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发布时间:2017-02-06 来源:有色金属战略平台 点击量:1599
文集名称
Titanium and Titanium Alloys: Scientific and Technological Aspects
国别
俄罗斯
类别
世界钛会论文集
出版单位
PLENUM PRESS
出版日期
1982-03-01
载文量
230
简介
该文集为第三届世界钛会的会议论文集,会议于1976年5月18—21日在俄罗斯莫斯科举行。
本文集文章列表
Opening Speeches............[1-2]
Opening Speeches............[3-4]
Opening Speeches............[5-6]
Developments of the Production and Use of Titanium in the U.S.S.R ............[7-11]
Titanium Developments in the USA ............[13-18]
Titanium Developments in Europe ............[19-29]
Developments of Titanium in Japan ............[31-39]
Critical Review ............[41-61]
Physiochemical Principles and Research Trends in New Methods of Titanium Production ............[63-77]
Preparation of High-Titanium Slags ............[79-100]
The Production of Titanium Sponge by Magnesium Thermal Method ............[101-106]
Alloyed Titanium Sponge ............[107-115]
Electrorefining of Titanium ............[117-126]
Critical Review ............[127-139]
Laws of Obtaining the Require Structure, Composition and Properties of Two-Phase Titanium Alloy Ingots in Vacuum-Arc Melting ............[141-151]
Practical Experience with Pick Up of Gases during Melting in the Vacuum-Arc Furnace ............[153-160]
Electroslag Remelting of Titanium Ingots ............[161-167]
Exploitation and Development Trends of Large Vacuum-Arc Skull Casting Furnaces ............[169-178]
Quality of Ingots Melted in a Skull Furnace ............[179-187]
Peculiarities of Boron Behavior in Ingots of Alpha-Titanium Alloys ............[189-196]
Selective Evaporation of Some Titanium-Alloy Components in the Electron Beam Furnace ............[197-208]
Effect of Grain Modifiers on the Properties of Titanium Castings ............[209-212]
The Recycling of Titanium Scrap ............[213-221]
Discussion ............[223-227]
Critical Review ............[229-234]
Some Features of Non-Symmetric Cold Rolling on Titanium Alloys ............[235-242]
Development of Sheet Rolling Parameters for Titanium Alloys ............[243-252]
A Study of Titanium Flow in the Plastic Zone Deformation in the Sandwich Rolling with Titanium and Aluminum Alloys ............[253-261]
Rolling of Titanium and Its Alloys in Vacuum ............[263-272]
Development and Start-Up Problems of the Manufacture of Large Titanium Alloy Billets on Rolling Mills ............[273-279]
Rolling of Titanium Sections on Rolling Mills with Multiroll Passes ............[281-288]
Manufacture of Deformed Semi-Finished Products of Titanium Alloys ............[289-298]
Semi-Finished Shapes of Titanium Alloys ............[299-304]
Pattern of the Material Flow in the Lengthwise:Rolling in Grooves of Titanium Rings with a Flanged Cross-Section Profile ............[305-311]
Manufacture of Titanium Tubes on Helical Rolling Mills ............[313-320]
Titanium and Titanium Alloy Pipe and Tube Production in the U.S.S.R ............[321-326]
The Isothermal Forging of Titanium Alloys for Aerospace Application ............[327-336]
Some Deformation Flow Studies of Isothermally Forged Ti-6Al-4V Compressor Wheels ............[337-345]
Die-Forging of Titanium Alloys in Isothermal Conditions ............[347-353]
Forging and Extrusion of Products from Powder Titanium Billets ............[355-358]
Temperature Fields and Stresses in the Bulk Forming of Titanium Alloys ............[359-367]
Cold Working of Titanium and TiAl6V4 Alloy by Hydrostatic Extrusion ............[369-382]
The Relationship between Microstructure, Fracture Topography, and Fracture Toughness of Ti-6Al-4V Alloy Forgings ............[383-396]
Influence of Initial Microstructures on the Forgeability and Microstructure of Isothermally Forged Ti-6Al-4V Alloy ............[397-411]
Microstructural Control of Large Section Titanium Forgings ............[413-422]
Discussion ............[423-427]
Critical Review ............[429-466]
Critical Review ............[467-496]
Mobile Dislocation Density during the Plastic Flow in Ti-Interstitial Alloys at Low Temperatures ............[497-512]
Deformation Kinetics in Dilute Ti-Al and Ti-Sn Alloys at Low Temperatures ............[513-529]
Oxygen Dislocation Binding in the Beta Titanium Alloys ............[531-538]
Serrated Flow in α-Titanium Alloys ............[539-551]
The Cyclic Stress-Strain Response of Age-Hardenable Beta Titanium Alloys ............[553-567]
Effect of Crystal Structure of Titanium Alloy Components upon Fatigue Crack Propagation ............[569-576]
Some Observations on the Deformation and Fracture Characteristics of Age Hardening Ti-15Mo ............[577-588]
The Effect of Mean Stress on Fatigue Behavior of Ti-6Al-4V Alloy ............[589-600]
Fracture Toughness, Strength and Microstructure in α+β Titanium Alloys ............[601-613]
The Influence of the Composition and Structure on the Fracture Features of the Titanium Alloys ............[615-623]
Dependence of Fracture Toughness on the Composition and Structure of Titanium Alloys ............[625-635]
Fatigue Failure in Annealed Ti-6Al-4V Microstructures ............[637-648]
A Contribution to the Correlation Between Fracture Toughness, Microstructure, Fracture Appearance and Specimen Size for Ti-6Al-4V ............[649-661]
Fracture-Micros tructure Relationships in Titanium Alloys ............[663-677]
Effect of Temperature, Interstitial Content and Grain Size on the Fracture Behavior of Titanium ............[679-689]
The Effect of Microstructure on Fatigue Crack Propagation Rate in Ti-6Al-4V ............[691-704]
Intergranular Fracture of Titanium Alpha-Alloys at Temperatures above 0.5Tm ............[705-713]
‘In Situ' Electron Microscope Observations of Crack Propagation ............[715-723]
Formation of Texture and Structure During the Flow Turning of Titanium Alloys ............[725-738]
Room Temperature Flow Stress and Strain in Ti-(0-15) at % Al Alloys ............[739-745]
Relations of the Texture and the Strain Mechanism of Alpha-Titanium Alloys to the Stacking Fault Energy ............[747-756]
Interpretation of Phenomenas in Titanium and Its Alloys Working ............[757-768]
Analysis of the Behavior of Titanium Alloys under Plane Strain Conditions ............[769-779]
Hydrogen Embrittlement of Titanium and Its Alloys ............[781-790]
On the Interrelation of Crack Propagation with Mechanical Properties of Titanium Alloys ............[791-798]
Vacuum Fatigue Fracture of Ti-6Al-4V............[799-810]
Hydrogen and Section-Size Dependence of Fracture Toughness for Ti-6Al-4V Alloy Forgings............[811-824]
An Investigation into the Resistance to Crack Growth in Titanium Alloys in Air and in Sea Water............[825-835]
Deformation Hardening of the Two-Phase Ti Alloys in Superplastic Conditions............[837-839]
Discussion............[841-845]
Critical Review............[847-880]
Analysis of Passive Film on Titanium Formed in Dilute HC1 Solutions at Elevated Temperatures............[881-890]
Titanium Passivity and Electrochemical Behavior of Its Oxides and Hydrides............[891-901]
Kinetics of the Hydrogen Evolution Reaction on Titanium-Molybdenum Alloys............[903-914]
Corrosion and Passivity of the Cathode-Modified Titanium-Based Alloys............[915-925]
Studies of the Alloys of the Titanium-Molybdenum-Niobium-Zirconium System with Higher Corrosion Resistance in Acid Solutions............[927-940]
Corrosion Resistance of Titanium Alloy AT-3 in Sulphuric Acid Solutions at Elevated Temperatures............[941-947]
The Effect of Prolonged Oxidation on the Corrosion Resistance and Mechanical Properties of AT3 and AT6 Alloys............[949-957]
The Effect of Iron, Chromium, Aluminum, and Silicon on Corrosion and Electrochemical Properties of Titanium............[959-966]
Behavior of High-Strength Titanium Alloys in Their Passivated State............[967-979]
Influence of External Polarization on Corrosion Mechanical Strength of Titanium Alloys in a 3.5% NaCl Solution............[981-986]
NaCl-Induced Accelerated Oxidation of a Titanium Alloy............[987-993]
Hydrogen Absorption by Titanium and Titanium Alloys during Etching in Acid Solutions............[995-1004]
Hydrogen Absorption by Titanium Alloys............[1005-1013]
Corrosion Destruction of Metalloxidized Titanium Base Anodes & Current Carrying Titanium Constructions in Electrolytic Chlorine Production............[1015-1027]
Titanium and Titanium Alloy Preferential Weld Corrosion in Very Aggressive Corrosive Media............[1029-1037]
Titanium Alloys Corrosion-Behavior in Aggressive Mediums of Non-Ferrous and Ferrous Metallurgy............[1039-1043]
High Temperature Oxidation of Titanium Physical and Mathematical Models............[1045-1056]
Contribution to the Study of the Formation of Thin Oxide Films and Oxygen Chemisorption on Titanium by Ellipsometry, Nuclear Reaction Analysis and Microgravimetry............[1057-1067]
Segregation of Impurities or Alloying Elements on Titanium Surface............[1069-1080]
The Kinetics of Hot-Salt Stress-Corrosion Cracking in a High-Temperature Titanium Alloy............[1081-1088]
Structural and Kinetic Investigation of Oxidation Process of Titanium and Its Alloys, and Their Protection against High Temperature Gas Corrosion............[1089-1096]
Investigation on the Fracture Mechanism of Oxide Layers Growing on Titanium by Acoustic Emission............[1097-1105]
Critical Review............[1107-1117]
Weldability Study and Welded Joint High-Strength Titanium Alloys Properties............[1119-1129]
Heat Hardening of Welded Joints of (α+β) Titanium Alloys............[1131-1138]
High-Temperature Thermomechanical Treatment of Ti-Alloy Welded Joints in Ti-Al-Zr System............[1139-1144]
Nonoxidative Zonal Induction Heat Treatment of Welded Structures Titanium Alloys............[1145-1159]
Study of the Heat Affected Zone during Welding of Beta III Titanium Alloy............[1161-1170]
Investigation of Gas Cavity Formation in Nonaonsumable-Electrode Arc Welding of Titanium a-Alloy Joints............[1171-1176]
Low-Cycle Fatigue of α+β Titanium Alloy Welded Joints ............[1177-1188]
The Effect of Welding Speed and Edge Preparation on the Incidence of Porosity in TIG Welded Titanium............[1189-1196]
Investigation of the Influence of Stress Concentrators on Bend Ductility of Titanium Weld Joints............[1197-1200]
Technological Features of Ti Welding with Flux-Core Wire ............[1201-1207]
The Effect of Diffusion Bonding Variables on Structure and Properties of the Bonded Alpha + Beta Titanium Alloy............[1209-1219]
Sustained Load Crack Growth in Ti-6Al-4V Alloy Forgings............[1221-1230]
The Role of Ultrasonic Testing for the Production of Titanium Mill Products............[1231-1243]
Electron Beam Welding of VT6 Titanium Alloy in Aerospace Industries............[1245-1257]
Technological Possibilities of Electroslag Welding of Titanium Alloys............[1259-1267]
On Cold Brittleness Temperature of Titanium BT-22 Compositions Welded by Means of Electrical Sinter............[1269-1275]
Discussion............[1277-1279]
Critical Review............[1281-1305]
Specific Features of the Interaction Between Titanium and Elements of Groups V and VIA of the Periodic System............[1307-1317]
The Investigation of Phase Equilibriums in the Ti-Al-Zr-W System............[1319-1326]
Constitutional Diagram of a Part of the Ternary Titanium-Hafnium-Oxygen System............[1327-1334]
Investigation of the Titanium-Molybdenum Binary Phase Diagram............[1335-1349]
Constitutional Diagram of Ti-Ti5Si3-Ti2 Cu System............[1351-1355]
Studies of Fine Structure of An Ordered TiAl Alloy............[1357-1364]
A Thermodynamic Investigation of the Hydrogen-Titanium System............[1365-1375]
Gas-Phase Hydrogen Permeation Through Alpha-Titanium: Surface Film and Dimensional Effects............[1377-1390]
Magnetic Investigations of Electronic Bonding and α2 Through Phase Equilibria in the Titanium Aluminum System Titanium Aluminum System............[1391-1402]
Ordering Phenomena in ω Phases............[1403-1406]
Response of Superconducting Transition Temperature and Other Physical Properties to Phase Transformation, Precipitation, and Aging in Titanium-Base Transition-Metal-Binary Alloys............[1407-1419]
Microstructure and Properties of the Alloy Ti-11.5Mo-6Zr-4.5Sn (Beta Ⅲ)............[1421-1436]
The Effect of Heat Treatment on the Nature of the α/β Interface layer in α+β Titanium Alloys............[1437-1450]
The Ordering Kinetics in Splat-Quenched Ti-25Al Alloys............[1451-1459]
Magnetic Anisotropy in Monocrystalline and Textured Polycrystalline Ti-Al Alloys............[1461-1473]
Discussion............[1475.0]
Critical Review............[1477-1498]
Phase and Structure Transformations in Titanium Alloys on Rapid Heating............[1499-1508]
Phase Transformations During Heating of Titanium Alloys with Metastable Structure............[1509-1519]
On the Interaction between Alloying Elements in Solid Solutions of Titanium-Base Alloys............[1521-1529]
Investigation into the Internal Structure of α—Phase Crystals in Complex Titanium Alloys............[1531-1542]
The Effect of Alloying and Annealing Temperature on Structural State of Ti-Base Alloys............[1543-1553]
Oxygen Relaxation in Ultra High Purity Titanium-Oxygen Solid Solution............[1555-1558]
Metastable Phases in Quenched Titanium Alloys with Transition Elements............[1559-1565]
Transformation Characteristics of Transage Titanium 129............[1567-1581]
Variables of Heat-Hardening of Alpha + Beta Titanium Alloys............[1583-1593]
Relationship between Microstructures Obtained After Slack Quenching and Tempering, and Mechanical Properties of an Alloy Ti-6Al-6V-2Sn............[1595-1603]
Some Features of Heat Treatment of Alpha+Beta Titanium Alloys............[1605-1611]
α”?β Phase Transformation During Low Temperature Aging of Titanium Alloys............[1613-1622]
Decomposition of the Martensite in Two-Phase Titanium Alloys............[1623-1632]
The Investigation of the Titanium Structure after Shock Wave Loading............[1633-1640]
Embrittlement and “Spontaneous” Cracking of a Hardened (α+β) Titanium Alloy during Aging............[1641-1649]
Transformation in Unstable Beta-Titanium Alloys............[1651-1660]
Internal Friction Studies in Stable and Metastable Beta Titanium Alloys............[1661-1674]
Aging Characteristics of Beta Titanium Alloys............[1675-1689]
Decomposition of the Solid Solution the The All-Beta βIII............[1691-1701]
Martensite Formation and Decomposition in Alloys of Titanium Containing β-Stabilizing Elements............[1703-1715]
An Evaluation of Direct Aging to Achieve Optimum Mechanical Properties for the Metastable Beta Ti-8Mo-8V-2Fe-3Al Alloy............[1717-1729]
Intensification of Chemical-Thermal Treatment of Titanium and Its Alloys............[1731-1739]
Effect of Boronising on Adhesive Wear Characteristics of Titanium............[1741-1752]
Antiseizing Properties of Titanium Alloys under Different Chemical and Heat Treatment............[1753-1759]
Discussion............[1761-1765]
Critical Review Influence of Technological Factors on Structure and Properties of Titanium Alloys............[1767-1770]
Structure of Semifinished Alpha + Beta Titanium Alloy Products............[1771-1778]
Influence of the Parameters of a Laminated Structure on the Mechanical Properties of Titanium Alloys............[1779-1788]
Methods of Refining Coarse-Grained Structures of Titanium Alloys............[1789-1798]
The Influence of Polygonized Structure on the Properties of Heat-Treated Beta Titanium Alloys............[1799-1808]
Transmission Electron Microscopy Study of Structural Changes Hot Deformation of Titanium Alloys............[1809-1819]
Influence of Forging Skin on Fatigue Strength of die Forgings in Ti-6Al-4v Material............[1821-1832]
The Influence of Hydrogen on Hot Deformability of Titanium Alloys with Different Phase Compositions............[1833-1842]
The Effect of Some Technological Factors on the Structure and Properties of the Equiatomic Titanium-Nickel Alloy............[1843-1851]
Thermomechanical Properties and Stress Corrosion of RMI Ti-3Al-8V-6Cr-4Mo-4Zr............[1853-1862]
Texture Development in α+? Titanium Alloys............[1863-1874]
The Effect of Phase Transformation on Deformation Texture of α and (α + ?) Titanium Alloys............[1875-1882]
The Formation of Recrystallization Texture in Ti-Al Alloys............[1883-1891]
Recrystallization of Ti-Mo Base Beta Alloys............[1893-1903]
Annealing Behavior and Strengthening of Ti-6Al-2sn............[1905-1918]
Influence of Grain Size on the Ductility of Age-Hardened Titanium Alloys............[1919-1931]
Processing and Deformation Studies on Ultrafine Grained Titanium............[1933-1945]
Effects of Texture on Deep Drawability of Commercially Pure Titanium Sheet............[1947-1958]
Influence of Processing and Heat Treatment on the Anisotropic Properties of Sheet and Strip of Commercially Pure Titanium............[1959-1967]
Mechanical Properties of Titanium Alloy Plates............[1969-1976]
Effect of Heat Treatment on the Mechanical Properties in an Alpha-Beta Titanium............[1977-1988]
The Effect of Heat Treatment on the Fatigue Strength of Ti-6Al-4V............[1989-2001]
Effect of Heat Treatment on the Microstructure and Properties of IMI 685............[2003-2014]
A Comparative Study of Creep Resistance and Thermal Stability of Alloys “685” and “6242” in Air and in Vacuum............[2015-2026]
Effects of TiAl6V4 Metallurgical Structures on Fatigue Properties............[2027-2045]
The Effect of Variations in Heat Treatment on the Mechanical Properties of an α+? Titanium Alloy IMI 550 (Ti-4Al-2Sn-4Mo-0.5Si)............[2047-2060]
Heat Treatment of Cast Ti-6Al-4V Alloy............[2061-2071]
On Titanium Alloy Residual Stress Following Thermodiffusion Saturation............[2073-2079]
Discussion............[2081-2085]
Critical Review Titanium Alloys for Different Branches of Engineering............[2087-2091]
Critical Review Titanium for Engineering Purposes............[2093-2099]
Trends in the Development of High-Strength Titanium Alloys............[2101-2110]
Principles of Titanium Alloys Complex Alloying............[2111-2119]
A Titanium Alloy with Improved Mechanical Resistance Ti-6Al-6V-2Sn-6Zr............[2121-2130]
Effect of Impurities on the Working Ability of Ti-6Al-4V Type Alloy............[2131-2138]
Ti-6Al-4V for Marine Uses............[2139-2147]
Development of a New Moderate Strength, High Fracture Toughness Titanium Alloy: Ti-4.5Al-5Mo-L.5Cr (Corona 5)............[2149-2159]
The Metallurgical Synthesis of a New Generation of Deep Hardenable Titanium Alloys. The Metastable Beta Ti-Mo-V-Cr-Al System — design and Properties............[2161-2171]
Strength and Toughness of Binary Ti-Ni and Ti-Mo Alloys............[2173-2179]
The Technological Aspects of Titanium Application in the TU-144 Aircraft Structure............[2181-2193]
Ways of Increasing Titanium Alloys High Temperature Strength............[2195-2199]
Investigation of Some Properties of VT5L Alloy with Rare Earth Additions............[2201-2208]
Characteristics of Commercially Pure Titanium for Power Plant............[2209-2215]
The Effect of Carbon on the Behavior of the Beta-Titanium Alloys............[2217-2227]
An Investigation of Some Palladium-Titanium Alloys............[2229-2242]
A Titanium Alloy for Application in Hot Sodium Chloride Solutions............[2243-2248]
On the Performance of Whole-Titanium Made Turbine Condenser............[2249-2261]
Manufacture and Properties of Titanium Tubes for Power Station Condensers............[2263-2270]
Trends in the Use of Titanium in Heat Exchange............[2271-2282]
Titanium Basket Anodes for Metal Refining and Winning............[2283-2290]
Recent Advances in Titanium Cathodes............[2291-2301]
Discussion............[2303-2304]
Critical Review Powder Metallurgy of Titanium............[2305-2314]
A Novelty in the Field of Titanium Powder Metallurgy............[2315-2321]
Production of Die-Forged Discs from BT9 Alloy Powder............[2323-2330]
Production of Titanium Parts, Apparatus and Machinery by Methods of Powder Metallurgy............[2331-2335]
Rolling of Titanium Powder and Its Alloys............[2337-2344]
The Mechanical Properties of P/M Ti-6Al-4V Alloy............[2345-2358]
Dispersion Hardening of Titanium............[2359-2366]
Production of High Purity Titanium Powder by Electron Beam Technology............[2367-2376]
Comparative Evaluation of Forged Ti-6Al-4V Bar Made from Shot Produced by Rep and CSC Processes............[2377-2388]
Critical Review Titanium Matrix Composites............[2389-2410]
Investigation of Structure of Titanium Matrix Fiber Composites............[2411-2417]
Model Composite (Layered) Material on the Basis of Titanium............[2419-2426]
The Investigation of Solid-Phase Interaction of Titanium with Refractory Compounds............[2427-2436]
The Influence of Release Agents on Properties of the Titanium Foil Produced by Vacuum Evaporation............[2437-2444]
The Application of TiC and TiN Thick Films by PVD Processes............[2445-2453]
Discussion............[2455-2456]
Titanium and Titanium Alloys: Scientific and Technological Aspects
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