Advances in Cryogenic Engineering Materials

General Reviews.- A-1 Materials Resource Considerations for Cryogenic Engineering.- A-2 Nb-Ti Alloy Superconductors-Present Status and Potential for Improvement.- A-3 The Magnetic Character of Austenitic Stainless Steels.- A-4 Alteration of the Superconducting Properties of A15 Compounds and Elementary Composite Superconductors by Nonhydrostatic Elastic Strain.- A-5 A Review of Antifriction Materials and Design for Cryogenic Environments.- A-6 Cryogenic Processing.- A-7 Forum on International Standards for Cryogenic Polymers and Composites.- Metals and Alloys.- B-1 Jumplike Deformation of Copper and Aluminum during Low-Temperature Creep.- B-2 Heating Effects during Tensile Tests of AISI 304L Stainless Steel at 4 K.- B-3 Relationship between Work-Hardening Rate and Dislocation Structure in Titanium Alloys at 4.2 to 373 K.- B-4 Temperature Dependence of Yielding in Austenitic Stainless Steels.- B-5 The Low-Temperature Change of the Magnetic Structure and Plastic Properties of Fe-Cr-Ni Alloys.- B-6 The Fe-10Ni-lMo-0.20C Steel as a Potential Alloy for Cryogenic Applications.- B-7 Cryogenic Fracture Toughness and Fatigue Crack-Growth Rate Properties of Inconel 706 Base Material and Gas Tungsten-Arc Weldments.- B-8 The Choice of Steel for the Isabelle Magnet Tubes.- B-9 A Nitrogen-Strengthened Austenitic Stainless Steel for Cryogenic Magnet Structures.- B-10 Cryogenic Treatment of AISI-T8 and C1045 Steels.- B-11 A Pneumatic Materials Test System for Low-Temperature Applications.- Welding.- C-1 A Review of the Development of Ferritic Consumables for the Welding of 9%-Nickel Steel: Research in the United States and Japan.- C-2 Newly Developed Matching Ferritic Filler-Metal Welding of 9%-Ni Steel.- C-3 A Study of Ferritic Weld Deposits in Fe-9Ni Steel.- C-4 Fracture of Al-Mg6-Mn Plates and Welds at Cryogenic Temperatures.- C-5 Gas Tungsten-Arc Welding of High-Purity Aluminum for Aluminum-Stabilized Composite Superconductors.- Composites.- D-1 Mechanical, Electrical, and Thermal Characterization of G-10CR and G-11CR Glass-Cloth/Epoxy Laminates between Room Temperature and 4 K.- D-2 Room-Temperature Mechanical Strength Selection Criteria of G-10 Intended for Cryogenic Service.- D-3 Manufacturing Capabilities of CR-Grade Laminates.- D-4 A Study of Interlaminar Shear Strength at Cryogenic Temperatures.- D-5 Tests of Composite Materials at Cryogenic Temperatures: Facilities and Results.- D-6 Testing of Fiberglass-Reinforced Polyester Composite.- D-7 Low-Temperature Measurement of the Thermal and Mechanical Properties of Phenolic Laminate, the Pultruded Polyester Fiberglass and A & B Epoxy Putty.- D-8 Three-Dimensional Contraction and Mechanical Properties of Glass-Cloth-Reinforced Epoxy Materials at Cryogenic Temperatures.- D-9 Ultimate Strength, Low-Stress Creep Characteristics and Thermal Intercept Methods for an Epoxy-Fiberglass Tension Member Support.- D-10 The Manufacture of a Glass-Fabric/Epoxide-Resin Composite Piston for a Bubble Chamber.- D-11 Coefficient of Friction Measurements of Fiberglass/Epoxy at Cryogenic Temperatures.- In Situ Processed Superconductors.- E-1 A15 Superconducting Composites in the 0.1-?m Region.- E-2 Research on the Monolithic Process of Making Al5 Superconducting Materials.- E-3 Superconducting A15 Composite Materials.- E-4 Progress with Cold Powder-Metallurgy-Processed Superconducting Multifilamentary Composites.- E-5 High-Temperature-Gradient Casting of in Situ Multifilamentary Superconductors.- E-6 Multifilamentary V3Ga Produced by the in Situ Process.- E-7 Processing Limits for Ultrafine-Multifilament Nb3Sn.- E-8 AC Losses in Untwisted Superconducting Composites Fabricated by an in Situ Technique.- A15 Superconductors.- F-1 Improvements in Current-Carrying Capacities of A15 Superconductors in High Magnetic Fields.- F-2 Irradiation Influence on the Properties of Superconducting, Ductile, Aging V-Ga Alloys.- F-3 Experimental Test of a Scaling Law in Low-Temperature, Fast-Neutron-Irradiated Nb3Sn and V3Ga Superconductors.- F-4 Metallurgical Processing and Superconducting Properties of V3Ga Formed in the V-Ga/Cu-Ga-Al Composite System.- F-5 Superconducting Properties of Composite, Rigid, Tubular Elements with Nb3Sn Diffusion Layers.- F-6 Composition Profiles in Nb3Sn Diffusion Layers.- F-7 Electromagnetic Properties of Superconducting Nb3Sn.- F-8 Temperature Dependence of the Critical Current and Pinning Behavior for Nb3Sn Filamentary Superconductors.- F-9 Superconducting Properties of (Nb, Ta)3Sn Wires Fabricated by the Bronze Process.- F-10 Properties of Multifllamentary Nb3Sn Superconductors Fabricated by the Internal Bronze Approach.- F-11 Fabrication of Nb3Sn Multifilament Wire for LASL Transmission Line.- F-12 Prototype Multifllamentary Nb3Sn Superconductor for the High Field Test Facility at Lawrence Livermore Laboratory.- Nb-Ti and Aluminum-Stabilized Superconductors.- G-1 Transmission Electron Microscopy of Commercial Filamentary Nb-Ti Superconducting Composites.- G-2 Enhanced Values of Hc2 in Nb-Ti Ternary and Quaternary Alloys.- G-3 Neutron Irradiation Experiments on Various Nb-Ti Superconductors.- G-4 Fabrication Studies of a Strengthened Al/Nb-Ti Composite Conductor.- G-5 Boundary Resistance in Aluminum-Stabilized Conductors.- G-6 Nonlinear Stresses and Relative Displacements of the Superconducting Filaments and Stabilizer in a Large Aluminum Composite Conductor.- G-7 Design of an Aluminum-Stabilized Superconductor for Tokamak Toroidal Field Coils.- Strain Effects in Superconductors.- H-1 Parameters Affecting Prestrain and Bc2 in Multifllamentary Nb3Sn Conductors.- H-2 The Effects of Mechanical Stresses on the High Field Critical Current Density of in Situ Multifllamentary Nb3Sn Wires.- H-3 Superconducting and Mechanical Properties of in Situ Formed Cu-V3Ga Composites.- H-4 Effects of Alloying on the Strain Response of Critical Currents in Nb3Sn Conductors.- H-5 Stress Effects in Nb3Sn-Nb-Bronze Composites.- H-6 Fatigue and Friction Behavior of Superconductors in Various States.- H-7 Stress Effects in an Nb3Sn Conductor Proposed for Use in the Magnetic Fusion Energy Program.- H-8 MAXIMSUPER: A Computer Program to Assist in the Design of Multifilamentary Superconducting Composites.- Characterization of Superconducting Systems.- I-1 Effect of Thermal Contraction of Sample-Holder Material on Critical Current.- I-2 Current Sharing between Insulated Strands in a Superconducting Cable.- I-3 Monolithic Terminations for Multistrand Nb-Ti and Nb3Sn Cables.- I-4 Mechanical and Electrical Properties of Resistance Welds at Cryogenic Temperatures.- I-5 Characterization of Several Aluminum Alloys for Moderate-Strength High-Conductivity Applications.- I-6 Structural Analysis of Nb-Nbx-Oy-Pb Josephson Tunnel Junctions for 2e/h Measurements.- I-7 Internally Cooled Nb3Sn Cable Performance in a Solenoid.- I-8 An Investigation of Cooldown Strain in Potted Superconductive Magnets.- Stability and Training in Superconductors.- J-1 Propagation of Normal Zones in Thermally Insulated Superconductors.- J-2 Stability Measurements of a Large Nb3Sn Force-Cooled Conductor.- J-3 AC Losses and Stabilization of Nb3Sn Superconducting Tapes.- J-4 Recovery of Superconductivity of Formvar-Coated Composite Nb-Ti/Cu from Postquench Conditions.- J-5 Training of Epoxy-Impregnated Superconductor Windings.- Indexes.- Author Index.- Material Index.