Advances in cryogenic engineering materials

The Third International Cryogenic Materials Conference (ICMC) was held in Madison, Wisconsin, in conjunction with the Cryogenic Engineering Conference (CEC) in August 1979. The University of Wisconsin hosted the two conferences in an excellent manner and deserves special recognition and praise. The synergism produced by conducting the two conferences simultaneously continues to be strong. Materials remain a demanding challenge and, in some cases, an obstacle to effective application of cryogenic technology. The association of materials specialists and cryogenic engineers every other year centers their attention on the most needed areas of research. The present ICMC Board met during the conference and elected two new members, E. W. Collings (U. S.) and D. Evans (England). The board voted to conduct two smaller, special-topic conferences in 1980. These are Filamentary A15 Superconductors, which was held at Brookhaven National Laboratories, Upton, New York in May 1980, and Fundamentals of Nonmetallics and Composites at Low Temperatures, held in Geneva, Switzerland in August 1980. The 1981 CEC/ICMC will be held August 10 through 14 in San Diego, California.

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.

The Fourth International Cryogenic Materials Conference (ICMC) was held in San Diego, California in conjunction with the Cryogenic Engineer­ ing Conference (CEC) on August 10-l4, 1981. The synergism produced by conducting the two conferences together remains very strong. In the ap­ pl1cation of cryogenic technology, materials continue to be a demanding challenge, and sometimes, an obstacle. The association of materials and cryogenic engineers increases their awareness of recent research in each other's fields and influences the course of future research. Many contributed to the success of the 1981 conference. J. W. Morris of the University of California--Berkeley was ICMC Conference Chairman. E. N. C. Dalder of Lawrence Livermore Laboratories was ICMC Structural Program Chairman; D. C. Larbalestier of the University of Wisconsin-­ Madison, and D. K. Finnemore of Iowa State University were Superconducting Materials Program Chairmen. Local arrangments were expertly coordinated by R. E. Tatro of General Dynamics--San Diego. The CEC Board, especia11y their conference chairman, T. M. Flynn, of the National Bureau of Stan­ dards, Boulder, contributed very substantia1ly to conference planning and implementation. All of their efforts provided the foundation of the largest CEC/ICMC ever. We thank the Office of Naval Research and the Office of Fusion Energy and Basic Energy Sciences of the Department of Energy for providing needed financial support for the conference. Fina11y, we especially thank M. Stieg, who prepared the papers for the new procedures and format used in this volume.

General Reviews.- Structural Alloys.- Nonmetallics and Composites.- Flux Pinning in Superconductors.- High-Field Superconductors.- A15 Superconductors.- Multiply-Connected Superconductors.- Superconductor Properties and Measurements.- Strain Effects in Superconductors.- Superconductor Performance.- Fabrication - Superconductors.- Fabrication — Structural Alloys and Composites.- Indexes.- Author Index.- Material Index.

The Fifth International Cryogenic Materials Conference (ICMC) was held in Colorado Springs, Colorado in collaboration with the Cryogenic Engineering Conference (CEC) on August 15-19, 1983. The growth and success of the joint conferences is a result of their complementary program and close cooperation. Materials remain a challenge in the application of cryogenic technology and sometimes, as in the case of superconductors, are the driving force for the technology. The association of materials and cryogenic engineers increases their awareness of recent research in their respective fi. elds and influences the course of future research and applications. Many contributed to the success of the 1983 conference: E. W. Collings of Battelle Memorial Institute was the ICMC Confer- ence Chairman; M. Suenaga of Brookhaven National Laboratories, the ICMC Program Chairman; and L. L. Sparks of the National Bureau of Standards, the ICMC Local Arrangements Chairman. J. M. Wells and A. I. Braginski of Westinghouse R & D Center, G. Hartwig of the Nuclear Research Center of Karlsruhe, and K. T. Hartwig of the University of Wisconsin assisted the Program Chairman in metallic metals, superconducting materials, nonmetallic materials, and cryo- physical properties, respectively. Excellent conference management was provided by Centennial Conferences. We especially thank M. Stieg, who coordinated the preparation of the papers for this volume. The CEC Board, especially their conference chairman, C. D. Henning of Lawrence Livermore National Laboratories, contributed very substan- tially to conference planning and implementation.

Stiffness and Internal Stresses of Woven-Fabric Composites at Low Temperatures.- Dynamic Young's Modulus and Internal Friction in a Composite Material at Low Temperatures.- Fatigue of Glass-Epoxy Composite at 77K and 300K: Observation and Prediction.- Acoustic Emission from Composite Materials at Low Temperatures.- Problems of Cryogenic Interlaminar Shear Strength Testing.- Mechanical Properties of Organic Insulators for Superconducting Magnets after Low Temperature Irradiation.- Epoxies for Low Temperature Application Impregnating Technology.- Correlation of Dielectric and Mechanical Damping at Low Temperatures.- Optical Relaxation Processes in Polymers at Low Temperatures (Invited).- Low Temperature Fracture Strain at High Deformation Rates.- The Chemistry of Radiation Damage in Epoxide Resins.- Tensile, Compressive, and Shear Properties of a 64-kg/m3 Polyurethane Foam at Low Temperatures.- The Low-Temperature Thermal Conductivity of Rubber.- Photomechanical Stress Analysis under Cryogenic Environments.- Nondestructive Evaluation of Thick Austenitic Stainless Steel Weldments by Shear Horizontal Acoustic Waves.- Low Temperature Strengthening of Austenitic Stainless Steels with Nitrogen and Carbon.- Nitrogen-Containing 25Cr-13Ni Stainless Steel as a Cryogenic Structural Material.- The Development of a Nitrogen-Strengthened High-Manganese Austenitic Stainless Steel for a Large Superconducting Magnet.- Mechanical Properties of High Yield Strength High Manganese Steels at Cryogenic Temperatures.- An Fe-Mn-Al Austenitic Steel for Cryogenic Uses.- Development of a High-Strength High-Manganese Stainless Steel for Cryogenic Use.- The Influence of Processing on the Cryogenic Mechanical Properties of High Strength High Manganese Stainless Steel.- Effect of Strain Rate on Measured Mechanical Properties of Stainless Steel at 4 K.- Strengthening and Serrated Flow of High-Manganese Nonmagnetic Steel at Cryogenic Temperatures.- Mechanical Properties of Cold-Rolled and Aged Fe-Ni-Cr-Ti Austenitic Alloys for Low Temperature Use.- A New Nickel-Free Cryogenic Steel, 06AlNbCuN, and Its Fracture-Safety Evaluation.- Development of the New Cryogenic Structural Material for Fusion Experimental Reactor.- The Influence of Prestrain and Transformation Mode on the Mechanical Properties of Nitrogen Stabilized Austenitic Steel.- The Microstructure and Properties of a Cryogenic Steel Fe-12Cr-6Ni-9Mn-N.- 32Mn-7Cr Austenitic Steel for Cryogenic Applications.- Magneto-mechanical Effects in 304 Stainless Steels.- The Temperature Dependence of the Tensile Yield Strength of Selected Austenitic Steels.- Progress in Cryostructural Materials and Their Welding in the USSR (Invited).- Low Temperature Strength and Toughness of Thermomechanically Treated and EB Welded Fe-13%Ni-3%Mo-Ti Alloys.- Welding Superalloy Sheet for Superconducting Cable Jackets.- The Mechanism of Embrittlement of the Heat-Affected Zone of Metastable Austenitic Steel Welded Joints.- Fracture Toughness of 25Mn Austenitic Steel Weldments at 4 K.- Aging Response and Cryogenic Mechanical Properties of an In-Sn Eutectic Solder Alloy for Josephson Packaging.- Cryogenic Creep of Metals (Invited).- Transitions in Fatigue Processes at Low Temperature.- Cryogenic Fatigue Crack Growth Rate Properties of JBK-75 Base and Autogenous Gas Tungsten Arc Weld Metal.- The Use of Inconel Alloy 706 as a Structural Material in the 300 MVA Superconducting Generator.- Low Temperature Mechanical Properties of CeO2-Alloyed Tetragonal Zirconia.- Heat Treatments and Low Temperature Fracture Toughness of a Ti-6Al-4V Alloy.- Physical Properties: Knowing, Guessing and Measuring (Invited).- Low Temperature Thermal Conduction in Solids (Invited).- Metals and Alloys: Expansion and Contraction (Invited).- Metallic Glasses (Invited).- An Apparatus to Determine the Heat Capacity and Thermal Conductivity of a Material from 1 to 300 K in Magnetic Fields up to 9 T.- Ceramic Composites for Enthalpy Stabilization of Superconducting Wire.- Electrical Resistivity of Metals and Alloys at Cryogenic Temperatures: A Review (Invited).- The Effect of Mill Temper on the Mechanical and Magnetoresistive Properties of Oxygen-Free Copper in Liquid Helium.- Degradation of Copper Stabilizer in a Superconducting Wire Induced by Cyclic Stressing at Cryogenic Temperature.- Magnetic Properties and Ferromagnetic Shielding of Ni-Fe-Mo Alloys at Cryogenic Temperatures.- Magnetic Susceptibility and Strain-Induced Martensite Formation at 4 K in Type 304 Stainless Steel.- Peculiarities of the Low-Temperature Electrical and Magnetic Properties in Fe-Cr-Ni-Mn Alloys.- Effect of the Structure of Fe-Cr-Ni Alloys Strained at Low Temperatures on Their Electrical Resistivity.- Materials for Superconducting Electronics (Invited).- Tunneling and Surface Properties of Oxidized Metal Overlayers on Nb (Invited).- Barrier/Electrode Interface Structure and I-V Characteristics of NbN Josephson Junctions (Invited).- All Refractory, High Tc Josephson Device Technology (Invited).- Preparation of High Tc Nb-(Ge,Si) Thin Films at Low Substrate Temperature (Invited).- Superconducting NbN Film Treatments.- Dependence of Tc Phase Composition for Superconducting Nb-Ge Films Prepared by DC-Magnetron Sputtering.- Oxidation Mechanism of the Surface of A15 Superconductors.- Tunneling Studies of VN Thin Films.- Fabrication of High Tc NbN Films by Ion Beam Deposition Technique.- Homoepitaxial Growth of Nb3Ge on Nb3Ge.- Preparation of NbCxN1?x Thin Films by High Rate Reactive Sputtering.- Determination of Optimum Preparation Parameters for Thin High-Tc Nb3Ge Films.- Local Investigation of Superconducting Transition of Nb3Ge Films.- Flux Pinning in Ultrafine Filamentary Composites (Invited).- Phase Relationships and Superconducting Properties of Ternary Systems Used in the Bronze Process (Invited).- The Relationship between the Martensitic Phase Transition and the Superconducting Properties of A15 Compounds (Invited).- High Field NbN Superconductor on Carbon Fibers (Invited).- Preparation of Superconducting Germanium Alloy Filament Using the Method of Glass-Coated Melt Spinning.- Superconducting Properties of V2(Hf,Zr) Laves Phase Multifilamentary Wires.- Superconducting Wires of Pb-Mo-S by Electro-Plating Technique.- An Overview of Practical Superconductor Development in Japan (Invited).- Superconducting Properties of Nb3Sn Multifilamentary Wires Fabricated by Internal Tin Process.- Properties of (Nb-Ta)3Sn-Filamentary Conductors.- Manufacture and Superconducting Properties of Bronze Processed Nb3Sn Monofilamentary Wires with Be Additions.- On the Nature of Coupling of In Situ Superconductors.- High-Field Current-Carrying Capacities of 'Titanium Bronze' Processed Multifilamentary Nb3Sn Conductors with Pure and Alloys Cores.- The Effects of Indium Addition on the Properties of Internal Tin Diffusion Processed Nb3Sn Wires.- Development of Nb3Sn Cabled Conductor by External Diffusion Process and the Effect of Strain on the Critical Current.- The Effect of Silicon Impurities on Superconducting Properties of V3Ga-Cu Wire.- Improved Performance Powder Metallurgy and In Situ Processed Multifilamentary Superconductors.- Optimization of High Current Density A-15 Superconductors Made by the ECN Powder Method.- Strain Effects in Superconducting Compounds (Invited).- Acoustic Emission in Materials for Superconductor Applications, A Review (Invited).- Long-Range Atomic Order, Crystallographical Changes and Strain Sensitivity of Jc in Wires Based on Nb3Sn and Other A15 Type Compounds.- Elastic Behavior of Polycrystalline Nb3Sn, V3Ga, and Nb3Ge.- Study of Strain Effects on Critical Current and Mechanical Property in "In Situ" Nb3Sn Conductor.- Effect of Internal Reinforcement on the Critical Current Density of Nb Sn Wires.- Effects of Incoloy 903 and Tantalum Conduits on Critical Current in Nb3Sn Cable-In-Conduit Conductors.- Effects of Hot Isostatic Pressing on the Superconducting Properties of Nb3Sn Multifilamentary Wires.- Electromagnetic Theory for In Situ Superconductors (Invited).- Magnetic Impurity Scattering in In Situ Superconductors.- Smooth Transition of Nb3Al Wire Fed by AC Current in High Magnetic Field.- Hysteresis in a Fine Filament NbTi Composite.- AC Losses in Superconducting Mono and Multifilamentary NbTi Wires Fed by AC Current at Different Frequency Values.- AC Losses of 19-Strain Subcables for the ANL 3.3 MJ Coil.- Current-Carrying Capacity and Energy Losses in Hydrostatically Extruded NbTi Wires.- Critical Current Measurements on a NbTi Superconducting Wire Standard Reference Material.- Pulsed Magnetic Field Testing of Multifilamentary Nb3Sn Superconducting Wire.- Influence of Stabilizing Copper on the Quench Characteristics of Nb3Sn Wire.- Training Studies of Epoxy-Impregnated Superconductor Windings - Part III: Epoxies, Conductor Insulations and Copper Ratio.- Indexes.- Author Index.- Materials Index.

The Sixth International Cryogenic Materials Conference (ICMC) was held on the campus of Massachusetts Institute of Technology in Cambridge in col­ laboration with the Cryogenic Engineering Conference (CEC) on August 12-16, 1985. The complementary program and the interdependence of these two dis­ ciplines foster the conference. Its manifest purpose is sharing the latest advances in low temperature materials science and technology. Equally im­ portant, areas of needed research are identified, prioriti-es for new research are set, and an increased appreciation of interdisciplinary, interlaboratory, and international cooperation ensues. The success of the conference is the result of the. able leadership and hard work of many people: S. Foner of M.I.T. coordinated ICMC efforts as its Conference Chairman. A. I. Braginski of Westinghouse R&D Center planned the program with the assistance of Cochairmen E. N. C. Dalder of Lawrence Livermore National Laboratory, T. P. Orlando of M.I.T., D. O. Welch of Brookhaven National Laboratory, and numerous other committee members. A. M. Dawson of M.I.T., Chairman of Local Arrangements, and G. M. Fitzgerald, Chairman of Special Events, skillfully managed the joint conference. The contributions of the CEC Board, and particularly its conference chairman, J. L. Smith, Jr. of M.I.T., to the organization of the joint conference are also gratefully acknm.ledged.

• Austenitic Steel Development.- Austenitic Steel Welding.- Composites and Polymers.- Refrigeration Materials.- Mechanical Properties.- Physical Properties.- Nondestructive Evaluation.- Materials and Devices for Superconducting Electronics.- Superconducting Nitride Films.- Fine Filamentary Superconductors.- Superconductors — Ac Losses
• Mechanical, Electromagnetic, and Physical Properties.- Radiation Damage and Flux Pinning in Superconductors.- Multifilamentary Nb3Sn Superconductors.- New Superconducting Materials and Methods.- Indexes.- Author Index.- Materials Index.

Review.- General Superconductor Theory, Measurement, and Processing.- Low Temperature Superconductors — Nb3Sn.- Low Temperature Superconductors — NbTi.- Low Temperature Superconductors — Newer Materials.- High Temperature Superconductors — YBCO.- High Temperature Superconductors — Bi-Based.- High Temperature Superconductors — Other Ceramics.- Pure Metal Cryoconductors.- Magnetic Materials.

The ninth International Cryogenic Materials Conference (ICMC) was held on the campus of the University of Alabama at Huntsville (UAH) in collaboration with the Cryogenic Engineering Conference (CEC) on June 11-14, 1991. The continuing bond between these two major conferences in the field of cryogenics is indicative of the extreme interdependence of their subject matter. The major purpose of the conference is sharing of the latest advances in low temperature materials science and technology. However, the many side benefits which accrue when this many experts gather, such as identification of new research areas, formation of new collaborations which often cross the boundaries of both scientific discipline and politics, and a chance for those new to the field to meet the old-timers, may override the stated purpose. This 1991 ICMC was chaired by F. R. Fickett of the National Institute of Standards and Technology. K. T. Hartwig, of Texas A&M served as Program Chairman with the assistance of eleven other Program Committee members. We especially appreciate the contributions of the CEC board and its Conference Chairman, J. Hendricks of Alabama Cryogenic Engineering, to the organization. of this joint conference. UAH hosted the conference. The local arrangements and management, under the watchful eye of Ann Yelle and Mary Beth Magathan of the UAH conference staff, were excellent. Participation in the CEC/ICMC continues to exceed expectations with 650 registrants for the combined conference.

• Mechanical Properties of Incoloy 908
• I.S. Hwang, et al. Joining of Austenitic Stainless Steels for Cryogenic Applications
• T.A. Siewert, C.N. McCowan. Creep of Indium at Low Temperatures
• R.P. Reed, R.P. Walsh. Charpy Specimen Tests at 4 K
• R.L. Tobler, et al. Reactor Neutron and Gamma Irradiation of Various Composite Materials
• N.A. Munshi. Electrical Resistivity of Nanocrystalline NiP Alloys
• K. Lu, et al. Coefficient of Friction Measurements of Solid Film Lubricants at Cryogenic Temperatures
• L.O. El-Marazki. Several Properties of Impregnating Epoxy Resins Used for Superconducting Coils
• H. Moriyama, et al. Shear Behavior of Glass-Reinforced Systems at Low Temperatures
• P.E. Fabian, et al. Results of the First VAMAS Intercomparison of AC Loss Measurements
• K. Itoh, et al. Progress and Problems in Understanding Hysteresis Loss
• W.J. Carr, Jr. The Properties of Metal Contacts on BSCCO Superconductors
• T. Kusaka, et al. 145 additional articles. Index.

The 1993 International Cryogenic Materials Conference (ICMC) was held at the Albuquer- que Convention Center in Albuquerque, New Mexico in conjunction with the Cryogenic Engi- neering Conference (CEC) on July 12-16. The interdependent subjects of the two conferences attracted more than eight hundred participants, who came to share the tatest advances in low- temperature materials science and technology. They also came for the important byproducts of the conferences: identification of new research areas, exploration of collaborative research possi- bilities, and the establishment and renewal of professional relationships. K. Theodore Hartwig (Texas A&M University), asChairman ofthe 1993 ICMC; T. Scott Kreilick (Hudson International Conductors), as Program Chairman; and thirteen other Program Committee members expertly arranged the ICMC sessions and activities. The contributions of the CEC board and its Conference Chairman Walter F. Stewart of the Los Alamos National Laboratory (LANL) were centrat to the organization ofthe tenth CEC/ICMC, which was hosted by LANL. The local arrangements and management, under the skillful guidance of Jan C. Hull (LANL), were exemplary. Frederick Edeskuty (LANL) served as Exhibits Chairman, and L. Kim Nguyen (LANL), as Conference Support Liaison.

Superconductors: High-Temperature Superconductors: Properties. High-Temperature Superconductors: Processing. High-Temperature Superconductors: Applications. High-Temperature Superconductors: Films and Devices. Cryconductors and Stabilizers. Low-Temperature Superconductors: AC Loss. Low-Temperature Superconductors: Stability. Cryocooler Materials. Cryoconductors. Low-Temperature Superconductors NbTi. Low-Temperature Superconductors: A15 Compounds. Structural Materials: Nonmetallic Composites: Properties and Radiation Resistance. Resins: Properties and Radiation Resistance. Austenitic Steels: Properties and Magnetic Field Effects. Nickel-Base Alloys: Properties. Aluminum Alloys: Properties. Special Low-Temperature Mechanical-Property Phenomena. Coil Pack, Divertor, and Diode Materials and Analyses. 183 articles. Index.

The 1995 International Cryogenic Materials Conference (lCMC) was held at the Greater Columbus Convention Center in Columbus, Ohio, in conjunction with the Cryogenic Engineering Conference (CEC) on July 17-21. The interdependent subjects of the two conferences attracted more than eight hundred participants, who came to share the latest advances in low-temperature materials science and technology. They also came for the important by products of the conferences: identification of new research areas, of collaborative research possibilities, and the establishment and renewal of exploration professional relationships. Ted Collings (Ohio State University), as Chairmen of the 1995 ICMC; Ted Hartwig (Texas A&M University), as Program Chairman; and twenty-one other Program Committee members expertly arranged the ICMC technical sessions and related activities. The contributions of the CEC board and its Conference Chairman James B. Peeples of CVI, Inc., were central to the success of the eleventh CEC/ICMC. Jeff Bergen of Lake Shore Cryogenics served as Exhibits Chairman. Local arrangements and conference management were expertly handled under the guidance of Centennial Conferences, Inc. Skillful assistance with editing and preparation ofthese proceedings was provided by Ms. Vicky Bardos ofSynchrony, Inc.

A-Structural and Cryocooler Materials: Resins: Properties and Radiation Resistance. Nonmetallic Composites: Properties and Radiation Resistance. Aluminum Alloys: Properties. Austenitic Steels: Mechanical and Physical Properties. Nickel-Base Alloys: Mechanical and Physical Properties. Magnetic Refrigerator Materials: Properties and Application. Copper Alloys: Properties and Processing. Special Low-Temperature Mechanical Property and Phenomenon. B-Superconductors: High-Temperature Superconductors: Properties. High-Temperature Superconductors: Processing. High-Temperature Superconductors: Applications. High-Temperature Superconductors: Thin Films and Applications. Cryoconductors and Stabilizers. Low-Temperature Superconductors: Artificial Pinning Centers. Low-Temperature Superconductors: NbTi. Low-Temperature Superconductors: AC Losses, Stability and Current Distribution in Cables. Low-Temperature Superconductors: A-15 Compounds. 179 additional articles. Indexes.

"Since 1954 Advances in Cryogenic Engineering has been the archival publication of papers presented at the biennial CEC/ICMC conferences. Advances in Cryogenic Engineering resides throughout the world in the libraries of most institutions that conduct research and development in cryogenic engineering and applied superconductivity. The publication includes invited, unsolicited, and government-sponsored research papers in the research areas of superconductors and structural materials for cryogenic applications. All of the papers published must (1) be presented at the conference, (2) pass the review process, and (3) report previously unpublished theoretical studies, reviews, or measurements of material properties at low temperatures." Victoria A. Bardos, Managing Editor

• Part A: Structural and Cryocooler Materials Nickel-Base Alloys: Mechanical and Physical Properties: 1.Effects of an 8 Tesla Magnetic Field on Mechanical Properties of Incoloy 908 Alloy at 4 K
• T. Kadota, et al. 2.Avoidance Method Study for Sagbo Cracking during Heat Treatment of a ITER CS Model Coil Conductor Using Incoloy 908 Jacket
• T. Kato, et al. Austenitic Alloys & Steels: Mechanical & Physical Properties 9.Selection of Tokamak Toroidal Field Coil Case Structural Materials
• F.M.G. Wong, N.A. Mitchell. 10.Trial Fabrication of Heavy Section Base Metals and Welded Joints for ITER TF Coil
• K. Ishio, et al. Insulation Materials and Coatings: Development, Properties, and Testing 22.Cryomechanics and Double-Notch Interlaminar Shear Strength of G-10 Cr Glass-Cloth/Epoxy Laminates
• Y. Shindo, et al. 23.Development of U.S./ITER CS Model Coil Turn Insulation
• R.P. Reed, et al. Polymers, Composites, and Epoxies 33.Free Volume and Cryogenic Properties of Hybrid Materials
• T. Okada, et al. 34.Properties of Materials for Use in Liquid Hydrogen Containment Vessels
• S.J. Canfer, D. Evans. Aluminum and Copper Alloys: Properties and Processing 40.Pop-In Phenomena in A1-Li Alloy
• A. Bussiba, et al. 41. Optimization Studies on High-Strength Ag-Cu Conductors
• F. Heringhaus, et al. Thermal and Mechanical Properties 45.Problems Involved in Determining the Mechanical Properties of Solid Nitrogen and a Composite of Solid Nitrogen and Aluminum Foam (40 K-61 K) 46. Simple Guarded Hot Plate Technique for Making Thermal Conductivity Measurements of Composite Materials at Cryogenic Temperatures
• R.J. Oram, E.G. Wolff Part B: Superconductors: High Temperature Superconductors: Processing 50. Oxygen Annealing of YBCO/Gold Thin-Film Contacts
• Y. Xu, et al. 51. Synthesis of RE (Gd, Sm, Nd) Ba2Cu3O7-X Superconductors through the Diffusion Process
• K. Tachikawa, et al. High Temperature Superconductors: Properties 71. Magnetic Property of the YBaCuO-System Superconductors
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The 1999 Joint Cryogenic Engineering Conference (CEC) and International Cryogenic Materials Conference (ICMC) were held in Montreal, Quebec, Canada from July 12th to July 16th. The joint conference theme was "Cryogenics into the Next Millennium". The total conference attendance was 797 with participation from 28 countries. As with previous joint CEC and ICMC Conferences, the participants were able to benefit from the joint conference's coverage of cryogenic applications and materials and their interactions. The conference format of plenary, oral and poster presentations, and an extensive commercial exhibit, the largest in CEC-ICMC history, aimed to promote this synergy. The addition of short courses, workshops, and a discussion meeting enabled participants to focus on some of their specialties. The technical tour, organized by Suzanne Gendron, was of Hydro-Quebec's research institute laboratories near Montreal. In keeping with the conference venue the entertainment theme was Jazz, culminating in .the performance of Vic Vogel and his Jazz Big Band at the conference banquet. This 1999 ICMC Conference was chaired by Julian Cave of IREQ - Institut de recherche d'Hydro-Quebec, and the Program Chair and Vice-Chair were Michael Green of the Lawrence Berkeley National Laboratory and Balu Balachandran of the Argonne National Laboratory respectively. We especially appreciate the contributions of both the CEC and ICMC Boards and the conference managers, Centennial Conferences, under the supervision of Paula Pair and Kim Bass, in making this conference a success.

Preface. Editorial. Best Paper Awards. 1999 International Cryogenics Materials Conference Board of Directors. A: Structural and Cryocooler Materials. Mechanical Properties: Austenitic Alloys & Steels. Mechanical Properties: Non-Ferrous Alloys. Mechanical Properties: Structural Composites. Mechanical Properties: Polymers. Mechanical Properties: Ceramics. Physical Properties: Metals, Polymers, Ceramics, & Composites. Magnetic Materials. Testing Methods. B: Superconductors. High Temperature Superconductors: Processing. High Temperature Superconductors: Properties. High Temperature Superconductors: Applications. High Temperature Superconductors: Coated Conductors. Low Temperature Superconductors: NbTi. Low Temperature Superconductors: A-15 Compounds. Low Temperature Superconductors: Ac Losses, Stability, & Current Distribution. Low Temperature Superconducting Cables. Indexes. Author Index. Materials Index. Subject Index.