Skip to Main Content
American Society of Mechanical Engineers: Digital Collection
Cart
header search
Search
Advanced Search
Skip Nav Destination

Issues

Volume 77, Issue 7
October 1955
This article was originally published in
Transactions of the American Society of Mechanical Engineers
Issue Cover
ISSN 0097-6822
In this Issue

Research Papers

The Statistical Nature of Friction
E. Rabinowicz, B. G. Rightmire, C. E. Tedholm, R. E. Williams
Trans. ASME. October 1955, 77(7): 981–984. doi: https://doi.org/10.1115/1.4014571
View articletitled, The Statistical Nature of Friction
Open the PDF for in another window
Topics: Friction , Finishes , Copper , Fluctuations (Physics) , Stress
The Evaluation of Corrosion Resistance for Gas-Turbine-Blade Materials
W. E. Young, A. E. Hershey, C. E. Hussey
Trans. ASME. October 1955, 77(7): 985–994. doi: https://doi.org/10.1115/1.4014572
View articletitled, The Evaluation of Corrosion Resistance for Gas-Turbine-Blade Materials
Open the PDF for in another window
Topics: Blades , Corrosion resistance , Turbines , Corrosion , Fuel oils , Oils , Petroleum , Temperature , Weight (Mass) , Combustion
The Influence of Some Chemical and Physical Factors on the Formation of Deposits From Residual Fuels
P. T. Sulzer
Trans. ASME. October 1955, 77(7): 995–1001. doi: https://doi.org/10.1115/1.4014573
View articletitled, The Influence of Some Chemical and Physical Factors on the Formation of Deposits From Residual Fuels
Open the PDF for in another window
Topics: Fuels , Combustion , Gas turbines , Pressure , Temperature
Compressibility Deviations for Polar Gases
N. A. Hall, W. E. Ibele
Trans. ASME. October 1955, 77(7): 1003–1009. doi: https://doi.org/10.1115/1.4014574
View articletitled, Compressibility Deviations for Polar Gases
Open the PDF for in another window
Topics: Compressibility , Gases , Dipole moments
Total Normal Emissivity Measurements on Aircraft Materials Between 100 and 800 F
N. W. Snyder, J. T. Gier, R. V. Dunkle
Trans. ASME. October 1955, 77(7): 1011–1019. doi: https://doi.org/10.1115/1.4014577
View articletitled, Total Normal Emissivity Measurements on Aircraft Materials Between 100 and 800 F
Open the PDF for in another window
Topics: Aircraft , Emissivity , Temperature , Equilibrium (Physics) , Errors , Irradiation (Radiation exposure) , Junctions , Polishing , Silver , Solar energy
Thermal Conductivity and Its Variability With Temperature and Pressure
L. S. Kowalczyk
Trans. ASME. October 1955, 77(7): 1021–1034. doi: https://doi.org/10.1115/1.4014580
View articletitled, Thermal Conductivity and Its Variability With Temperature and Pressure
Open the PDF for in another window
Topics: Pressure , Temperature , Thermal conductivity , Heat , Heat conduction
The Ultrasonic Measurement of Hydraulic Turbine Discharge
R. C. Swengel, W. B. Hess, S. K. Waldorf
Trans. ASME. October 1955, 77(7): 1037–1042. doi: https://doi.org/10.1115/1.4014583
View articletitled, The Ultrasonic Measurement of Hydraulic Turbine Discharge
Open the PDF for in another window
Topics: Flow (Dynamics) , Flow measurement , Flowmeters , Hydraulic turbines , Hydropower , Rivers , Turbines , Turbulence , Ultrasonic measurement , Water
Recent Investigations of the Mechanics of Cavitation and Cavitation Damage
Robert T. Knapp
Trans. ASME. October 1955, 77(7): 1045–1054. doi: https://doi.org/10.1115/1.4014586
View articletitled, Recent Investigations of the Mechanics of Cavitation and Cavitation Damage
Open the PDF for in another window
Topics: Cavitation , Damage , Aluminum , Cavities , Water tunnels
On the Mechanism of Cavitation Damage
M. S. Plesset, A. T. Ellis
Trans. ASME. October 1955, 77(7): 1055–1064. doi: https://doi.org/10.1115/1.4014587
View articletitled, On the Mechanism of Cavitation Damage
Open the PDF for in another window
Topics: Cavitation , Damage , Water , Cavities , Deformation , Failure , Fatigue , Hard materials , Helium , Magnetostriction
Secondary Flow in Axial-Flow Turbomachinery
L. H. Smith, Jr.
Trans. ASME. October 1955, 77(7): 1065–1074. doi: https://doi.org/10.1115/1.4014590
View articletitled, Secondary Flow in Axial-Flow Turbomachinery
Open the PDF for in another window
Topics: Axial flow , Flow (Dynamics) , Turbomachinery , Blades , Boundary layers , Approximation , Fluids , Design , Friction
Development of a Miniature Electrohydraulic Actuator
S.-Y. Lee, J. L. Shearer
Trans. ASME. October 1955, 77(7): 1077–1086. doi: https://doi.org/10.1115/1.4014595
View articletitled, Development of a Miniature Electrohydraulic Actuator
Open the PDF for in another window
Topics: Actuators , Compressed air , Damping , Design , Dynamic analysis , Dynamic testing (Engineering) , Feedback , Instrumentation , Signals , Steady state
Residual Grinding Stresses in Hardened Steel
H. R. Letner
Trans. ASME. October 1955, 77(7): 1089–1095. doi: https://doi.org/10.1115/1.4014601
View articletitled, Residual Grinding Stresses in Hardened Steel
Open the PDF for in another window
Topics: Grinding , Martensitic steel , Stress , Steel , Bearings , Deflection , Fluids , Residual stresses , Wheels
The Determination of Residual Stresses in Hardened, Ground Steel
L. V. Colwell, M. J. Sinnott, J. C. Tobin
Trans. ASME. October 1955, 77(7): 1099–1104. doi: https://doi.org/10.1115/1.4014606
View articletitled, The Determination of Residual Stresses in Hardened, Ground Steel
Open the PDF for in another window
Topics: Residual stresses , Steel , Grinding , Stress , Tension , Compression , Compressive stress , X-ray diffraction
Temperature Distribution at the Tool-Chip Interface in Metal Cutting
B. T. Chao, K. J. Trigger
Trans. ASME. October 1955, 77(7): 1107–1119. doi: https://doi.org/10.1115/1.4014611
View articletitled, Temperature Distribution at the Tool-Chip Interface in Metal Cutting
Open the PDF for in another window
Topics: Metal cutting , Temperature distribution , Temperature , Cutting , Heat , Heat flux , Iterative methods , Thermal conductivity , Wear
Cutter Design and Application for Face-Milling Cast Iron and Steel
O. W. Boston, W. W. Gilbert
Trans. ASME. October 1955, 77(7): 1123–1130. doi: https://doi.org/10.1115/1.4014616
View articletitled, Cutter Design and Application for Face-Milling Cast Iron and Steel
Open the PDF for in another window
Topics: Cast iron , Design , Milling , Steel , Cutting , Industrial research , Shapes , Warfare
Dynamics in the Inlet System of a Four-Stroke Single-Cylinder Engine
C. F. Taylor, J. C. Livengood, D. H. Tsai
Trans. ASME. October 1955, 77(7): 1133–1144. doi: https://doi.org/10.1115/1.4014620
View articletitled, Dynamics in the Inlet System of a Four-Stroke Single-Cylinder Engine
Open the PDF for in another window
Topics: Dynamics (Mechanics) , Single-cylinder engines , Pipes , Engines , Valves , Cycles , Design , Standing waves
Steam-Piping Design to Minimize Creep Concentrations
Ernest L. Robinson
Trans. ASME. October 1955, 77(7): 1147–1158. doi: https://doi.org/10.1115/1.4014623
View articletitled, Steam-Piping Design to Minimize Creep Concentrations
Open the PDF for in another window
Topics: Creep , Design , Pipes , Steam , Stress , High temperature , Elastic analysis , High temperature creep , Piping design , Relaxation (Physics)
Stack Heights Required to Minimize Ground Concentrations
E. W. Hewson
Trans. ASME. October 1955, 77(7): 1163–1171. doi: https://doi.org/10.1115/1.4014631
View articletitled, Stack Heights Required to Minimize Ground Concentrations
Open the PDF for in another window
Topics: Design , Meteorology

Discussions and Closures

Discussion: “Compressibility Deviations for Polar Gases” (Hall, N. A., and Ibele, W. E., 1955, Trans. ASME, 77, pp. 1003–1009)
K. S. Pitzer
Trans. ASME. October 1955, 77(7): 1009. doi: https://doi.org/10.1115/1.4014575
View articletitled, Discussion: “Compressibility Deviations for Polar Gases” (Hall, N. A., and Ibele, W. E., 1955, Trans. ASME, 77, pp. 1003–1009)
Open the PDF for in another window
Topics: Compressibility , Gases
Closure to “Discussion of ‘Compressibility Deviations for Polar Gases’” (1955, Trans. ASME, 77, p. 1009)
N. A. Hall, W. E. Ibele
Trans. ASME. October 1955, 77(7): 1009. doi: https://doi.org/10.1115/1.4014576
View articletitled, Closure to “Discussion of ‘Compressibility Deviations for Polar Gases’” (1955, Trans. ASME, 77, p. 1009)
Open the PDF for in another window
Topics: Compressibility
Discussion: “Total Normal Emissivity Measurements on Aircraft Materials Between 100 and 800 F” (Snyder, N. W., Gier, J. T., and Dunkle, R. V., 1955, Trans. ASME, 77, pp. 1011–1019)
J. P. Hartnett
Trans. ASME. October 1955, 77(7): 1019. doi: https://doi.org/10.1115/1.4014578
View articletitled, Discussion: “Total Normal Emissivity Measurements on Aircraft Materials Between 100 and 800 F” (Snyder, N. W., Gier, J. T., and Dunkle, R. V., 1955, Trans. ASME, 77, pp. 1011–1019)
Open the PDF for in another window
Topics: Aircraft , Emissivity
Closure to “Discussion of ‘Total Normal Emissivity Measurements on Aircraft Materials Between 100 and 800 F’” (1955, Trans. ASME, 77, p. 1019)
N. W. Snyder, J. T. Gier, R. V. Dunkle
Trans. ASME. October 1955, 77(7): 1019. doi: https://doi.org/10.1115/1.4014579
View articletitled, Closure to “Discussion of ‘Total Normal Emissivity Measurements on Aircraft Materials Between 100 and 800 F’” (1955, Trans. ASME, 77, p. 1019)
Open the PDF for in another window
Topics: Aircraft , Emissivity
Discussion: “Thermal Conductivity and Its Variability With Temperature and Pressure” (Kowalczyk, L. S., 1955, Trans. ASME, 77, pp. 1021–1034)
Victor Paschkis
Trans. ASME. October 1955, 77(7): 1034–1035. doi: https://doi.org/10.1115/1.4014581
View articletitled, Discussion: “Thermal Conductivity and Its Variability With Temperature and Pressure” (Kowalczyk, L. S., 1955, Trans. ASME, 77, pp. 1021–1034)
Open the PDF for in another window
Topics: Pressure , Temperature , Thermal conductivity
Closure to “Discussion of ‘Thermal Conductivity and Its Variability With Temperature and Pressure’” (1955, Trans. ASME, 77, pp. 1034–1035)
L. S. Kowalczyk
Trans. ASME. October 1955, 77(7): 1035. doi: https://doi.org/10.1115/1.4014582
View articletitled, Closure to “Discussion of ‘Thermal Conductivity and Its Variability With Temperature and Pressure’” (1955, Trans. ASME, 77, pp. 1034–1035)
Open the PDF for in another window
Topics: Temperature , Thermal conductivity
Discussion: “The Ultrasonic Measurement of Hydraulic Turbine Discharge” (Swengel, R. C., Hess, W. B., and Waldorf, S. K., 1955, Trans. ASME, 77, pp. 1037–1042)
G. H. Voaden
Trans. ASME. October 1955, 77(7): 1042–1043. doi: https://doi.org/10.1115/1.4014584
View articletitled, Discussion: “The Ultrasonic Measurement of Hydraulic Turbine Discharge” (Swengel, R. C., Hess, W. B., and Waldorf, S. K., 1955, Trans. ASME, 77, pp. 1037–1042)
Open the PDF for in another window
Topics: Hydraulic turbines , Ultrasonic measurement
Closure to “Discussion of ‘The Ultrasonic Measurement of Hydraulic Turbine Discharge’” (1955, Trans. ASME, 77, pp. 1042–1043)
R. C. Swengel, W. B. Hess, S. K. Waldorf
Trans. ASME. October 1955, 77(7): 1043. doi: https://doi.org/10.1115/1.4014585
View articletitled, Closure to “Discussion of ‘The Ultrasonic Measurement of Hydraulic Turbine Discharge’” (1955, Trans. ASME, 77, pp. 1042–1043)
Open the PDF for in another window
Topics: Hydraulic turbines , Ultrasonic measurement
Discussion: “On the Mechanism of Cavitation Damage” (Plesset, M. S., and Ellis, A. T., 1955, Trans. ASME, 77, pp. 1055–1064)
Irving Taylor
Trans. ASME. October 1955, 77(7): 1064. doi: https://doi.org/10.1115/1.4014588
View articletitled, Discussion: “On the Mechanism of Cavitation Damage” (Plesset, M. S., and Ellis, A. T., 1955, Trans. ASME, 77, pp. 1055–1064)
Open the PDF for in another window
Topics: Cavitation , Damage
Closure to “Discussion of ‘On the Mechanism of Cavitation Damage’” (1955, Trans. ASME, 77, p. 1064)
M. S. Plesset, A. T. Ellis
Trans. ASME. October 1955, 77(7): 1064. doi: https://doi.org/10.1115/1.4014589
View articletitled, Closure to “Discussion of ‘On the Mechanism of Cavitation Damage’” (1955, Trans. ASME, 77, p. 1064)
Open the PDF for in another window
Topics: Cavitation
Discussion: “Secondary Flow in Axial-Flow Turbomachinery” (Smith, Jr., L. H., 1955, Trans. ASME, 77, pp. 1065–1074)
H. G. Loos
Trans. ASME. October 1955, 77(7): 1074–1075. doi: https://doi.org/10.1115/1.4014591
View articletitled, Discussion: “Secondary Flow in Axial-Flow Turbomachinery” (Smith, Jr., L. H., 1955, Trans. ASME, 77, pp. 1065–1074)
Open the PDF for in another window
Topics: Axial flow , Flow (Dynamics) , Turbomachinery
Discussion: “Secondary Flow in Axial-Flow Turbomachinery” (Smith, Jr., L. H., 1955, Trans. ASME, 77, pp. 1065–1074)
G. L. Mellor, Jr., R. C. Dean, Jr.
Trans. ASME. October 1955, 77(7): 1075. doi: https://doi.org/10.1115/1.4014592
View articletitled, Discussion: “Secondary Flow in Axial-Flow Turbomachinery” (Smith, Jr., L. H., 1955, Trans. ASME, 77, pp. 1065–1074)
Open the PDF for in another window
Topics: Axial flow , Flow (Dynamics) , Turbomachinery
Discussion: “Secondary Flow in Axial-Flow Turbomachinery” (Smith, Jr., L. H., 1955, Trans. ASME, 77, pp. 1065–1074)
G. F. Wislicenus
Trans. ASME. October 1955, 77(7): 1075. doi: https://doi.org/10.1115/1.4014593
View articletitled, Discussion: “Secondary Flow in Axial-Flow Turbomachinery” (Smith, Jr., L. H., 1955, Trans. ASME, 77, pp. 1065–1074)
Open the PDF for in another window
Topics: Axial flow , Flow (Dynamics) , Turbomachinery
Closure to “Discussions of ‘Secondary Flow in Axial-Flow Turbomachinery’” (1955, Trans. ASME, 77, pp. 1074–1075)
L. H. Smith, Jr.
Trans. ASME. October 1955, 77(7): 1075–1076. doi: https://doi.org/10.1115/1.4014594
View articletitled, Closure to “Discussions of ‘Secondary Flow in Axial-Flow Turbomachinery’” (1955, Trans. ASME, 77, pp. 1074–1075)
Open the PDF for in another window
Topics: Axial flow , Flow (Dynamics)
Discussion: “Development of a Miniature Electrohydraulic Actuator” (Lee, S.-Y., and Shearer, J. L., 1955, Trans. ASME, 77, pp. 1077–1086)
Sidney Lees
Trans. ASME. October 1955, 77(7): 1086. doi: https://doi.org/10.1115/1.4014596
View articletitled, Discussion: “Development of a Miniature Electrohydraulic Actuator” (Lee, S.-Y., and Shearer, J. L., 1955, Trans. ASME, 77, pp. 1077–1086)
Open the PDF for in another window
Topics: Actuators
Discussion: “Development of a Miniature Electrohydraulic Actuator” (Lee, S.-Y., and Shearer, J. L., 1955, Trans. ASME, 77, pp. 1077–1086)
R. E. Michel
Trans. ASME. October 1955, 77(7): 1086–1087. doi: https://doi.org/10.1115/1.4014597
View articletitled, Discussion: “Development of a Miniature Electrohydraulic Actuator” (Lee, S.-Y., and Shearer, J. L., 1955, Trans. ASME, 77, pp. 1077–1086)
Open the PDF for in another window
Topics: Actuators
Discussion: “Development of a Miniature Electrohydraulic Actuator” (Lee, S.-Y., and Shearer, J. L., 1955, Trans. ASME, 77, pp. 1077–1086)
D. G. O’Brien
Trans. ASME. October 1955, 77(7): 1087. doi: https://doi.org/10.1115/1.4014598
View articletitled, Discussion: “Development of a Miniature Electrohydraulic Actuator” (Lee, S.-Y., and Shearer, J. L., 1955, Trans. ASME, 77, pp. 1077–1086)
Open the PDF for in another window
Topics: Actuators
Discussion: “Development of a Miniature Electrohydraulic Actuator” (Lee, S.-Y., and Shearer, J. L., 1955, Trans. ASME, 77, pp. 1077–1086)
F. B. Tuteur
Trans. ASME. October 1955, 77(7): 1087–1088. doi: https://doi.org/10.1115/1.4014599
View articletitled, Discussion: “Development of a Miniature Electrohydraulic Actuator” (Lee, S.-Y., and Shearer, J. L., 1955, Trans. ASME, 77, pp. 1077–1086)
Open the PDF for in another window
Topics: Actuators
Closure to “Discussions of ‘Development of a Miniature Electrohydraulic Actuator’” (1955, Trans. ASME, 77, pp. 1086–1088)
S.-Y. Lee, J. L. Shearer
Trans. ASME. October 1955, 77(7): 1088. doi: https://doi.org/10.1115/1.4014600
View articletitled, Closure to “Discussions of ‘Development of a Miniature Electrohydraulic Actuator’” (1955, Trans. ASME, 77, pp. 1086–1088)
Open the PDF for in another window
Discussion: “Residual Grinding Stresses in Hardened Steel” (Letner, H. R., 1955, Trans. ASME, 77, pp. 1089–1095)
A. L. Christenson, W. E. Littmann
Trans. ASME. October 1955, 77(7): 1095–1096. doi: https://doi.org/10.1115/1.4014602
View articletitled, Discussion: “Residual Grinding Stresses in Hardened Steel” (Letner, H. R., 1955, Trans. ASME, 77, pp. 1089–1095)
Open the PDF for in another window
Topics: Grinding , Martensitic steel , Stress
Discussion: “Residual Grinding Stresses in Hardened Steel” (Letner, H. R., 1955, Trans. ASME, 77, pp. 1089–1095)
J. Frisch
Trans. ASME. October 1955, 77(7): 1096. doi: https://doi.org/10.1115/1.4014603
View articletitled, Discussion: “Residual Grinding Stresses in Hardened Steel” (Letner, H. R., 1955, Trans. ASME, 77, pp. 1089–1095)
Open the PDF for in another window
Topics: Grinding , Martensitic steel , Stress
Discussion: “Residual Grinding Stresses in Hardened Steel” (Letner, H. R., 1955, Trans. ASME, 77, pp. 1089–1095)
J. A. Mueller
Trans. ASME. October 1955, 77(7): 1096–1097. doi: https://doi.org/10.1115/1.4014604
View articletitled, Discussion: “Residual Grinding Stresses in Hardened Steel” (Letner, H. R., 1955, Trans. ASME, 77, pp. 1089–1095)
Open the PDF for in another window
Topics: Grinding , Martensitic steel , Stress
Closure to “Discussions of ‘Residual Grinding Stresses in Hardened Steel’” (1955, Trans. ASME, 77, pp. 1095–1097)
H. R. Letner
Trans. ASME. October 1955, 77(7): 1097–1098. doi: https://doi.org/10.1115/1.4014605
View articletitled, Closure to “Discussions of ‘Residual Grinding Stresses in Hardened Steel’” (1955, Trans. ASME, 77, pp. 1095–1097)
Open the PDF for in another window
Topics: Grinding , Stress
Discussion: “The Determination of Residual Stresses in Hardened, Ground Steel” (Colwell, L. V., Sinnott, M. J., and Tobin, J. C., 1955, Trans. ASME, 77, pp. 1099–1104)
J. L. Beaton
Trans. ASME. October 1955, 77(7): 1104. doi: https://doi.org/10.1115/1.4014607
View articletitled, Discussion: “The Determination of Residual Stresses in Hardened, Ground Steel” (Colwell, L. V., Sinnott, M. J., and Tobin, J. C., 1955, Trans. ASME, 77, pp. 1099–1104)
Open the PDF for in another window
Topics: Residual stresses , Steel
Discussion: “The Determination of Residual Stresses in Hardened, Ground Steel” (Colwell, L. V., Sinnott, M. J., and Tobin, J. C., 1955, Trans. ASME, 77, pp. 1099–1104)
R. E. Ogilvie
Trans. ASME. October 1955, 77(7): 1104–1105. doi: https://doi.org/10.1115/1.4014608
View articletitled, Discussion: “The Determination of Residual Stresses in Hardened, Ground Steel” (Colwell, L. V., Sinnott, M. J., and Tobin, J. C., 1955, Trans. ASME, 77, pp. 1099–1104)
Open the PDF for in another window
Topics: Residual stresses , Steel
Discussion: “The Determination of Residual Stresses in Hardened, Ground Steel” (Colwell, L. V., Sinnott, M. J., and Tobin, J. C., 1955, Trans. ASME, 77, pp. 1099–1104)
H. R. Letner
Trans. ASME. October 1955, 77(7): 1105. doi: https://doi.org/10.1115/1.4014609
View articletitled, Discussion: “The Determination of Residual Stresses in Hardened, Ground Steel” (Colwell, L. V., Sinnott, M. J., and Tobin, J. C., 1955, Trans. ASME, 77, pp. 1099–1104)
Open the PDF for in another window
Topics: Residual stresses , Steel
Closure to “Discussions of ‘The Determination of Residual Stresses in Hardened, Ground Steel’” (1955, Trans. ASME, 77, pp. 1104–1105)
L. V. Colwell, M. J. Sinnott, J. C. Tobin
Trans. ASME. October 1955, 77(7): 1105. doi: https://doi.org/10.1115/1.4014610
View articletitled, Closure to “Discussions of ‘The Determination of Residual Stresses in Hardened, Ground Steel’” (1955, Trans. ASME, 77, pp. 1104–1105)
Open the PDF for in another window
Topics: Residual stresses
Discussion: “Temperature Distribution at the Tool-Chip Interface in Metal Cutting” (Chao, B. T., and Trigger, K. J., 1955, Trans. ASME, 77, pp. 1107–1119)
H. Blok
Trans. ASME. October 1955, 77(7): 1119. doi: https://doi.org/10.1115/1.4014612
View articletitled, Discussion: “Temperature Distribution at the Tool-Chip Interface in Metal Cutting” (Chao, B. T., and Trigger, K. J., 1955, Trans. ASME, 77, pp. 1107–1119)
Open the PDF for in another window
Topics: Metal cutting , Temperature distribution
Discussion: “Temperature Distribution at the Tool-Chip Interface in Metal Cutting” (Chao, B. T., and Trigger, K. J., 1955, Trans. ASME, 77, pp. 1107–1119)
R. S. Hahn
Trans. ASME. October 1955, 77(7): 1119. doi: https://doi.org/10.1115/1.4014613
View articletitled, Discussion: “Temperature Distribution at the Tool-Chip Interface in Metal Cutting” (Chao, B. T., and Trigger, K. J., 1955, Trans. ASME, 77, pp. 1107–1119)
Open the PDF for in another window
Topics: Metal cutting , Temperature distribution
Discussion: “Temperature Distribution at the Tool-Chip Interface in Metal Cutting” (Chao, B. T., and Trigger, K. J., 1955, Trans. ASME, 77, pp. 1107–1119)
E. G. Loewen
Trans. ASME. October 1955, 77(7): 1119–1120. doi: https://doi.org/10.1115/1.4014614
View articletitled, Discussion: “Temperature Distribution at the Tool-Chip Interface in Metal Cutting” (Chao, B. T., and Trigger, K. J., 1955, Trans. ASME, 77, pp. 1107–1119)
Open the PDF for in another window
Topics: Metal cutting , Temperature distribution
Closure to “Discussions of ‘Temperature Distribution at the Tool-Chip Interface in Metal Cutting’” (1955, Trans. ASME, 77, pp. 1119–1120)
B. T. Chao, K. J. Trigger
Trans. ASME. October 1955, 77(7): 1120–1121. doi: https://doi.org/10.1115/1.4014615
View articletitled, Closure to “Discussions of ‘Temperature Distribution at the Tool-Chip Interface in Metal Cutting’” (1955, Trans. ASME, 77, pp. 1119–1120)
Open the PDF for in another window
Topics: Metals , Temperature distribution
Discussion: “Cutter Design and Application for Face-Milling Cast Iron and Steel” (Boston, O. W., and Gilbert, W. W., 1955, Trans. ASME, 77, pp. 1123–1130)
F. W. Lucht
Trans. ASME. October 1955, 77(7): 1130. doi: https://doi.org/10.1115/1.4014617
View articletitled, Discussion: “Cutter Design and Application for Face-Milling Cast Iron and Steel” (Boston, O. W., and Gilbert, W. W., 1955, Trans. ASME, 77, pp. 1123–1130)
Open the PDF for in another window
Topics: Cast iron , Design , Milling , Steel
Discussion: “Cutter Design and Application for Face-Milling Cast Iron and Steel” (Boston, O. W., and Gilbert, W. W., 1955, Trans. ASME, 77, pp. 1123–1130)
K. B. Kaiser
Trans. ASME. October 1955, 77(7): 1130–1131. doi: https://doi.org/10.1115/1.4014618
View articletitled, Discussion: “Cutter Design and Application for Face-Milling Cast Iron and Steel” (Boston, O. W., and Gilbert, W. W., 1955, Trans. ASME, 77, pp. 1123–1130)
Open the PDF for in another window
Topics: Cast iron , Design , Milling , Steel
Closure to “Discussions of ‘Cutter Design and Application for Face-Milling Cast Iron and Steel’” (1955, Trans. ASME, 77, pp. 1130–1131)
O. W. Boston, W. W. Gilbert
Trans. ASME. October 1955, 77(7): 1131. doi: https://doi.org/10.1115/1.4014619
View articletitled, Closure to “Discussions of ‘Cutter Design and Application for Face-Milling Cast Iron and Steel’” (1955, Trans. ASME, 77, pp. 1130–1131)
Open the PDF for in another window
Topics: Cast iron , Design , Milling
Discussion: “Dynamics in the Inlet System of a Four-Stroke Single-Cylinder Engine” (Taylor, C. F., Livengood, J. C., and Tsai, D. H., 1955, Trans. ASME, 77, pp. 1133–1144)
T. C. Tsu
Trans. ASME. October 1955, 77(7): 1144. doi: https://doi.org/10.1115/1.4014621
View articletitled, Discussion: “Dynamics in the Inlet System of a Four-Stroke Single-Cylinder Engine” (Taylor, C. F., Livengood, J. C., and Tsai, D. H., 1955, Trans. ASME, 77, pp. 1133–1144)
Open the PDF for in another window
Topics: Dynamics (Mechanics) , Single-cylinder engines
Closure to “Discussion of ‘Dynamics in the Inlet System of a Four-Stroke Single-Cylinder Engine’” (1955, Trans. ASME, 77, p. 1144)
C. F. Taylor, J. C. Livengood, D. H. Tsai
Trans. ASME. October 1955, 77(7): 1144–1145. doi: https://doi.org/10.1115/1.4014622
View articletitled, Closure to “Discussion of ‘Dynamics in the Inlet System of a Four-Stroke Single-Cylinder Engine’” (1955, Trans. ASME, 77, p. 1144)
Open the PDF for in another window
Topics: Cylinders , Dynamics (Mechanics)
Discussion: “Steam-Piping Design to Minimize Creep Concentrations” (Robinson, Ernest L., 1955, Trans. ASME, 77, pp. 1147–1158)
A. R. C. Markl
Trans. ASME. October 1955, 77(7): 1158–1160. doi: https://doi.org/10.1115/1.4014624
View articletitled, Discussion: “Steam-Piping Design to Minimize Creep Concentrations” (Robinson, Ernest L., 1955, Trans. ASME, 77, pp. 1147–1158)
Open the PDF for in another window
Topics: Creep , Design , Pipes , Steam
Discussion: “Steam-Piping Design to Minimize Creep Concentrations” (Robinson, Ernest L., 1955, Trans. ASME, 77, pp. 1147–1158)
R. Michel
Trans. ASME. October 1955, 77(7): 1160. doi: https://doi.org/10.1115/1.4014625
View articletitled, Discussion: “Steam-Piping Design to Minimize Creep Concentrations” (Robinson, Ernest L., 1955, Trans. ASME, 77, pp. 1147–1158)
Open the PDF for in another window
Topics: Creep , Design , Pipes , Steam
Discussion: “Steam-Piping Design to Minimize Creep Concentrations” (Robinson, Ernest L., 1955, Trans. ASME, 77, pp. 1147–1158)
J. J. Murphy
Trans. ASME. October 1955, 77(7): 1160. doi: https://doi.org/10.1115/1.4014626
View articletitled, Discussion: “Steam-Piping Design to Minimize Creep Concentrations” (Robinson, Ernest L., 1955, Trans. ASME, 77, pp. 1147–1158)
Open the PDF for in another window
Topics: Creep , Design , Pipes , Steam
Discussion: “Steam-Piping Design to Minimize Creep Concentrations” (Robinson, Ernest L., 1955, Trans. ASME, 77, pp. 1147–1158)
R. A. Smyth
Trans. ASME. October 1955, 77(7): 1160–1161. doi: https://doi.org/10.1115/1.4014627
View articletitled, Discussion: “Steam-Piping Design to Minimize Creep Concentrations” (Robinson, Ernest L., 1955, Trans. ASME, 77, pp. 1147–1158)
Open the PDF for in another window
Topics: Creep , Design , Pipes , Steam
Discussion: “Steam-Piping Design to Minimize Creep Concentrations” (Robinson, Ernest L., 1955, Trans. ASME, 77, pp. 1147–1158)
S. W. Spielvogel
Trans. ASME. October 1955, 77(7): 1161. doi: https://doi.org/10.1115/1.4014628
View articletitled, Discussion: “Steam-Piping Design to Minimize Creep Concentrations” (Robinson, Ernest L., 1955, Trans. ASME, 77, pp. 1147–1158)
Open the PDF for in another window
Topics: Creep , Design , Pipes , Steam
Discussion: “Steam-Piping Design to Minimize Creep Concentrations” (Robinson, Ernest L., 1955, Trans. ASME, 77, pp. 1147–1158)
J. D. Conrad
Trans. ASME. October 1955, 77(7): 1161–1162. doi: https://doi.org/10.1115/1.4014629
View articletitled, Discussion: “Steam-Piping Design to Minimize Creep Concentrations” (Robinson, Ernest L., 1955, Trans. ASME, 77, pp. 1147–1158)
Open the PDF for in another window
Topics: Creep , Design , Pipes , Steam
Closure to “Discussions of ‘Steam-Piping Design to Minimize Creep Concentrations’” (1955, Trans. ASME, 77, pp. 1158–1162)
Ernest L. Robinson
Trans. ASME. October 1955, 77(7): 1162. doi: https://doi.org/10.1115/1.4014630
View articletitled, Closure to “Discussions of ‘Steam-Piping Design to Minimize Creep Concentrations’” (1955, Trans. ASME, 77, pp. 1158–1162)
Open the PDF for in another window
Topics: Creep , Design , Pipes , Steam
Discussion: “Stack Heights Required to Minimize Ground Concentrations” (Hewson, E. W., 1955, Trans. ASME, 77, pp. 1163–1171)
M. S. Ozker, P. M. Giever
Trans. ASME. October 1955, 77(7): 1171–1172. doi: https://doi.org/10.1115/1.4014632
View articletitled, Discussion: “Stack Heights Required to Minimize Ground Concentrations” (Hewson, E. W., 1955, Trans. ASME, 77, pp. 1163–1171)
Open the PDF for in another window
Closure to “Discussion of ‘Stack Heights Required to Minimize Ground Concentrations’” (1955, Trans. ASME, 77, pp. 1171–1172)
E. W. Hewson
Trans. ASME. October 1955, 77(7): 1172. doi: https://doi.org/10.1115/1.4014633
View articletitled, Closure to “Discussion of ‘Stack Heights Required to Minimize Ground Concentrations’” (1955, Trans. ASME, 77, pp. 1171–1172)
Open the PDF for in another window
All Issues
Extending the Pressure-Time Method to Pipe with Variable Cross-Section with 3D Numerical Simulations
J. Fluids Eng
Discussion on “Suction and Injection Impacts on Casson Nanofluid With Gyrotactic Micro-organisms Over a Moving Wedge” (Jabeen, K., Mushtaq, M., Akram Muntazir, R. M., 2022, ASME J. Fluids Eng., 144(1), p. 011204)
J. Fluids Eng
Validation of a Human Upper Airway Computational Fluid Dynamics Model for Turbulent Mixing
J. Fluids Eng (December 2023)
Characterizing the Effect of Sinusoidal Wall Amplitude on Turbulent Wall Jet Flow Parameters
J. Fluids Eng (December 2023)
A Combined Delayed Detached Eddy Simulation and Linearized Navier–Stokes Equation Study on the Generation and Reduction of Aerodynamic Noises Inside Steam Turbine Control Valve With Acoustic Liner
J. Fluids Eng (December 2023)
  • Online ISSN 1528-901X
  • Print ISSN 0098-2202

Journals

Conference Proceedings

eBooks

Resources

Opportunities

  • Crossref Logo
  • Crossref Open Funder Registry Logo
  • Crossref Open Cited-By Logo
  • Crossref Crossmark Logo
  • Crossref Similarity Check Logo
  • Chorus Logo
  • Counter Logo
  • Cope Logo
  • STM Logo
Copyright © 2023 The American Society of Mechanical Engineers
Close Modal
This Feature Is Available To Subscribers Only

or Create an Account

Close Modal
Close Modal
This site uses cookies. By continuing to use our website, you are agreeing to our privacy policy.
Accept