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E-raamat: Advances in Cryogenic Engineering

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The Second International Cryogenic Materials Conference (ICMC) was held in Boulder, Colorado, in conjunction with the 1977 Cryogenic Engineering Con­ ference (CEC). Special thanks must be given to the University of Colorado for their skillful hosting of these two conferences. Collaboration between the two con­ ferences has been mutually beneficial, providing the materials special ist with insight into new applications and design concepts and the cryogenic engineer with exposure to modern materials accomplishments and potentials. The Proceedings of the 1977 Cryogenic Engineering Conference are published in Volume 23 of Advances in Cryogenic Engineering. Both conferences will be held again simul­ taneously in Madison, Wisconsin, in August 1979. The success and growth of the two International Cryogenic Materials Con­ ferences have led to the formation of an ICMC Board of Directors. The board members will serve a four-year term and include: Chairman, R. P. Reed (U.S.), R. W. Boom (U.S.), A. F. Clark (U.S.), G. Hartwig (W. Germany), J. W. Morris (U.S.), M. Suenaga (U.S.), K. Tachikawa (Japan), J. Tanaka (Japan), and K. A. Yushchenko (USSR).

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Springer Book Archives
General Reviews.- A1 Large Superconducting Magnets for New Energy
Technologies.- A2 Low-Temperature Properties of Epoxy Resins and
Composites.- A3 The Development of Cryogenic Materials Science in the USSR.-
A4 A Low-Temperature Materials Research Program for Magnetic Fusion Energy.-
A5 Composite Materials for Cryogenic Structures.- A6 Summary of the
International Discussion Meeting on Radiation Effects on Superconductivity.-
A7 Fatigue Crack Growth Resistance of Structural Alloys at Cryogenic
Temperatures.- A8 Fe-Mn Alloys for Cryogenic Use: A Brief Survey of Current
Research.- A9 Elastic Constants at Low Temperatures: Recent Measurements on
Technological Materials at NBS.- Ferrous Alloys.- B1 Low-Temperature
Weldable Steels and Alloys.- B2 Cryogenic Properties of a New Tough-Strong
Iron Alloy.- B3 The Suppression of Low-Temperature Intergranular Brittleness
in Ferritic Fe-Mn Alloys.- B4 Surface Film Effects on Deformation Behavior
of Iron Single Crystals at Cryogenic Temperatures.- B5 Evaluation of
Weldments in Austenitic Stainless Steels for Cryogenic Applications.- B6
Note on the Fracture Properties of Fe-49Ni at Cryogenic Temperatures.-
Nonferrous Alloys.- C1 Fracture Strength of Thick 5083-0 Aluminum Alloy for
LNG Storage Tanks.- C2 Metallurgical Problems of Welding 1201 (Al6CuMn)
Alloy.- C3 Environmental-Assisted Fatigue Crack Propagation in 3003-0
Aluminum.- C4 The Influence of Processing and Heat Treatment on the
Cryogenic Fracture Mechanics Properties of Inconel 718.- C5 Experimental
Analysis of Cracks in Thin Metal Plates.- Structural AlloysPhysical
Properties.- D1 Specific Heats of Some Cryogenic Structural Materials
IFeNiBase Alloys.- D2 Magnetic Field Effect on ThermalConductivity of
Selected Metals.- D3 Standard Reference Materials for Thermophysical
Properties.- D4 Diffuse Cluster Superparamagnetism in Inconel X750.- D5
Temperature Dependence of Creep in F.C.C. and H.C.P. Metals at Low
Temperature.- Composites.- E1 Stainless Steel Fiber Organic Matrix
Composites for Cryogenic Application.- E2 Glass-Reinforced Epoxy Piping for
Liquid-Nitrogen-Cooled, AC Transmission Cables.- E3 Fiberglass-Epoxy in a
Conical Superconducting Field Magnet Support.- E4 Compressive Strength of
Glass-Fiber-Reinforced Composites at Room Temperature and 77 K.- E5 An Epoxy
Fiberglass Tension Member Support for Superconducting Magnets.- E6 Specific
Heats of Some Cryogenic Structural Materials IIComposites.- E7 Distribution
of the Effective Thermal Conductivity in a Porous Insulation System Subjected
to Internal Vapor Circulation.- SuperconductorsStress Effects.- F1 Fatigue
and Stress Effects in NbTi and Nb3Sn Multifilamentary Superconductors.- F2
Evaluation of Large, Multifilament Nb3Sn Conductors with a New 12-Tesla
Tensile Test Apparatus.- F3 Influence of Tensile Stresses on the
Superconducting Temperature of Multifilamentary Nb3Sn Composite Conductors.-
F4 Mechanical Properties of Multifilamentary Nb3Sn Superconductors.- F5
Resistance to Strain Degradation in Preliminary UWMAK TF Coil Conductors for
Fusion Reactors.- SuperconductorsPinning.- G1 How Effectively Can Grain
Boundaries Pin Flux Lines?.- G2 Critical Currents in Thin Nb3Ge and Nb3Ga
Films.- SuperconductorsMultifilamentary.- H1 Critical Current Density in
Multifilamentary Composites.- H2 High-Current Al-TiNb Composite Conductor
for Large Energy Storage Magnets.- H3 Fabrication and Properties of an
Aluminum-Stabilized NbTiMultifilament Superconductor.- H4 Performance of
Multifilament Nb3Sn Conductors for High-Field Applications Prepared by
Competing Processes.- H5 Multifilamentary Nb3Sn Composites Incorporating a
High-Tin Bronze.- H6 Combined Transport Current and Transverse Field Losses
in Multifilament Superconductors.- H7 Alternating Field Losses in
Filamentary Superconductors Carrying DC Transport Currents.- H8
Superconductors for Tokamak Poloidal Field Coils.- SuperconductorsFilms and
Tapes.- I1 Preparation and Superconducting Properties of Thin NbN Films in
Magnetic Fields.- I2 Properties of Superconducting Nb3Sn Layers Used in RF
Cavities.- I3 Nb3Sn Conductors for AC Power Transmission: Electrical and
Mechanical Characteristics.- I4 Nb3Ge as a Potential Candidate Material for
15- to 25-T Magnets.- I5 Nb3Ge and Nb3Sn Films Prepared by High-Rate
Magnetron Sputtering.- Special Electrical Materials.- J1 Evaluation of
Metal-Foil Strain Gauges for Cryogenic Application in Magnetic Fields.- J2
Dielectric Loss Spectrum of Hydrated Vitreous Silica.- J3 Measurements of
Mechanical and Electrical Properties of High-Purity Aluminum.- U.S./USSR
Exchange Program on LNG Materials Research.- K1 Mechanical Properties of
Soviet and American Al-Mg Alloy Plates and Welds for LNG Systems.- K2
Mechanical Properties of U.S./USSR Al-Mg Plate and Welds for LNG
Applications.- K3 Low-Temperature Fracture Properties of a USSR Aluminum6%
Magnesium Alloy.- K4 An Evaluation of Three Steels for Cryogenic Service.-
K5 Investigation of Steels for Their Application in LNG Transportation and
Storage Welded Systems.- K6 Fracture Toughness of Cryogenic Alloys.- K7
Fracture Mechanics Parameters for an Iron13% Chromium19% ManganeseStainless
Steel and Its Welds at Cryogenic Temperatures.- Indexes.- Author Index.-
Material Index.
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