The Corrosion Resistant Metals Committee and the Nuclear Metallurgy Committee of the Institute of Metals Division of The Metallurgical Society of AlME sponsored a 2-1/2 day symposium on "Corrosion by Liquid Metals". The symposium was held in Philadelphia, October 13-15, 1969, during the 1969 Fall Meeting of the Metallurgical Society and the Materials Engineering Con gress of the American Society for Metals. Cosponsors included the American Society for Metals and the American Nuclear Society. The purpose of the symposium was to bring together the several aspects of the subject of corrosion by…mehr
The Corrosion Resistant Metals Committee and the Nuclear Metallurgy Committee of the Institute of Metals Division of The Metallurgical Society of AlME sponsored a 2-1/2 day symposium on "Corrosion by Liquid Metals". The symposium was held in Philadelphia, October 13-15, 1969, during the 1969 Fall Meeting of the Metallurgical Society and the Materials Engineering Con gress of the American Society for Metals. Cosponsors included the American Society for Metals and the American Nuclear Society. The purpose of the symposium was to bring together the several aspects of the subject of corrosion by liquid metals, so that perspective could be provided on the entire subject, to help in dividuals dealing with liquid metal corrosion problems acquire a sound basis of understanding, and to provide an opportunity for discussion between those doing research in this field. An exposition of the subject is timely, in view of the in creasing development of liquid metal heat and power sources for special purposes, including heat-pipe systems, NASA's SNAP power systems, and the AEC's liquid metal fast breeder reactor system. This book contains the proceedings of the symposium divided into four separate topics: I. Corrosion of Steels by Sodium, II. Alkali-Refractory Metal Interactions, III. Corrosion by Non-Alkali Metals, and IV. Analysis of Solid-Liquid Metal Inter actions (two sessions).Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
1. The Evaluation of Particulates Deposited in Flowing Non-isothermal Sodium Systems.- 2. Interaction Effects Between Dissimilar Metals in High Velocity Sodium at Temperatures up to 760°C. I. Mass transfer of Vanadium onto Type 321 Stainless Steel.- 3. Corrosion of Type 316 Stainless Steel with Surface Heat Flux in 1200°F Flowing Sodium.- 4. Sodium Corrosion of Westinghouse Liquid Metal Fast Breeder Reactor (LMFBR) Materials.- 5. The Corrosion of Stainless Steel in Oxygen-Contaminated Sodium at 1200 F and 1400 F.- 6. Evaluation of Materials-Compatibility Problems in the EBR-II Reactor.- 7. Radioactive Material Transport in Flowing Sodium Systems.- 1. The Effects of Exposure to Flowing Sodium on Vanadium Alloys in Stainless Steel Containment Systems.- 2. Application of Thermodynamic and Kinetic Parameters of the V-O-Na System to the Sodium Corrosion of Vanadium-Base Alloys.- 3. Corrosion of Oxygen Contaminated Tantalum in NaK.- 4. Penetration of Refractory Metals by Alkali Metals.- 5. Some Alkali Metal Corrosion Effects in a Rankine Cycle Test Loop.- 6. The Effects of Welding Atmosphere Purity on the Lithium Corrosion Resistance of Refractory Alloys.- 7. The Corrosion of Metals by Molten Lithium.- 1. Corrosion of Some Cobalt and Iron Base Alloys in Mercury.- 2. A 5000-Hour Test of a Eutectic Lead-Bismuth Circuit Constructed in Steel and Niobium.- 3. Diffusion Coatings Formed in Molten Calcium Systems. II. Variables in the System Ca-Cr-Fe.- 4. Corrosion Studies of Liquid Metal Heat Pipe Systems at 1000° to 1800°C.- 5. The Corrosive Action of Selenium Towards Various Materials in the Temperature Range 300 to 700°C.- 6. The Isothermal Corrosion (?+?) Ni-Sn Alloys in Pure Liquid Sn Component.- 7. An Anodic Treatment to Improve the Liquid Zinc Corrosion Resistance ofTantalum.- 1. Adsorption-Induced Embrittlement by Liquid Metals.- 2. Liquid Metal Embrittlement of Steel by Lead and Lead Alloys.- 3. Solid State Inhibition of the Liquid-Metal Embrittlement of Silver.- 4. Crack Initiation in the Zinc-Mercury Embrittlement Couple.- 5. The Grain Boundary Grooving of Iron in Liquid Sodium.- 6. The Solubilities of Several Transition Metals in Liquid Lead-Bismuth Eutectic.- 1. Oxidation-Reduction Reactions for Chromium and 304 Stainless Steel in Liquid Sodium.- 2. Solubility and Reactions of Oxygen in Sodium.- 3. Thermochemistry and Solution Chemistry in the Sodium-Oxygen-Hydrogen System.- 4. Measurements of the Solubility of Iron and Chromium in Sodium.- 5. The Segregation of Impurities and Particles in Sodium Systems.- 6. The Corrosion of and Mass Transfer of Pure Iron, Nickel, Chromium, and Cobalt in 660-760°C Sodium.- 7. Solubilities of Molybdenum, Tungsten, Vanadium, Titanium, and Zirconium in Liquid Potassium.
1. The Evaluation of Particulates Deposited in Flowing Non-isothermal Sodium Systems.- 2. Interaction Effects Between Dissimilar Metals in High Velocity Sodium at Temperatures up to 760°C. I. Mass transfer of Vanadium onto Type 321 Stainless Steel.- 3. Corrosion of Type 316 Stainless Steel with Surface Heat Flux in 1200°F Flowing Sodium.- 4. Sodium Corrosion of Westinghouse Liquid Metal Fast Breeder Reactor (LMFBR) Materials.- 5. The Corrosion of Stainless Steel in Oxygen-Contaminated Sodium at 1200 F and 1400 F.- 6. Evaluation of Materials-Compatibility Problems in the EBR-II Reactor.- 7. Radioactive Material Transport in Flowing Sodium Systems.- 1. The Effects of Exposure to Flowing Sodium on Vanadium Alloys in Stainless Steel Containment Systems.- 2. Application of Thermodynamic and Kinetic Parameters of the V-O-Na System to the Sodium Corrosion of Vanadium-Base Alloys.- 3. Corrosion of Oxygen Contaminated Tantalum in NaK.- 4. Penetration of Refractory Metals by Alkali Metals.- 5. Some Alkali Metal Corrosion Effects in a Rankine Cycle Test Loop.- 6. The Effects of Welding Atmosphere Purity on the Lithium Corrosion Resistance of Refractory Alloys.- 7. The Corrosion of Metals by Molten Lithium.- 1. Corrosion of Some Cobalt and Iron Base Alloys in Mercury.- 2. A 5000-Hour Test of a Eutectic Lead-Bismuth Circuit Constructed in Steel and Niobium.- 3. Diffusion Coatings Formed in Molten Calcium Systems. II. Variables in the System Ca-Cr-Fe.- 4. Corrosion Studies of Liquid Metal Heat Pipe Systems at 1000° to 1800°C.- 5. The Corrosive Action of Selenium Towards Various Materials in the Temperature Range 300 to 700°C.- 6. The Isothermal Corrosion (?+?) Ni-Sn Alloys in Pure Liquid Sn Component.- 7. An Anodic Treatment to Improve the Liquid Zinc Corrosion Resistance ofTantalum.- 1. Adsorption-Induced Embrittlement by Liquid Metals.- 2. Liquid Metal Embrittlement of Steel by Lead and Lead Alloys.- 3. Solid State Inhibition of the Liquid-Metal Embrittlement of Silver.- 4. Crack Initiation in the Zinc-Mercury Embrittlement Couple.- 5. The Grain Boundary Grooving of Iron in Liquid Sodium.- 6. The Solubilities of Several Transition Metals in Liquid Lead-Bismuth Eutectic.- 1. Oxidation-Reduction Reactions for Chromium and 304 Stainless Steel in Liquid Sodium.- 2. Solubility and Reactions of Oxygen in Sodium.- 3. Thermochemistry and Solution Chemistry in the Sodium-Oxygen-Hydrogen System.- 4. Measurements of the Solubility of Iron and Chromium in Sodium.- 5. The Segregation of Impurities and Particles in Sodium Systems.- 6. The Corrosion of and Mass Transfer of Pure Iron, Nickel, Chromium, and Cobalt in 660-760°C Sodium.- 7. Solubilities of Molybdenum, Tungsten, Vanadium, Titanium, and Zirconium in Liquid Potassium.
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