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Glidcop
The Thermal Expansion of Some Common Linac Materials*
Glidcop Brazing in Sirius' High Heat Load Front-End
E-15798 Cover
Creep Properties of an Extruded Copper–8% Chromium–4% Niobium Alloy
DOE's Oakland Office to Close by End of 2004, Operations Will Shift To
Vacuum Materials
GLIDCOP, Subjected to Dynamic Loads: It Is a Composite Material with a Copper Matrix Strengthened with Aluminium Oxide Ceramic Particles
Friction Stir Welding of GR-Cop 84 for Combustion Chamber Liners
North Carolina), Which Are Very Commonly Used in Synchrotron Components
Glidcop Brazing in Sirius' High Heat Load Front-End Components
Glidcop [5] and Oxygen-Free Copper (OFC) Are Used to Build the Structures of These Components
The Use of Dispersion-Strengthened Copper in Accelerator Designs*
Brazing of Mo to Glidcop Dispersion Strengthened Copper for Accelerating Structures
Superconducting and Thermal Properties of Ex-Situ Glidcop® Sheathed Multifilamentary Mgb2 Wires
Analysis of Vacuum-Brazed Joints of Glidcop®
Metallurgical Evaluation of Dissimilar Metal Joints for Accelerator Vacuum Chamber Construction at the Advanced Photon Source Upgrade Project * G
Resistance Welding by David Steinmeier
Brazing of Mo to Glidcop Dispersion Strengthened Copper for Accelerating
Top View
Comparison of Grcop-84 to Other Cu Alloys with High Thermal Conductivities
Physical and Mechanical Properties of Copper and Copper Alloys
Three-Dimensional Finite-Element Thermal/Mechanical Analytical Technique for High-Performance Traveling Wave Tubes
Thermal Fatigue Life Prediction of Glidcop® Al-15
United States Patent (19) 11 Patent Number: 4,999,336 Nadkarni Et Al
Tribological Characteristics of Copper Based Composites with Al2o3
Effect of Nickel–Phosphorus and Nickel
Grcop-84: a High-Temperature Copper Alloy for High-Heat-Flux Applications
Structural Materials for High-Heat Flux Applications*
Effect of Temperature on the Low Cycle Fatigue Behavior of Glidcop Al-15
Glidcop Brazing in Sirius' High Heat Load Front-End
Plasma Physics Laboratory
A Review of the Us Joining Technologies for Plasma Facing Components in the Iter Fusion Reactor
Comparison of Grcop-84 to Other Cu Alloys with High Thermal Conductivities
GLIDCOP®, Subjected to Dynamic Loads: It Is a Composite Material with a Copper Matrix Strengthened with Aluminium Oxide Ceramic Particles
V. J. Toplosky , K. Han , R. P. Walsh and C.A. Swenson
Glidcop® Al-60
Hermetic Electronic Packaging
Comparison of AMZIRC and Grcop-84