Advances in Cryogenic Engineering [E-Book] : Volume 22 / edited by K. D. Timmerhaus, R. P. Reed, A. F. Clark.
The First International Cryogenic Materials Conference (ICMC) provided a new forum for the presentation of low-temperature materials research. The confer ence, held in conjunction with the 1975 Cryogenic Engineering Conference, provided materials research personnel with excellent exposure to curren...
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Full text |
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Personal Name(s): | Clark, A. F., editor |
Reed, R. P., editor / Timmerhaus, K. D., editor | |
Imprint: |
Boston, MA :
Springer,
1977
|
Physical Description: |
XI, 559 p. online resource. |
Note: |
englisch |
ISBN: |
9781461398509 |
DOI: |
10.1007/978-1-4613-9850-9 |
Series Title: |
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Advances in Cryogenic Engineering ;
22 |
Subject (LOC): |
- Structural Alloys—Fracture
- A—1 A Research Program on the Properties of Structural Materials at 4 K
- A—2 Fracture Mechanics and Its Application to Cryogenic Structures
- A—3 The Fracture Toughness of Cryogenic Steels
- A—4 Fatigue Crack Growth Rates of Structural Alloys at 4 K
- A—5 Cryogenic Fracture Mechanics Properties of Several Manufacturing Process/Heat Treatment Combinations of Inconel X750
- A—6 Microstructures of Inconel X750 for Cryogenic Structural Applications
- A—7 The Fracture Toughness and Fatigue Crack Growth Rate of an Fe-Ni-Cr Superalloy at 298,76, and 4 K
- A—8 Evaluation of Inconel X750 Weldments for Cryogenic Applications
- A—9 Accident Simulation Tests on a Wet-Wall LNG Design
- A—10 Plasticity and Fracture of Ductile Structural Alloys under Plane Stress at Low Temperatures
- A—11 Crack Tip Strain Field of Strain-Hardening Materials at Low Temperature
- A—12 Mechanical Property Measurement Techniques of Structural Materials at Cryogenic Temperatures
- Structural Alloys—Physical Properties
- B—1 Magnetothermal Conductivity of Selected Pure Metals and Alloys
- B—2 Thermal and Electrical Measurements on Selected Materials for Low-Temperature Applications
- B—3 Thermal Conductivity of Selected Alloys at Low Temperatures
- B—4 Low-Temperature Thermal Conductivity and Dislocation Structures in Copper—Aluminum Alloys under High-Cycle Low-Stress Fatigue
- B—5 Measurement of Thermal Conductance
- B—6 Magnetic and Thermal Properties of Stainless Steel and Inconel at Cryogenic Temperatures
- B—7 Low-Temperature Elastic Properties of Invar
- B—8 Embrittlement Mechanisms in a Hydrogen Environment
- Composites
- C—1 Application of Fiber-Reinforced Polymers to Rotating Superconducting Machinery
- C—2 Static Tensile Properties of Boron—Aluminum and Boron—Epoxy Composites at Cryogenic Temperatures
- C—3 Low Thermal Flux Glass-Fiber Tubing for Cryogenic Service
- C—4 Optimization of Mechanical Supports for Large Superconductive Magnets
- Insulators—Thermal
- D—1 Aging Characteristics of Polyurethane Foam Insulation
- D—2 Cellular Glass Insulation for Load-Bearing Application in the Storage of Cryogenic Fluids
- D—3 Thermal Conductivity of Microsphere Cryogenic Insulation
- D—4 Apparent Thermal Conductivity of Uncoated Microsphere Cryogenic Insulation
- D—5 Thermal Performance of Multilayer Insulation Applied to Small Cryogenic Tankage
- Insulators—Electrical
- E—1 Low-Temperature Properties of Resins and Their Correlations
- E—2 Evaluation of Pre-Impregnated Resin-Glass Systems for Insulating Superconducting Magnets
- E—3 Dielectric Design Considerations for a Flexible Superconducting Power Transmission Cable
- E—4 Surface Flashover Voltage of Spacers in Vacuum at Cryogenic Temperatures
- E—5 Dimensional Behavior of Thin-Film Dielectric Polymers in the Temperature Range 4.2 to 300 K
- Superconductors
- F—1 Superconducting Materials for Large Scale Applications
- F—2 Effect of Metallurgical Treatments on AC Losses of Nb3Sn Produced by Solid State Diffusion
- F—3 Critical Current and AC Loss of Coevaporated Nb3Sn Superconductors
- F—4 Nb3Sn for Superconducting RF Cavities
- F—5 Chemical Vapor Deposition of Nb3Ge
- Superconductors—Multifilamentary
- G—1 Improvements in Critical Current Densities of Nb3Sn by Solid Solution Additions of Sn in Nb
- G—2 Performance Data of a Multifilamentary Nb3Sn Conductor and Magnet
- G—3 Test Results of a 27-Cm Bore Multifilamentary Nb3Sn Solenoid
- G—4 Superconducting Wire Test at Fermilab
- G—5 Superconducting Wires for a Pulsed Magnet
- G—6 Survey Results of Multifilamentary Nb—Ti Users
- G—7 Single-Phase Helium as Coolant for Superconducting Magnets
- G—8 Critical Rate of Magnetic Field Variation for Composite Superconductor
- G—9 Stability of Composite Superconductors under AC Conditions
- Transient Losses in Superconductors
- H—1 Technique for Measuring AC Losses in Thin-Film Superconductors
- H—2 Field Orientation Dependence of Losses in Rectangular Multifilamentary Superconductors
- H—3 Hysteresis Loss in a Multifilament Superconductor
- H—4 Design of Helically-Wound Superconducting AC Power Transmission Cables
- H—5 Interaction between Two Parallel Superconducting Wires Carrying Alternating Current
- Stress Effects in Conductor Materials
- I—1 Effect of Stress on the Critical Current of NbTi Multifilamentary Composite Wire
- I—2 Mechanical Properties of Superconducting Nb-Ti Composites
- I—3 Low Temperature Tensile Behavior of Copper-Stabilized Niobium-Titanium Superconducting Wire
- I—4 Electrical and Mechanical Properties of Dilute Aluminum—Gold Alloys at 300,77, and 4.2 K
- I—5 Effect of Cyclic Strain on Electrical Resistivity of Copper at 4.2 K
- I—6 Low Temperature Resistance of Cyclically Strained Aluminum
- I—7 Stress Analysis of Nonhomogeneous Superconducting Solenoids
- I—8 Study of Cooldown Stresses in the Cryogenic Envelope of a Superconducting Cable
- Special Materials
- J—1 Aboveground Concrete Secondary Containment for LNG
- J—2 Thin Windows for Gaseous and Liquid Targets: An Optimization Procedure
- J—3 A Promising New Cryogenic Seal Candidate
- Indexes
- Author Index
- Material Index.