distribution at Tool-Chip and Tool-Work Interface in Metal Cutting
B. T. Chao, K. J. Trigger
Trans. ASME. February 1958, 80(2): 311–318. doi: https://doi.org/10.1115/1.4012358
View articletitled, Temperature Distribution at Tool-Chip and Tool-Work Interface in Metal Cutting
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Topics: Metal cutting , Temperature distribution , Temperature , Wear , Computation
Transient Interface Temperatures in Plain Peripheral Milling
D. E. McFeron, B. T. Chao
Trans. ASME. February 1958, 80(2): 321–329. doi: https://doi.org/10.1115/1.4012362
View articletitled, Transient Interface Temperatures in Plain Peripheral Milling
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Topics: Milling , Temperature , Transients (Dynamics) , Cutting , Flow (Dynamics) , Heat
Experience With Chromium-Molybdenum-Vanadium Steel in High-Temperature Bolting Applications
R. G. Matters, C. D. Dickinson
Trans. ASME. February 1958, 80(2): 330–334. doi: https://doi.org/10.1115/1.4012363
View articletitled, Experience With Chromium-Molybdenum-Vanadium Steel in High-Temperature Bolting Applications
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Topics: High temperature , Molybdenum , Steel , ASTM International , Failure , Temperature , Turbines , Relaxation (Physics) , Steam
The Heat-Balance Integral and Its Application to Problems Involving a Change of Phase
T. R. Goodman
Trans. ASME. February 1958, 80(2): 335–342. doi: https://doi.org/10.1115/1.4012364
View articletitled, The Heat-Balance Integral and Its Application to Problems Involving a Change of Phase
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Topics: Heat , Heat flux , Heat conduction , Radiation (Physics) , Temperature
The Biotechnical Problem of the Human Body as a Heat Exchanger
L. P. Herrington
Trans. ASME. February 1958, 80(2): 343–345. doi: https://doi.org/10.1115/1.4012365
View articletitled, The Biotechnical Problem of the Human Body as a Heat Exchanger
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Topics: Heat exchangers , Heat , Biotechnology , Computation , Engineering design , Engineering disciplines , Engineers , Heat losses , Heat transfer , Machinery
Transient Free Convection From a Vertical Flat Plate
Robert Siegel
Trans. ASME. February 1958, 80(2): 347–357. doi: https://doi.org/10.1115/1.4012369
View articletitled, Transient Free Convection From a Vertical Flat Plate
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Topics: Flat plates , Natural convection , Transients (Dynamics) , Temperature , Boundary-value problems , Differential equations , Flow (Dynamics) , Fluids , Heat flux , Heat transfer
Heat Transfer Between a Flat Plate and a Fluid Containing Heat Sources
I. R. Whiteman
Trans. ASME. February 1958, 80(2): 360–362. doi: https://doi.org/10.1115/1.4012373
View articletitled, Heat Transfer Between a Flat Plate and a Fluid Containing Heat Sources
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Topics: Flat plates , Fluids , Heat , Heat transfer , Heat flux , Temperature , Approximation
On the Stagnation of Natural-Convection Flows in Closed-End Tubes
Simon Ostrach, P. R. Thornton
Trans. ASME. February 1958, 80(2): 363–366. doi: https://doi.org/10.1115/1.4012374
View articletitled, On the Stagnation of Natural-Convection Flows in Closed-End Tubes
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Topics: Flow (Dynamics) , Natural convection , Heat transfer , Temperature profiles , Wall temperature
A Model Method for Determining Geometric Factors in Solid-to-Solid Radiation Heat Transfer
P. L. Tea, Jr., H. D. Baker
Trans. ASME. February 1958, 80(2): 367–372. doi: https://doi.org/10.1115/1.4012375
View articletitled, A Model Method for Determining Geometric Factors in Solid-to-Solid Radiation Heat Transfer
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Topics: Heat transfer , Radiation (Physics) , Design , Errors , Sensors , Shapes
Measurements of the Total Absorptivity for Solar Radiation of Several Engineering Materials
Richard C. Birkebak, J. P. Hartnett
Trans. ASME. February 1958, 80(2): 373–378. doi: https://doi.org/10.1115/1.4012376
View articletitled, Measurements of the Total Absorptivity for Solar Radiation of Several Engineering Materials
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Topics: Porous materials , Solar energy , Solar radiation , Transpiration , Vehicles
Similar Solutions for Free Convection From a Nonisothermal Vertical Plate
E. M. Sparrow, J. L. Gregg
Trans. ASME. February 1958, 80(2): 379–386. doi: https://doi.org/10.1115/1.4012377
View articletitled, Similar Solutions for Free Convection From a Nonisothermal Vertical Plate
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Topics: Natural convection , Vertical plates , Temperature , Boundary layers , Flat plates , Gases , Heat transfer , Mathematical analysis
Laminar Mass and Heat Transfer from Ellipsoidal Surfaces of Fineness Ratio 4 in Axisymmetrical Flow
Shao-Yen Ko, H. H. Sogin
Trans. ASME. February 1958, 80(2): 387–390. doi: https://doi.org/10.1115/1.4012378
View articletitled, Laminar Mass and Heat Transfer from Ellipsoidal Surfaces of Fineness Ratio 4 in Axisymmetrical Flow
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Topics: Flow (Dynamics) , Heat transfer , Approximation , Boundary layers , Calibration , Cylinders , Heat , Reynolds number , Shapes , Wedges
Investigation of Burnout Heat Flux in Rectangular Channels at 2000 Psia
H. S. Jacket, J. D. Roarty, J. E. Zerbe
Trans. ASME. February 1958, 80(2): 391–400. doi: https://doi.org/10.1115/1.4012379
View articletitled, Investigation of Burnout Heat Flux in Rectangular Channels at 2000 Psia
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Topics: Heat flux , Boiling , Design , Subcooling , Surfaces (Materials)
Properties of Friction Materials I—Experiments on Variables Affecting Noise
P. R. Basford, S. B. Twiss
Trans. ASME. February 1958, 80(2): 402–406. doi: https://doi.org/10.1115/1.4012382
View articletitled, Properties of Friction Materials I—Experiments on Variables Affecting Noise
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Topics: Brakes , Elasticity , Friction , Friction materials , Iron , Linings (Textiles) , Noise (Sound) , Polishing , Sliding friction , Stick-slip
Properties of Friction Materials II—Theory of Vibration in Brakes
P. R. Basford, S. B. Twiss
Trans. ASME. February 1958, 80(2): 407–410. doi: https://doi.org/10.1115/1.4012383
View articletitled, Properties of Friction Materials II—Theory of Vibration in Brakes
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Topics: Brakes , Friction materials , Vibration , Linings (Textiles) , Friction , Noise (Sound) , Automobiles , Elastic constants , Resonance , Roads
Self-Excited Vibrations of an Air-Lubricated Thrust Bearing
L. Licht, D. D. Fuller, B. Sternlicht
Trans. ASME. February 1958, 80(2): 411–414. doi: https://doi.org/10.1115/1.4012384
View articletitled, Self-Excited Vibrations of an Air-Lubricated Thrust Bearing
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Topics: Thrust bearings , Vibration
A Simple Formula for Determining the Position of Maximum Slider Velocity in a Slider-Crank Mechanism
Ching-U Ip, L. C. Price
Trans. ASME. February 1958, 80(2): 415–417. doi: https://doi.org/10.1115/1.4012385
View articletitled, A Simple Formula for Determining the Position of Maximum Slider Velocity in a Slider-Crank Mechanism
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Topics: Errors
Some Methods for the Structural Design of Wings for Application Either at Ambient or Elevated Temperatures
J. W. Semonian, R. F. Crawford
Trans. ASME. February 1958, 80(2): 419–426. doi: https://doi.org/10.1115/1.4012391
View articletitled, Some Methods for the Structural Design of Wings for Application Either at Ambient or Elevated Temperatures
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Topics: Structural design , Temperature , Wings , Aircraft , Design
Analysis of the Transient Response of Nonlinear Control Systems
P. E. W. Grensted
Trans. ASME. February 1958, 80(2): 427–432. doi: https://doi.org/10.1115/1.4012392
View articletitled, Analysis of the Transient Response of Nonlinear Control Systems
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Topics: Nonlinear control systems , Transients (Dynamics) , Coulombs , Friction , Oscillations , Servomechanisms
Algebraic Approach to Design of Automatic Controls
Rufus Oldenburger
Trans. ASME. February 1958, 80(2): 433–441. doi: https://doi.org/10.1115/1.4012393
View articletitled, Algebraic Approach to Design of Automatic Controls
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Topics: Algebra , Automatic control , Design , Transients (Dynamics) , Governors , Differential equations , Engineers , Frequency response , Gas turbines
Statistical Treatment of Sampled-Data Control Systems for Actual Random Inputs
Masahiro Mori
Trans. ASME. February 1958, 80(2): 444–452. doi: https://doi.org/10.1115/1.4012397
View articletitled, Statistical Treatment of Sampled-Data Control Systems for Actual Random Inputs
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Topics: Control systems , Signals , Time series
Optimization of Time-Varying Linear Systems With Nonstationary Inputs
Marvin Shinbrot
Trans. ASME. February 1958, 80(2): 457–462. doi: https://doi.org/10.1115/1.4012402
View articletitled, Optimization of Time-Varying Linear Systems With Nonstationary Inputs
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Topics: Linear systems , Optimization , Integral equations
Design of Multivariable Optimum Filters
J. H. Westcott
Trans. ASME. February 1958, 80(2): 463–467. doi: https://doi.org/10.1115/1.4012403
View articletitled, Design of Multivariable Optimum Filters
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Topics: Design , Filters , Errors
Design of a Self-Optimizing Control System
R. E. Kalman
Trans. ASME. February 1958, 80(2): 468–477. doi: https://doi.org/10.1115/1.4012407
View articletitled, Design of a Self-Optimizing Control System
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Topics: Control systems , Design , Machinery , Computers , Aircraft , Automatic control , Chemical processes , Complex systems
Correlation Functions and Noise Patterns in Control Analysis
Herman Thal-Larsen
Trans. ASME. February 1958, 80(2): 479–485. doi: https://doi.org/10.1115/1.4012410
View articletitled, Correlation Functions and Noise Patterns in Control Analysis
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Topics: Noise (Sound) , Control systems
An Analog Study of a High-Speed Recording Servomechanism
J. W. Schwartzenberg
Trans. ASME. February 1958, 80(2): 490–495. doi: https://doi.org/10.1115/1.4012415
View articletitled, An Analog Study of a High-Speed Recording Servomechanism
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Topics: Servomechanisms , Computers , Damping , Errors , Frequency response , Signals , Simulation
Dynamic Study of an Experimental Pneumatic Process-Pressure Transmitter
E. F. Hochschild
Trans. ASME. February 1958, 80(2): 497–504. doi: https://doi.org/10.1115/1.4012418
View articletitled, Dynamic Study of an Experimental Pneumatic Process-Pressure Transmitter
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Topics: Pressure , Dynamic analysis , Frequency response , Instrumentation , Mechanical admittance , Simulation , Stress , Theorems (Mathematics) , Tubing
The Time and Temperature Dependence of Thermal Stresses in Cylindrical Reactor Fuel Elements
K. R. Merckx
Trans. ASME. February 1958, 80(2): 505–509. doi: https://doi.org/10.1115/1.4012419
View articletitled, The Time and Temperature Dependence of Thermal Stresses in Cylindrical Reactor Fuel Elements
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Topics: Nuclear fuels , Temperature effects , Thermal stresses , Energy generation , Steady state , Stress , Temperature , Uranium , Fuels , Relaxation (Physics)

Discussions and Closures

Discussion: “Designing Thermocouples for Response Rate” (Moffat, R. J., 1958, Trans. ASME, 80, pp. 257–262)
G. E. Glawe
Trans. ASME. February 1958, 80(2): 262. doi: https://doi.org/10.1115/1.4012334
View articletitled, Discussion: “Designing Thermocouples for Response Rate” (Moffat, R. J., 1958, Trans. ASME, 80, pp. 257–262)
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Topics: Design , Thermocouples
Discussion: “Designing Thermocouples for Response Rate” (Moffat, R. J., 1958, Trans. ASME, 80, pp. 257–262)
J. H. Weaving
Trans. ASME. February 1958, 80(2): 262. doi: https://doi.org/10.1115/1.4012335
View articletitled, Discussion: “Designing Thermocouples for Response Rate” (Moffat, R. J., 1958, Trans. ASME, 80, pp. 257–262)
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Topics: Design , Thermocouples
Closure to “Discussions of ‘Designing Thermocouples for Response Rate’” (1958, Trans. ASME, 80, p. 262)
R. J. Moffat
Trans. ASME. February 1958, 80(2): 262. doi: https://doi.org/10.1115/1.4012336
View articletitled, Closure to “Discussions of ‘Designing Thermocouples for Response Rate’” (1958, Trans. ASME, 80, p. 262)
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Topics: Design , Thermocouples
Discussion: “Analysis of Incompressible, Nonviscous Blade-to-Blade Flow in Rotating Blade Rows” (Kramer, J. J., 1958, Trans. ASME, 80, pp. 263–272)
G. O. Ellis
Trans. ASME. February 1958, 80(2): 272–274. doi: https://doi.org/10.1115/1.4012338
View articletitled, Discussion: “Analysis of Incompressible, Nonviscous Blade-to-Blade Flow in Rotating Blade Rows” (Kramer, J. J., 1958, Trans. ASME, 80, pp. 263–272)
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Topics: Blades , Flow (Dynamics) , Rotating blades
Discussion: “Analysis of Incompressible, Nonviscous Blade-to-Blade Flow in Rotating Blade Rows” (Kramer, J. J., 1958, Trans. ASME, 80, pp. 263–272)
J. T. Hamrick
Trans. ASME. February 1958, 80(2): 274. doi: https://doi.org/10.1115/1.4012339
View articletitled, Discussion: “Analysis of Incompressible, Nonviscous Blade-to-Blade Flow in Rotating Blade Rows” (Kramer, J. J., 1958, Trans. ASME, 80, pp. 263–272)
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Topics: Blades , Flow (Dynamics) , Rotating blades
Discussion: “Analysis of Incompressible, Nonviscous Blade-to-Blade Flow in Rotating Blade Rows” (Kramer, J. J., 1958, Trans. ASME, 80, pp. 263–272)
F. S. Weinig
Trans. ASME. February 1958, 80(2): 274–275. doi: https://doi.org/10.1115/1.4012340
View articletitled, Discussion: “Analysis of Incompressible, Nonviscous Blade-to-Blade Flow in Rotating Blade Rows” (Kramer, J. J., 1958, Trans. ASME, 80, pp. 263–272)
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Topics: Blades , Flow (Dynamics) , Rotating blades
Closure to “Discussions of ‘Analysis of Incompressible, Nonviscous Blade-to-Blade Flow in Rotating Blade Rows’” (1958, Trans. ASME, 80, pp. 272–275)
J. J. Kramer
Trans. ASME. February 1958, 80(2): 275. doi: https://doi.org/10.1115/1.4012341
View articletitled, Closure to “Discussions of ‘Analysis of Incompressible, Nonviscous Blade-to-Blade Flow in Rotating Blade Rows’” (1958, Trans. ASME, 80, pp. 272–275)
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Topics: Blades , Flow (Dynamics) , Rotating blades
Discussion: “Two-Phase Flow in Rough Tubes” (Chisholm, D., and Laird, A. D. K., 1958, Trans. ASME, 80, pp. 276–284)
Ovid Baker
Trans. ASME. February 1958, 80(2): 284–285. doi: https://doi.org/10.1115/1.4012343
View articletitled, Discussion: “Two-Phase Flow in Rough Tubes” (Chisholm, D., and Laird, A. D. K., 1958, Trans. ASME, 80, pp. 276–284)
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Topics: Surface roughness , Two-phase flow
Discussion: “Two-Phase Flow in Rough Tubes” (Chisholm, D., and Laird, A. D. K., 1958, Trans. ASME, 80, pp. 276–284)
H. S. Isbin
Trans. ASME. February 1958, 80(2): 285–286. doi: https://doi.org/10.1115/1.4012344
View articletitled, Discussion: “Two-Phase Flow in Rough Tubes” (Chisholm, D., and Laird, A. D. K., 1958, Trans. ASME, 80, pp. 276–284)
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Topics: Surface roughness , Two-phase flow
Closure to “Discussions of ‘Two-Phase Flow in Rough Tubes’” (1958, Trans. ASME, 80, pp. 284–286)
D. Chisholm, A. D. K. Laird
Trans. ASME. February 1958, 80(2): 286. doi: https://doi.org/10.1115/1.4012345
View articletitled, Closure to “Discussions of ‘Two-Phase Flow in Rough Tubes’” (1958, Trans. ASME, 80, pp. 284–286)
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Topics: Surface roughness , Two-phase flow
Discussion: “Laminar Flow Over an Enclosed Rotating Disk” (Soo, S. L., 1958, Trans. ASME, 80, pp. 287–294)
R. E. Nece, J. W. Daily
Trans. ASME. February 1958, 80(2): 294–295. doi: https://doi.org/10.1115/1.4012347
View articletitled, Discussion: “Laminar Flow Over an Enclosed Rotating Disk” (Soo, S. L., 1958, Trans. ASME, 80, pp. 287–294)
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Topics: Laminar flow , Rotating disks
Discussion: “Laminar Flow Over an Enclosed Rotating Disk” (Soo, S. L., 1958, Trans. ASME, 80, pp. 287–294)
R. C. Dean, Jr.
Trans. ASME. February 1958, 80(2): 295. doi: https://doi.org/10.1115/1.4012348
View articletitled, Discussion: “Laminar Flow Over an Enclosed Rotating Disk” (Soo, S. L., 1958, Trans. ASME, 80, pp. 287–294)
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Topics: Laminar flow , Rotating disks
Discussion: “Laminar Flow Over an Enclosed Rotating Disk” (Soo, S. L., 1958, Trans. ASME, 80, pp. 287–294)
M. A. Santalo, W. A. Wilson
Trans. ASME. February 1958, 80(2): 295–296. doi: https://doi.org/10.1115/1.4012349
View articletitled, Discussion: “Laminar Flow Over an Enclosed Rotating Disk” (Soo, S. L., 1958, Trans. ASME, 80, pp. 287–294)
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Topics: Laminar flow , Rotating disks
Closure to “Discussions of ‘Laminar Flow Over an Enclosed Rotating Disk’” (1958, Trans. ASME, 80, pp. 294–296)
S. L. Soo
Trans. ASME. February 1958, 80(2): 296. doi: https://doi.org/10.1115/1.4012350
View articletitled, Closure to “Discussions of ‘Laminar Flow Over an Enclosed Rotating Disk’” (1958, Trans. ASME, 80, pp. 294–296)
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Topics: Laminar flow
Discussion: “Influence of Various Grinding Conditions Upon Residual Stresses in Titanium” (Clorite, P. A., and Reed, E. C., 1958, Trans. ASME, 80, pp. 297–300)
L. P. Tarasov
Trans. ASME. February 1958, 80(2): 300–301. doi: https://doi.org/10.1115/1.4012352
View articletitled, Discussion: “Influence of Various Grinding Conditions Upon Residual Stresses in Titanium” (Clorite, P. A., and Reed, E. C., 1958, Trans. ASME, 80, pp. 297–300)
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Topics: Grinding , Residual stresses , Titanium
Closure to “Discussion of ‘Influence of Various Grinding Conditions Upon Residual Stresses in Titanium’” (1958, Trans. ASME, 80, pp. 300–301)
P. A. Clorite, E. C. Reed
Trans. ASME. February 1958, 80(2): 301. doi: https://doi.org/10.1115/1.4012353
View articletitled, Closure to “Discussion of ‘Influence of Various Grinding Conditions Upon Residual Stresses in Titanium’” (1958, Trans. ASME, 80, pp. 300–301)
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Topics: Grinding , Residual stresses
Discussion: “A Tool-Work-Thermocouple Compensating Circuit” (Trigger, K. J., Campbell, R. K., and Chao, B. T., 1958, Trans. ASME, 80, pp. 302–306)
E. G. Loewen
Trans. ASME. February 1958, 80(2): 306. doi: https://doi.org/10.1115/1.4012355
View articletitled, Discussion: “A Tool-Work-Thermocouple Compensating Circuit” (Trigger, K. J., Campbell, R. K., and Chao, B. T., 1958, Trans. ASME, 80, pp. 302–306)
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Topics: Circuits , Thermocouples
Closure to “Discussion of ‘A Tool-Work-Thermocouple Compensating Circuit’” (1958, Trans. ASME, 80, p. 306)
K. J. Trigger, R. K. Campbell, B. T. Chao
Trans. ASME. February 1958, 80(2): 306. doi: https://doi.org/10.1115/1.4012356
View articletitled, Closure to “Discussion of ‘A Tool-Work-Thermocouple Compensating Circuit’” (1958, Trans. ASME, 80, p. 306)
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Topics: Thermocouples
Discussion: “Temperature Distribution at Tool-Chip and Tool-Work Interface in Metal Cutting” (Chao, B. T., and Trigger, K. J., 1958, Trans. ASME, 80, pp. 311–318)
H. Blok
Trans. ASME. February 1958, 80(2): 318–319. doi: https://doi.org/10.1115/1.4012359
View articletitled, Discussion: “Temperature Distribution at Tool-Chip and Tool-Work Interface in Metal Cutting” (Chao, B. T., and Trigger, K. J., 1958, Trans. ASME, 80, pp. 311–318)
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Topics: Metal cutting , Temperature distribution
Discussion: “Temperature Distribution at Tool-Chip and Tool-Work Interface in Metal Cutting” (Chao, B. T., and Trigger, K. J., 1958, Trans. ASME, 80, pp. 311–318)
E. G. Loewen
Trans. ASME. February 1958, 80(2): 319. doi: https://doi.org/10.1115/1.4012360
View articletitled, Discussion: “Temperature Distribution at Tool-Chip and Tool-Work Interface in Metal Cutting” (Chao, B. T., and Trigger, K. J., 1958, Trans. ASME, 80, pp. 311–318)
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Topics: Metal cutting , Temperature distribution
Closure to “Discussions of ‘Temperature Distribution at Tool-Chip and Tool-Work Interface in Metal Cutting’” (1958, Trans. ASME, 80, pp. 318–319)
B. T. Chao, K. J. Trigger
Trans. ASME. February 1958, 80(2): 319–320. doi: https://doi.org/10.1115/1.4012361
View articletitled, Closure to “Discussions of ‘Temperature Distribution at Tool-Chip and Tool-Work Interface in Metal Cutting’” (1958, Trans. ASME, 80, pp. 318–319)
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Topics: Metals , Temperature distribution
Discussion: “The Biotechnical Problem of the Human Body as a Heat Exchanger” (Herrington, L. P., 1958, Trans. ASME, 80, pp. 343–345)
E. F. Adolph
Trans. ASME. February 1958, 80(2): 346. doi: https://doi.org/10.1115/1.4012366
View articletitled, Discussion: “The Biotechnical Problem of the Human Body as a Heat Exchanger” (Herrington, L. P., 1958, Trans. ASME, 80, pp. 343–345)
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Topics: Heat exchangers
Discussion: “The Biotechnical Problem of the Human Body as a Heat Exchanger” (Herrington, L. P., 1958, Trans. ASME, 80, pp. 343–345)
A. H. Woodcock
Trans. ASME. February 1958, 80(2): 346. doi: https://doi.org/10.1115/1.4012367
View articletitled, Discussion: “The Biotechnical Problem of the Human Body as a Heat Exchanger” (Herrington, L. P., 1958, Trans. ASME, 80, pp. 343–345)
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Topics: Heat exchangers
Closure to “Discussions of ‘The Biotechnical Problem of the Human Body as a Heat Exchanger’” (1958, Trans. ASME, 80, p. 346)
L. P. Herrington
Trans. ASME. February 1958, 80(2): 346. doi: https://doi.org/10.1115/1.4012368
View articletitled, Closure to “Discussions of ‘The Biotechnical Problem of the Human Body as a Heat Exchanger’” (1958, Trans. ASME, 80, p. 346)
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Topics: Heat
Discussion: “Transient Free Convection From a Vertical Flat Plate” (Siegel, Robert, 1958, Trans. ASME, 80, pp. 347–357)
R. J. Goldstein
Trans. ASME. February 1958, 80(2): 358–359. doi: https://doi.org/10.1115/1.4012370
View articletitled, Discussion: “Transient Free Convection From a Vertical Flat Plate” (Siegel, Robert, 1958, Trans. ASME, 80, pp. 347–357)
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Topics: Flat plates , Natural convection , Transients (Dynamics)
Discussion: “Transient Free Convection From a Vertical Flat Plate” (Siegel, Robert, 1958, Trans. ASME, 80, pp. 347–357)
E. M. Sparrow
Trans. ASME. February 1958, 80(2): 359. doi: https://doi.org/10.1115/1.4012371
View articletitled, Discussion: “Transient Free Convection From a Vertical Flat Plate” (Siegel, Robert, 1958, Trans. ASME, 80, pp. 347–357)
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Topics: Flat plates , Natural convection , Transients (Dynamics)
Closure to “Discussions of ‘Transient Free Convection From a Vertical Flat Plate’” (1958, Trans. ASME, 80, pp. 358–359)
Robert Siegel
Trans. ASME. February 1958, 80(2): 359. doi: https://doi.org/10.1115/1.4012372
View articletitled, Closure to “Discussions of ‘Transient Free Convection From a Vertical Flat Plate’” (1958, Trans. ASME, 80, pp. 358–359)
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Topics: Natural convection , Transients (Dynamics)
Discussion: “Investigation of Burnout Heat Flux in Rectangular Channels at 2000 Psia” (Jacket, H. S., Roarty, J. D., and Zerbe, J. E., 1958, Trans. ASME, 80, pp. 391–400)
L. Bernath
Trans. ASME. February 1958, 80(2): 400–401. doi: https://doi.org/10.1115/1.4012380
View articletitled, Discussion: “Investigation of Burnout Heat Flux in Rectangular Channels at 2000 Psia” (Jacket, H. S., Roarty, J. D., and Zerbe, J. E., 1958, Trans. ASME, 80, pp. 391–400)
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Topics: Heat flux
Closure to “Discussion of ‘Investigation of Burnout Heat Flux in Rectangular Channels at 2000 Psia’” (1958, Trans. ASME, 80, pp. 400–401)
H. S. Jacket, J. D. Roarty, J. E. Zerbe
Trans. ASME. February 1958, 80(2): 401. doi: https://doi.org/10.1115/1.4012381
View articletitled, Closure to “Discussion of ‘Investigation of Burnout Heat Flux in Rectangular Channels at 2000 Psia’” (1958, Trans. ASME, 80, pp. 400–401)
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Topics: Heat flux
Discussion: “A Simple Formula for Determining the Position of Maximum Slider Velocity in a Slider-Crank Mechanism” (Ip, Ching-U, and Price, L. C., 1958, Trans. ASME, 80, pp. 415–417)
A. E. Richard de Jonge
Trans. ASME. February 1958, 80(2): 417. doi: https://doi.org/10.1115/1.4012386
View articletitled, Discussion: “A Simple Formula for Determining the Position of Maximum Slider Velocity in a Slider-Crank Mechanism” (Ip, Ching-U, and Price, L. C., 1958, Trans. ASME, 80, pp. 415–417)
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Discussion: “A Simple Formula for Determining the Position of Maximum Slider Velocity in a Slider-Crank Mechanism” (Ip, Ching-U, and Price, L. C., 1958, Trans. ASME, 80, pp. 415–417)
Ferdinand Freudenstein
Trans. ASME. February 1958, 80(2): 417. doi: https://doi.org/10.1115/1.4012387
View articletitled, Discussion: “A Simple Formula for Determining the Position of Maximum Slider Velocity in a Slider-Crank Mechanism” (Ip, Ching-U, and Price, L. C., 1958, Trans. ASME, 80, pp. 415–417)
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Discussion: “A Simple Formula for Determining the Position of Maximum Slider Velocity in a Slider-Crank Mechanism” (Ip, Ching-U, and Price, L. C., 1958, Trans. ASME, 80, pp. 415–417)
W. F. Vogel
Trans. ASME. February 1958, 80(2): 417–418. doi: https://doi.org/10.1115/1.4012388
View articletitled, Discussion: “A Simple Formula for Determining the Position of Maximum Slider Velocity in a Slider-Crank Mechanism” (Ip, Ching-U, and Price, L. C., 1958, Trans. ASME, 80, pp. 415–417)
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Discussion: “A Simple Formula for Determining the Position of Maximum Slider Velocity in a Slider-Crank Mechanism” (Ip, Ching-U, and Price, L. C., 1958, Trans. ASME, 80, pp. 415–417)
W. C. Triftshouser, A. S. Hall
Trans. ASME. February 1958, 80(2): 418. doi: https://doi.org/10.1115/1.4012389
View articletitled, Discussion: “A Simple Formula for Determining the Position of Maximum Slider Velocity in a Slider-Crank Mechanism” (Ip, Ching-U, and Price, L. C., 1958, Trans. ASME, 80, pp. 415–417)
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Closure to “Discussions of ‘A Simple Formula for Determining the Position of Maximum Slider Velocity in a Slider-Crank Mechanism’” (1958, Trans. ASME, 80, pp. 417–418)
Ching-U Ip, L. C. Price
Trans. ASME. February 1958, 80(2): 418. doi: https://doi.org/10.1115/1.4012390
View articletitled, Closure to “Discussions of ‘A Simple Formula for Determining the Position of Maximum Slider Velocity in a Slider-Crank Mechanism’” (1958, Trans. ASME, 80, pp. 417–418)
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Discussion: “Algebraic Approach to Design of Automatic Controls” (Oldenburger, Rufus, 1958, Trans. ASME, 80, pp. 433–441)
Harold Chestnut
Trans. ASME. February 1958, 80(2): 441. doi: https://doi.org/10.1115/1.4012394
View articletitled, Discussion: “Algebraic Approach to Design of Automatic Controls” (Oldenburger, Rufus, 1958, Trans. ASME, 80, pp. 433–441)
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Topics: Algebra , Automatic control , Design
Discussion: “Algebraic Approach to Design of Automatic Controls” (Oldenburger, Rufus, 1958, Trans. ASME, 80, pp. 433–441)
Kan Chen
Trans. ASME. February 1958, 80(2): 442–443. doi: https://doi.org/10.1115/1.4012395
View articletitled, Discussion: “Algebraic Approach to Design of Automatic Controls” (Oldenburger, Rufus, 1958, Trans. ASME, 80, pp. 433–441)
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Topics: Algebra , Automatic control , Design
Closure to “Discussions of ‘Algebraic Approach to Design of Automatic Controls’” (1958, Trans. ASME, 80, pp. 441–443)
Rufus Oldenburger
Trans. ASME. February 1958, 80(2): 443. doi: https://doi.org/10.1115/1.4012396
View articletitled, Closure to “Discussions of ‘Algebraic Approach to Design of Automatic Controls’” (1958, Trans. ASME, 80, pp. 441–443)
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Topics: Algebra , Design
Discussion: “Statistical Treatment of Sampled-Data Control Systems for Actual Random Inputs” (Mori, Masahiro, 1958, Trans. ASME, 80, pp. 444–452)
G. F. Franklin
Trans. ASME. February 1958, 80(2): 452–453. doi: https://doi.org/10.1115/1.4012398
View articletitled, Discussion: “Statistical Treatment of Sampled-Data Control Systems for Actual Random Inputs” (Mori, Masahiro, 1958, Trans. ASME, 80, pp. 444–452)
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Topics: Control systems
Discussion: “Statistical Treatment of Sampled-Data Control Systems for Actual Random Inputs” (Mori, Masahiro, 1958, Trans. ASME, 80, pp. 444–452)
E. I. Jury
Trans. ASME. February 1958, 80(2): 453–454. doi: https://doi.org/10.1115/1.4012399
View articletitled, Discussion: “Statistical Treatment of Sampled-Data Control Systems for Actual Random Inputs” (Mori, Masahiro, 1958, Trans. ASME, 80, pp. 444–452)
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Topics: Control systems
Discussion: “Statistical Treatment of Sampled-Data Control Systems for Actual Random Inputs” (Mori, Masahiro, 1958, Trans. ASME, 80, pp. 444–452)
Jack Sklansky
Trans. ASME. February 1958, 80(2): 454–455. doi: https://doi.org/10.1115/1.4012400
View articletitled, Discussion: “Statistical Treatment of Sampled-Data Control Systems for Actual Random Inputs” (Mori, Masahiro, 1958, Trans. ASME, 80, pp. 444–452)
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Topics: Control systems
Closure to “Discussions of ‘Statistical Treatment of Sampled-Data Control Systems for Actual Random Inputs’” (1958, Trans. ASME, 80, pp. 452–455)
Masahiro Mori
Trans. ASME. February 1958, 80(2): 455–456. doi: https://doi.org/10.1115/1.4012401
View articletitled, Closure to “Discussions of ‘Statistical Treatment of Sampled-Data Control Systems for Actual Random Inputs’” (1958, Trans. ASME, 80, pp. 452–455)
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Topics: Control systems
Discussion: “Design of Multivariable Optimum Filters” (Westcott, J. H., 1958, Trans. ASME, 80, pp. 463–467)
Rufus Oldenburger
Trans. ASME. February 1958, 80(2): 467. doi: https://doi.org/10.1115/1.4012404
View articletitled, Discussion: “Design of Multivariable Optimum Filters” (Westcott, J. H., 1958, Trans. ASME, 80, pp. 463–467)
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Topics: Design , Filters
Discussion: “Design of Multivariable Optimum Filters” (Westcott, J. H., 1958, Trans. ASME, 80, pp. 463–467)
Otto J. M. Smith
Trans. ASME. February 1958, 80(2): 467. doi: https://doi.org/10.1115/1.4012405
View articletitled, Discussion: “Design of Multivariable Optimum Filters” (Westcott, J. H., 1958, Trans. ASME, 80, pp. 463–467)
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Topics: Design , Filters
Closure to “Discussions of ‘Design of Multivariable Optimum Filters’” (1958, Trans. ASME, 80, p. 467)
J. H. Westcott
Trans. ASME. February 1958, 80(2): 467. doi: https://doi.org/10.1115/1.4012406
View articletitled, Closure to “Discussions of ‘Design of Multivariable Optimum Filters’” (1958, Trans. ASME, 80, p. 467)
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Topics: Design
Discussion: “Design of a Self-Optimizing Control System” (Kalman, R. E., 1958, Trans. ASME, 80, pp. 468–477)
Rane L. Curl
Trans. ASME. February 1958, 80(2): 477. doi: https://doi.org/10.1115/1.4012408
View articletitled, Discussion: “Design of a Self-Optimizing Control System” (Kalman, R. E., 1958, Trans. ASME, 80, pp. 468–477)
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Topics: Control systems , Design
Closure to “Discussion of ‘Design of a Self-Optimizing Control System’” (1958, Trans. ASME, 80, p. 477)
R. E. Kalman
Trans. ASME. February 1958, 80(2): 478. doi: https://doi.org/10.1115/1.4012409
View articletitled, Closure to “Discussion of ‘Design of a Self-Optimizing Control System’” (1958, Trans. ASME, 80, p. 477)
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Topics: Design
Discussion: “Correlation Functions and Noise Patterns in Control Analysis” (Thal-Larsen, Herman, 1958, Trans. ASME, 80, pp. 479–485)
Thomas P. Goodman
Trans. ASME. February 1958, 80(2): 485–486. doi: https://doi.org/10.1115/1.4012411
View articletitled, Discussion: “Correlation Functions and Noise Patterns in Control Analysis” (Thal-Larsen, Herman, 1958, Trans. ASME, 80, pp. 479–485)
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Topics: Noise (Sound)
Discussion: “Correlation Functions and Noise Patterns in Control Analysis” (Thal-Larsen, Herman, 1958, Trans. ASME, 80, pp. 479–485)
Otto J. M. Smith
Trans. ASME. February 1958, 80(2): 486–488. doi: https://doi.org/10.1115/1.4012412
View articletitled, Discussion: “Correlation Functions and Noise Patterns in Control Analysis” (Thal-Larsen, Herman, 1958, Trans. ASME, 80, pp. 479–485)
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Topics: Noise (Sound)
Discussion: “Correlation Functions and Noise Patterns in Control Analysis” (Thal-Larsen, Herman, 1958, Trans. ASME, 80, pp. 479–485)
Yashundo Takahashi
Trans. ASME. February 1958, 80(2): 488. doi: https://doi.org/10.1115/1.4012413
View articletitled, Discussion: “Correlation Functions and Noise Patterns in Control Analysis” (Thal-Larsen, Herman, 1958, Trans. ASME, 80, pp. 479–485)
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Topics: Noise (Sound)
Closure to “Discussions of ‘Correlation Functions and Noise Patterns in Control Analysis’” (1958, Trans. ASME, 80, pp. 485–488)
Herman Thal-Larsen
Trans. ASME. February 1958, 80(2): 488–489. doi: https://doi.org/10.1115/1.4012414
View articletitled, Closure to “Discussions of ‘Correlation Functions and Noise Patterns in Control Analysis’” (1958, Trans. ASME, 80, pp. 485–488)
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Topics: Noise (Sound)
Discussion: “An Analog Study of a High-Speed Recording Servomechanism” (Schwartzenberg, J. W., 1958, Trans. ASME, 80, pp. 490–495)
A. J. Williams, Jr.
Trans. ASME. February 1958, 80(2): 496. doi: https://doi.org/10.1115/1.4012416
View articletitled, Discussion: “An Analog Study of a High-Speed Recording Servomechanism” (Schwartzenberg, J. W., 1958, Trans. ASME, 80, pp. 490–495)
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Topics: Servomechanisms
Closure to “Discussion of ‘An Analog Study of a High-Speed Recording Servomechanism’” (1958, Trans. ASME, 80, p. 496)
J. W. Schwartzenberg
Trans. ASME. February 1958, 80(2): 496. doi: https://doi.org/10.1115/1.4012417
View articletitled, Closure to “Discussion of ‘An Analog Study of a High-Speed Recording Servomechanism’” (1958, Trans. ASME, 80, p. 496)
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