E-raamat: Advances in Cryogenic Engineering: Proceedings of the 1960 Cryogenic Engineering Conference University of Colorado and National Bureau of Standards Boulder, Colorado August 23-25, 1960

Space Technology.- A-1 Status of Electric Propulsion Systems for Space
Missions.- A-2 Experimental Performance and Selection of Cryogenic Rocket
Insulation Systems.- A-3 Progress Report on Development of High-Efficiency
Insulation.- A-4 Improvement of Evacuated Aerogel Powder Insulation.- A-5
Back-Diffusion into Stored Cryogenic Liquids Venting to the Atmosphere.-
Applications.- B-1 Superconducting Cryogenic Motors.- B-2 Compact
Joule-Thomson Refrigeration Systems 15 to 60°K.- B-3 A New Refrigeration
System for 4.2°K.- B-4 The Cryogenic Gyro.- B-5 Spaceborne Cryostats for
Continuous Operation.- B-6 Selection of Lubricants and Thread Compounds for
Oxygen Missile Systems.- B-7 Principle of a Liquid Nitrogen Irradiation
Device and its Realization for Use in a Swimming-Pool Type Reactor.- B-8 The
Direct Current Transformers.- Superconductivity.- C-1 Superconductivity.- C-2
Superconducting Rectifiers.- C-3 Superconducting Resonant Cavities.- C-4
Superconducting Magnets.- Processes.- D-1 Liquid Hydrogen from Refinery Waste
Gases.- D-2 Explosion Hazards of Liquid Hydrogen.- D-3 Vacuum Pumping with
Cryogenic Fluids.- D-4 Comparison of Liquid Pumping and Gas Compression in
Gas-Producing Oxygen Plants.- D-5 Wear and Friction of Impregnated Carbon
Seal Materials in Liquid Nitrogen and Hydrogen.- D-6 Elastomers for Static
Seals at Cryogenic Temperatures.- D-7 Bearing Lubrication at Low
Temperatures.- D-8 Studies of the Low-Temperature Distillation of Hydrogen
Isotopes.- D-9 Evaluation of Ball Bearing Separator Materials Operating
Submerged in Liquid Nitrogen.- Transfer Phenomena.- E-1 An Analytical Method
for Estimating Gas Requirements in the Pressurization and Transfer of
Cryogenic Fluids.- E-2 Pressure Phenomena during Transfer of Saturated
Cryogenic Fluids.- E-3 PressurizedTransfer of Cryogenic Fluids from Tanks in
Liquid-Nitrogen Baths.- E-4 Design of Piping for Cryogenic Fluids.- E-5
Calculations Relating to the Pressure Change in a Vented Tank Being Filled
with Liquid Oxygen.- E-6 Dynamic Response of Fluid and Wall Temperatures
during Pressurized Discharge of a Liquid from a Container.- E-7 Pressurized
Cool-Down of a Cryogenic Liquid Transfer System Containing Vertical
Sections.- E-8 The Design and Testing of a 6000 GPM Liquid Oxygen Pump
Transfer System.- Equipment.- F-1 A Helium3 Refrigerator.- F-2 Design
Considerations for Cryogenic Liquid Refill Systems for Cooling Infrared
Detection Cells.- F-3 Infrared Detector Refrigerators.- F-4 Tensile Cryostat
for the Temperature Range 4° to 300°K.- F-5 Design and Operation of a
High-Accuracy Calibration Stand for Cryogenic Flowmeters.- F-6 A Durable and
Reliable Test Stand System for High-Accuracy Temperature Measurements in the
Cryogenic Ranges of Liquid Hydrogen and Liquid Oxygen.- F-7 A Simple Transfer
Tube for Liquid Helium.- F-8 A Method and Apparatus for Concentrating Trace
Impurities in Analyzing Grade-A Helium.- F-9 A New Method for Detection of
Liquid Level of Cryogenic Fluids.- Physical Equilibria and Related
Properties.- G-1 A Comparison of Methods of Predicting Equilibrium Gas Phase
Compositions in Pressurized Binary Systems Containing an Essentially Pure
Condensed Phase.- G-2 Application of the Corresponding States Principle to
Mixtures of Low Molecular Weight Gases at Low Temperatures and Elevated
Pressures.- G-3 Phase Equilibrium of the Nitrogen-Hydrogen System in the
Critical Region of Hydrogen.- G-4 Approximate Wide-Range Equation of State
for Hydrogen.- G-5 The Adsorption of Methane on Silica Gel at Low
Temperatures.- G-6 Phase Equilibria in the CO2-Methane Systems.- G-7A
Preliminary Temperature-Entropy Diagram for Neon.- Heat Transfer and
Thermometry.- H-1 The Non-Adiabatic Flow of an Evaporating Cryogenic Fluid
through a Horizontal Tube.- H-2 A Study of Heat and Mass Transfer to
Uninsulated Liquid Oxygen Containers.- H-3 Single-Tube Heat Transfer Tests
with Liquid Hydrogen.- H-4 Experimental Heat Transfer and Pressure Drop of
Film Boiling Liquid Hydrogen Flowing through a Heated Tube.- H-5 Some Aspects
of the Design and Operation of Low Temperature Regenerators.- H-6
Low-Temperature Thermocouple Thermometry.- H-7 Reproducibilities of Carbon
and Germanium Thermometers at 4.2°K.- H-8 Floating Polystyrene Beads as
Insulation for Cryogenic Fluids.- H-9 Conversion Correction for Evaluating
Net Heat Flux into a Liquid Hydrogen Container.- Mechanical Properties.- J-1
Mechanical Properties of Four Austenitic Stainless Steels at Temperatures
between 300° and 20°K.- J-2 Low Temperature Mechanical Properties of 300
Series Stainless Steel and Titanium.- J-3 Gamma to Alpha Transformation in
Austenitic Stainless Steel under Stress (single and repeated) down to 20°K.-
J-4 The Fatigue Properties of Aluminum Alloy 5083-H113 Plate and Butt
Weldments at 75° and -300°F.- J-5 Properties of 7000 Series Aluminum Alloys
at Cryogenic Temperatures.- J-8 Low-Temperature Research on Transuranic
Metals.- J-7 A Simplified Determination of Crystallinity of Fluoroplastics
and the Prediction of Their Behavior at Cryogenic Temperatures.- J-8 New Data
on Aluminum Alloys for Cryogenic Applications.- Indexes.- Author Index.-
Cumulative Subject Index for Volumes 1 to 5.