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    文集名称Titanium '80 Science and Technology
    国别日本类别世界钛会论文集
    出版单位Warrendale, Pa. : Metallurgical Society of AIME
    出版日期1980-01-01载文量310
    简介该文集为第四届世界钛会的会议论文集,会议于1980年5月19—22日在日本东京International Conference Center举行。

    本文集文章列表
    Titanium Industry in the USA............[5-8]
    Principal Trends of Investigation in the Field of Titanium Production............[9-14]
    Titanium Industry in Japan............[15-27]
    The Titanium Industry in the United Kingdom............[29-37]
    Titanium Industry in France............[39-46]
    Titanium Industry in F. R. Germany............[47-52]
    An Overview on Titanium Development and Application............[53-74]
    The Metal Physics of Titanium Alloys............[77-132]
    Deformation of Metastable β Ti Alloys............[133-139]
    Mechanical Properties of Titanium Alloys............[141-152]
    Phase Transformation and Heat Treatment............[153-167]
    Fracture, Fatigue and Wear of Titanium............[169-216]
    Titanium Extractive Metallurgy Status............[217-224]
    Specification and Test Methods............[225-231]
    Melting and Casting............[233-242]
    Titanium Powder Metallurgy and Composites............[243-253]
    Titanium Welding............[255-275]
    Phase Stability and Phase Equilibrium in Titanium Alloys............[277-293]
    Large Titanium-Tubed Condensers with Welded Tube-to-ubesheet Joints............[299-306]
    Welded Titanium Condensers for Power Plant............[307-316]
    Application of Titanium Tubes to Main Turbine Condenser for Marine Use............[317-322]
    Sacrificial Anode, Iron-9% Nickel Alloy Protecting Copper Alloy Components in MSF Desalination Plant Using Titanium Tubes............[323-331]
    Corrosion Protection for Titanium Condenser and Heat Exchanger............[333-338]
    Cathodic Protection of Naval Brass Tube Plate in Kakogawa No. 5 Turbine Condenser Constituted by Titanium Tubes............[339-348]
    Galvanic Corrosion of Some Copper Alloys Coupled with Titanium in Synthetic Sea Water............[349-357]
    Consideration on Marine Biofouling Prevention of Titanium by Fouling Inhibitor............[359-366]
    On the Heat Treatment of Thin Wall Welded Titanium Tubes............[367-375]
    Some Characteristics of Corrugated Titanium Tube............[377-386]
    Appropriate Use of Titanium for Chemical Equipment Design............[387-395]
    Hydrogen Absorption of Titanium Heat Exchanger Tubes in MSF Desalination Plants............[397-405]
    Development of 6Al-4V Titanium Alloy Spherical Rocket Motor Case............[409-417]
    Burst Performance of Ti-6Al-4V Pressure Vessels Fabricated from Warm Spun Hemispheres............[419-428]
    Process Development and Evaluation of Gas Turbine Engine Components in IMI 829............[429-439]
    The Influence of Forging Route and Heat Treatment on the Recrystallisation of a Commercial Titanium Alloy............[441-455]
    High Strength Beta Titanium Alloy Forgings for Aircraft Structural Applications............[457-466]
    An Evaluation of Vacuum Centrifuged Titanium Castings for Helicopter Components............[467-475]
    Application of Ti-6Al-4V as Steam Turbine Blading Material............[477-488]
    Application of the Ti-6Al-4V Alloy for High-Speed Impact Line Printer Hammers............[489-495]
    Application of FAEDIC-NT? (Improved NiTi Alloy) to Nuclear Reactor Pump Components............[497-503]
    Mechanical Properties and Tissue Reactions of a Titanium Alloy for Implant Material............[505-514]
    Self and Solute Diffusion in Titanium and Titanium Alloys............[519-528]
    Mechanism of Stress Induced Oxygen Diffusion in Titanium............[529-536]
    A Comparative Study of Insertion and Diffusion of Oxygen and Nitrogen in α-Titanium............[537-547]
    Interdiffusion in Titanium-Iron System............[549-557]
    Interdiffusion in Ti-Al System............[559-568]
    Interdiffusion in Ti-V Alloys............[569-576]
    Structural Changes in the BT6 Alloy Welded Joints after Heat Treatment............[577-591]
    Effects of Alloying Elements and Heat Treatment on the Internal Friction of Ti-Al-V Base Alloys............[593-600]
    Dynamic Elastic and Damping Properties of Some Practical Ti-Base Alloys............[601-610]
    Elastic and Anelastic Properties of Ti-11.5Mo-6Zr-4.5Sn (β-III)............[611-620]
    Quenched-in Vacancies in Ti and Ti-Interstitial Alloys............[623-632]
    The Influence of Quench Hardening on the Static and Cyclic Strength of Titanium and Ti α-Alloys............[633-639]
    Point Defects Produced by Deformation in Ti and Its Interstitial Alloys............[641-650]
    Radiation Damage in Titanium Alloys............[651-662]
    Effect of Fast-Neutron Irradiation on the Mechanical Properties of Ti-O Alloys............[663-669]
    The Effect of Slip Length and Slip Character on the Properties of Titanium Alloys............[671-681]
    New Deformation Twinning Mechanism in Ti-Al-Sn Alloy at 25K............[683-690]
    Influence of Microstructure on Deformation Behavior in Metastable Beta Ti-15Mo-5Zr Single Crystals............[691-697]
    Crystallization Behavior of Titanium-Base Amorphous Alloys............[699-707]
    Crystallography of Stress-Induced Products in Metastable Beta Ti-Mo Alloys............[709-715]
    Crystal Structures of Martensites in Ti-Mo-Al Alloys............[717-724]
    The Phase at the α/β Interface in the Ti-Nb Binary and Ternary Alloys............[725-733]
    Structure Characteristics and Superconducting Properties of Titanium-Niobium Alloys............[735-744]
    A Metallurgical Study on Superconducting Ti-Nb Binary and Ternary Alloys............[745-753]
    Superconducting Properties and Microstructure in a Nb-50wt% Ti Alloy Superconductor............[755-762]
    The Electroplastic Effect in Titanium............[763-772]
    The Computer Simulations of Point Defects and Their Lattice Vibrations in Titanium............[773-780]
    Study of the Plastic Deformation Dynamics of High Purity Titanium and Dilute Titanium-Oxygen Solid Solution............[787-800]
    Deformation and Fracture of Ti-5Al-2.5Sn ELI Alloy at 4.2K-291K............[801-809]
    Deformation and Fracture of Ti-15Mo-5Zr Alloy at 4.2-291K............[811-819]
    Low Temperature Peculiarities of Plastic Deformation in Titanium and Its Alloys............[821-830]
    The Influence of Strain-Rate History and Temperature on the Shear Strength of Commercially-Pure Titanium............[831-840]
    Study of Titanium Alloys Deformation Process by Acoustic Emission............[841-848]
    Resistance to Deformation and Dynamic Changes in the Structure of Two-Phase Titanium Alloys Under Hot Deformation............[849-861]
    Material Parameters of Importance in the Stretch Forming of Ti-6Al-4V Sheet at 300-950 K............[863-871]
    High Temperature Deformation of Ti-6Al-4V............[873-886]
    The Influence of Deformation Mechanism on Yielding Characteristics in a Single Crystal of Ti-Al-Sn α-Alloy............[887-896]
    Effect of Transformation on the Texture of Titanium............[899-906]
    Prediction of Earing Behaviour of Commercial Purity Titanium Thin Sheets with Different Crystallite Orientation Distribution Functions............[907-913]
    The Formation of Recrystallization Texture in α- Alloys of Titanium............[915-924]
    Control of Microstructure and Texture in Ti-6Al-4V............[925-935]
    The Formation of Hot Rolled Texture in Commercially Pure Titanium and Ti-6Al-4V Alloy Sheets............[937-945]
    Controlled Textured Titanium Alloy—Some Comments on Their Production and Indirect Assessment............[947-954]
    Recrystallization Texture Development in a Commercial Purity Titanium Thin Sheet............[955-963]
    Texture Hardening of Ti-6Al-4V Alloy—Formation of Basal Plane Texture by Dentate Rolling............[965-972]
    Effects of Microstructure and Crystal Orientation on the Mechanical Properties in an α-β Titanium Alloy............[973-979]
    Deformation Behavior of Ti-6Al-4V Alloy Under Superplastic Condition............[983-992]
    Factors Influencing the Ductility of Superplastic Ti-6Al-4V Alloy ............[993-1000]
    Characterization of Superplastic Deformation Properties of Ti-6Al-4V............[1001-1014]
    Microstructural Aspects of Superplastic Forming of Titanium Alloys............[1015-1024]
    Superplastic Forming Behavior of Corona 5(Ti-4.5Al-5Mo-1.5Cr)............[1025-1031]
    The Use of Superplastic Forming for the Manufacture of Titanium T-A6V Alloy Tanks............[1033-1045]
    An Evaluation of the Effects of Concurrent Grain Growth during Superplastic Flow of the Ti-6Al-4V Alloy............[1047-1056]
    Effect of Small Amounts of Yttria on the Superplastic Behavior of Ti-6Al-4V............[1057-1066]
    Strain Rate Sensitivity of Flow Stress and Effective Stress in Superplastic Deformation of Ti-8Mn Alloy............[1067-1070]
    On the Nature of “Material Constants” in the Sherby-Dorn and Larson-Miller Parameters for Creep in Titanium............[1071-1080]
    Creep Behavior of Cast Ti-6Al-4V Alloy............[1081-1096]
    Effect of Superplasticity on the Diffusion Welding of Ti-6Al-4V Alloys............[1097-1103]
    On the Strength of the Commercially Pure Titanium Sheet Made in Japan............[1109-1119]
    Mechanical Properties of Commercially Pure Titanium Sheet............[1121-1129]
    Relation Between Brinell Hardness of Titanium and Impurities (O2, Fe, N, and C)............[1131-1135]
    Mechanical Properties of Titanium-Based Amorphous Alloys with Metalloids............[1137-1145]
    Solid-Solution Strengthening of Alpha Titanium Alloys............[1147-1154]
    Microstructure and Mechanical Properties of a Large Ti-6Al-4V Ring Forged at the Duplex Phase Temperature Range............[1155-1162]
    Effect of Transformed Beta Morphology and Other Structural Features on Mechanical Properties in Ti-6Al-4V............[1163-1174]
    Improved Mechanical Properties of α+β Ti Alloys by Pt Ion Plating............[1175-1182]
    Influence of Erbium and Yttrium Additions on the Microstructure and Mechanical Properties of Titanium Alloys............[1185-1196]
    Relationships Between Microstructure and Mechanical Properties in Ti-6Al-2Sn-4Zr-2Mo-0.1Si Alloy Forgings............[1197-1207]
    The Relationship of Processing/Microstructure/Mechanical Properties for the Alpha-Beta Titanium Alloy Ti-4.5Al-5Mo-l.5Cr (Corona-5)............[1209-1220]
    Microstructure and Strength of Solution Treated Ti-8Al-1Mo-lV............[1221-1230]
    Plastic Deformation ofTiAl and Ti3Al............[1231-1243]
    The Effects of Alloying on the Microstructure and Properties of Ti3Al and TiAl............[1245-1254]
    Mechanical Properties of FeTi, CoTi, and NiTi at Elevated Temperatures............[1255-1263]
    Advanced Trends in Developing High-Strength Titanium Alloys............[1265-1275]
    Low Melting Hypereutectoid Titanium-Copper Alloys............[1277-1285]
    Effect of Heat Treatment on Structure and Properties of IMI829 ............[1287-1294]
    The ω-Phase Reaction in Titanium Alloys............[1299-1308]
    ω Phase Formation in Ti-Fe Alloys............[1309-1316]
    On the Strengthening of a Metastable β-Titanium Alloy by ω-and α-Precipitation............[1317-1326]
    Thermal Instability and Mechanical Properties of Beta Titanium-Molybdenum Alloys............[1327-1334]
    Omega and Alpha Precipitation in Ti-15 Mo Alloy............[1335-1342]
    The Control of α Precipitation by Two Step Aging in β Ti-15% Mo............[1343-1351]
    Aging Behavior of the Ti-15Mo-5Zr Alloy............[1353-1362]
    The Potentiokinetic Method: A Useful Tool to Study Phase Transformations in Beta Ⅲ Titanium Alloy............[1363-1368]
    Effects of Cold-Working and Oxygen Addition on Precipitation Behavior in Superconducting Ti-Nb Alloy............[1369-1377]
    Al3Ti Precipitation in Aluminium-Titanium Alloys............[1379-1387]
    Phase Transformations Kinetics and Mechanical Characteristics of Two-Phase Titanium Alloys............[1389-1397]
    Effect of Dislocation Structure Upon Regularities of Decomposition and Character of Fracture of High-Alloy Titanium Alloys............[1399-1408]
    Isothermal Decomposition of Solid Solutions in a Ti-2.5 wt% Cu Alloy............[1409-1417]
    Improvement of Mechanical Properties of Cu-Ti Alloys by New Process............[1419-1425]
    On the Aging Property of Cu-Base Cu-Ni-Ti Alloys............[1427-1434]
    The Interface Phase in a Near-α Titanium Alloy............[1435-1441]
    The Aging Characteristics of Ti-3%Al-8%V-6%Cr-4%Mo-4%Zr (Ti-38644)............[1443-1451]
    Effects of Thermal Cycles and Substitution Elements on the Phase Transformation of TiNi............[1455-1460]
    Determination of Phase Transformation Temperature of TiNi Using Differential Thermal Analysis............[1461-1467]
    The Thermodynamic and Structural Aspects of the Investigation of Titanium Nicklelide-Based Alloys with the Shape Memory Effect............[1469-1479]
    Phase Transformations in a Ti-10%V Alloy............[1481-1490]
    Phase Transformation Study of Ti-10V-2Fe-3Al............[1491-1501]
    Stress Assisted Transformation in Ti-10V-2Fe-3Al............[1503-1512]
    Ms and βs Temperatures of Ti-Fe Alloys............[1513-1520]
    Phase Transformations in a Ti-1.6 a/o N alloys............[1521-1532]
    New Observations of the Transformations in Ti-6Al-4V............[1533-1542]
    Phase Transformations of Titanium and Some Titanium Alloys Kinetics and Morphology of Phase Transformation Application to Heat Treatment............[1543-1554]
    Evolution of the Equiaxed Morphology of Phases in Ti-6Al-4V............[1555-1561]
    The Effect of the Cooling Conditions on the Residual Stresses in Quenched Ti 685 Cylinders............[1563-1569]
    The Effect of Heat Treatment on Microstructure and Tensile Properties of Ti-10V-2Fe-3Al............[1571-1581]
    Stress Relaxation During Aging of Ti-6Al-6V-2Sn............[1583-1590]
    Heat Treatment and Microstructure of the Metastable Beta-Titanium Alloy TB2............[1591-1600]
    Fracture Toughness and Fatigue Behavior of Ti-6Al-4V and Ti-5Al-2.5Sn at Cryogenic Temperature............[1607-1615]
    Microscopic Features of Fractures and Crack Propagation of Titanium Alloys............[1617-1626]
    Strength/Fracture Toughness Relationships in Aged Ti-3Al-8V-6Cr-4Mo-4Zr............[1627-1635]
    Void Nucleation, Void Growth and Tensile Fracture in As-Quenched and Aged Ti-6Al-4V............[1637-1643]
    The Effect of Oxygen Content on the Mechanical Properties of an α+β Titanium Alloy Ti-4Al-2Sn-4Mo-0.5Si (IMI 550)............[1645-1651]
    The Phenomenon of Thermal Embrittlement of Unalloyed Titanium and its Aluminium Alloys............[1653-1661]
    Effect of Hydride Orientation on the Hydrogen Embrittlement of Commercially Pure Titanium............[1663-1670]
    Hydrogen Effect on Fracture Micromechanism of Commercial Titanium Alloys............[1671-1683]
    Fracture Behavior of Ti-6Al-4V Alloy Subjected to Hydrostatic Tension............[1685-1690]
    Influence of α/β Interface Phase on Fracture Toughness and Fatigue Crack Growth Rate in Ti-6Al-4V............[1691-1700]
    Fracture Mechanism Map for Alloy Ti-6Al-4V............[1701-1707]
    Fracture Toughness of Ti-6Al-4V Alloys Determined by ASTM Standard and AE Method............[1709-1718]
    Ways of Enhancing Fracture Toughness of Titanium Alloys through Optimization of Composition and Structure............[1719-1727]
    The Failure Behavior of Duplex 316L Steel-TA6V Titanium Alloy Spherical Pressure Vessels............[1729-1735]
    Wear of Titanium Alloys Under Repetitive Impulsive Loading............[1737-1747]
    Effect of Beta Flecks on the Fatigue Behaviour of Ti-6Al-6V-2Sn............[1749-1756]
    The Initiation and Propagation of Shear Band and Crack During Torsional Deformation of Ti-7Al-4Mo............[1757-1764]
    On the Thermal Stability of Titanium Alloy Ti-679............[1765-1774]
    Influence of Microstructure on the Fatigue Behavior of Ti-6Al-4V............[1777-1786]
    Influence of Surface Condition on the Fatigue Strength of Isothermally Forged Ti-6Al-4V............[1787-1795]
    Influence of Manufacturing Method and Surface Condition on the Fatigue Strength of Ti-6Al-4V Material............[1797-1806]
    Influence of Surface Conditioning on the Fatigue Properties of Ti-6Al-2Sn-4Zr-2Mo-0.2Si............[1807-1814]
    The Effect of Weld Defects on the Fatigue Strength of Thin Welded Titanium Tubes Under Cyclic Internal Pressure............[1815-1824]
    Monotonic and Cyclic Deformation Behavior of α-Phase Ti-Al Alloys............[1825-1835]
    Fretting and Fretting Fatigue of Titanium Alloys Under Conditions of High Normal Load............[1837-1844]
    High Temperature Low Cycle Fatigue Behavior of Near Alpha Titanium Alloys............[1845-1854]
    Hold Time Effects on Fatigue Crack Propagation in Ti-6Al and Ti-6Al-4V............[1855-1863]
    Observations on the Generality of the Grain-Size Effect on Fatigue Crack Growth in α+β Titanium Alloys............[1865-1873]
    Fatigue Crack Propagation and Fracture of Titanium Alloys............[1875-1882]
    Dislocation Structures Just Around the Fatigue Crack in Commercial Purity Titanium............[1883-1893]
    Wear of Titanium Alloys Under Repetitive Impulsive Loading............[1895-1906]
    Effect of Beta Flecks on the Fatigue Behaviour of Ti-6Al-2Sn............[1907-1916]
    Effects of Oxidation and Reduction Temperatures, and the Addition of Ferrous Chloride to Hydrochloric Acid, on the Leaching of Ilmenite............[1919-1926]
    Studies on Titanium Metal Extraction in India............[1927-1936]
    A Study of Titanium Resources and Its Chlorination Process............[1937-1945]
    Pollution Prevention for Titanium Tetrachloride Plant............[1947-1949]
    Improvement of Magnesium-Thermal Methods of Producing Titanium Sponge from Ilmenite............[1951-1961]
    Fused-Salt Electrolysis for Production of Titanium Metal—Present State and Future Developments............[1963-1967]
    Electrowinning of Titanium from Titanium Tetrachloride: Pilot Plant Experience and Production Plant Projections............[1969-1976]
    Comparison of Characteristics of Ti-Sponge Between Different Ranges of Particle Size............[1977-1981]
    Separation of TiO2 from Reduced Ilmenite by Continuous Leaching............[1983-1987]
    The System of Standards for Titanium in Japan............[1991-1993]
    The Determination of Palladium, Aluminium, Vanadium, Manganese, Tin, Chromium, and Iron in Titanium-Base Alloy............[1995-2004]
    Simple Identification Method for Titanium Alloys............[2005-2010]
    Ion Microprobe Analysis of Hydrogen and Oxygen in Titanium............[2011-2019]
    The Method of Yield Strength Measurement of C. P. Titanium Sheet and Plate............[2021-2030]
    A Report Concerning the Cooperative Test on the Yield Strength of Commercially Pure Titanium Bars............[2031-2038]
    The Effects of Testing Parameters on the Tensile Properties of Thin-Wall Welded Titanium Tube............[2039-2044]
    The Mechanical Properties of Titanium Welding Plates............[2045-2050]
    A Report of Cooperative Research of the Hardness of Titanium Bars............[2051-2059]
    Cooperative Examination of the Influence of Atmospheric Temperature on the Hardness of Titanium Mill Products............[2061-2067]
    Influence of Temperature on Brinell Hardness (HB) of Titanium Sponge............[2069-2073]
    Automatic Ultrasonic Inspection System of Titanium Welded Tube............[2075-2083]
    Eddy Current Testing of Small Diameter Titanium Tubes............[2085-2093]
    The Influence of Microstructure on Ultrasonic Response in a Titanium Alloy Forging............[2095-2103]
    Technical Supply Conditions and Macro and Microstructural Standards for Alpha-Beta Titanium Alloys............[2105-2111]
    Segregation and Phase Heterogeneity in Titanium Ingots and Semifinished Products............[2117-2128]
    On the Relation Among Pressure, Dimension, and Density in Titanium Sponge Compact Making............[2129-2134]
    Primary Melting of Titanium with Plasma Arc............[2135-2145]
    Production of Titanium Slab Ingots in a Plasma Electron Beam Furnace............[2147-2151]
    Investigation of the Behavior of Magnesium in Arc Melting of Titanium Ingots at Pressures of Up to 140 Atm............[2153-2156]
    ............[2157-2167]
    Effect of Yttrium on the Microstructure of Titanium Alloys............[2169-2175]
    New Ultra Modern Titanium Casting Plant for Western Europe............[2177-2185]
    Structual Applications for Titanium Castings............[2187-2195]
    Alpha Segregation in Titanium Alloys............[2197-2202]
    Microstructure Control of Titanium Alloy PM Products for Mechanical Property Optimization............[2205-2213]
    Development in Powder Metallurgy (PM) Ti-6Al-4V Technology for Aircraft Parts............[2215-2221]
    Titanium 6Al-4V Plate from Prealloyed Powder............[2223-2235]
    Titanium Powder Metallurgy Present Status............[2237-2245]
    Sintered Titanium and Titanium Suboxide Anodes Manufacturing, Properties and Application in Electrochemistry............[2247-2254]
    Influence of Transformation on Sintering of Titanium Powder............[2255-2263]
    Electrical Resistance—Sintering of Titanium Metal, Alloys and Composites............[2265-2274]
    Application of the Czochralski’s Method in Order to Obtain Oriented Structures of the Ti-Ti5Si3 System............[2275-2279]
    On the Solid-Phase Interaction in Composite Materials Based on Titanium Alloy............[2281-2287]
    From Sponge to Powder Alternatives in Titanium Processing............[2289-2299]
    The Interaction Between Titanium Alloys and SiC-Fibers............[2301-2308]
    Titanium Net Shapes by a New Technology............[2309-2319]
    Isostatic Pressing of Complex Shapes from Titanium and Titanium Alloys............[2321-2330]
    Solidification Structures and Phase Transformations in Welded Ti Alloys............[2337-2346]
    Ti-6Al-4V Titanium Alloy Weldability in Electron Beam Application............[2347-2358]
    Influence of "Mischmetal" on the Submerged ARC Weldability of Titanium............[2359-2368]
    Weldability of a High Toughness Titanium Alloy—A Metallurgical Evalution............[2369-2378]
    An Investigation of Diffusion Bonding of Titanium to Stainless Steel............[2379-2388]
    Diffusion Welding of Titanium to Aluminum............[2389-2396]
    Properties of Flash Butt Welded Joints of Ti-6Al-4V Alloy Bar............[2397-2406]
    An Investigation of Silver Alloy Brazing of Titanium Alloy............[2407-2414]
    Low Temperature Brazing (680 ℃) to Ti-6%Al-4%V Titanium Alloy............[2415-2422]
    Properties of Welded Titanium Alloys and Their Application in the Aerospace industry............[2423-2430]
    Effect of the Composition of Filler Wire on the Mechanical Properties of Commercially Pure and Palladium Alloyed Titanium Weldments............[2431-2442]
    Titanium Nitride Films prepared by RF Reactive Sputtering............[2445-2451]
    Titanium Refractory Compound Coating by “ARE” and “HCD”............[2453-2460]
    Dispersion Hardening of the Ti-5Al-2.5Sn Alloy Using a Powder Metallurgy Approach............[2461-2470]
    The Hard Drawing of Titanium Wire and Its Use for Spring............[2471-2475]
    Hydrogen as an Alloying Element in Titanium (Hydrovac)............[2477-2486]
    Extruding and Welding of Hollow Titanium Sections............[2487-2497]
    Characteristics of Titanium Mill Products from Plasma Beam Melted Ingots............[2499-2505]
    Operating Experience of Precision Forged Titanium Turbine Blades............[2507-2512]
    Recent Developments in Hot-Die Forging of Titanium Alloys............[2513-2522]
    The Press Formability of Commercial Pure Titanium at Warm Working Temperature............[2523-2529]
    Forming Limits of Titanium Sheets............[2531-2538]
    Deep Drawing of Work-Hardened Titanium Sheet............[2539-2546]
    Sputtered Films of Titanium Solid Solutions............[2547-2554]
    Mechano-Chemical Polishing of Titanium ............[2555-2564]
    Some Characteristic Data on Anisotropy and Forming Behavior of Commercially Pure Titanium............[2565-2574]
    Coupling Between the Anodic Dissolution of Titanium and the Reduction of Dissolved Oxygen in Aerated Hydrochloric Media............[2579-2585]
    Dissolution-Passivation Mechanism of Titanium in Hydrochloric Media—Calculation of the Partial Reaction Orders............[2587-2593]
    Corrosion and Corrosion-Fatigue Behavior of Ti-4.5Al-5Mo-1.5Cr (CORONA 5) and Ti-6Al-4V............[2595-2604]
    Discontinuous Stress Corrosion Cracking Behavior of Ti-6Al-4V in Synthetic Sea Water with Temperature............[2605-2612]
    Study on Crevice Corrosion of Titanium............[2613-2622]
    Effect of Several Ions on the Crevice Corrosion of Titanium............[2623-2630]
    Protection of Titanium Against Crevice Corrosion by Coating with Palladium Oxide............[2631-2638]
    The Effect of Small Quantities of Fluoride Ion on the Corrosion Resistance of Titanium in Sulphuric Acid............[2639-2648]
    Contribution to the Study of the Behaviour of Titanium in Sulphuric Acid Solution at High Temperature and Pressure............[2649-2658]
    Electrochemical Behavior of Titanium-Nickel Alloys in Sulpheric Acid Media............[2659-2667]
    The Effects of Iron on the Corrosion Resistance of Titanium............[2669-2676]
    Corrosion Behavior of Amorphous Titanium Alloys............[2677-2684]
    Effects of Heat Treatments on Corrosion Resistance and Hydrogen Absorption of Commercially Pure Titanium............[2685-2693]
    Role of Palladium in Hydrogen Absorption of Ti-Pd Alloy............[2695-2703]
    Factors Influencing Absorption of Hydrogen in Titanium from Aqueous Electrolytic Solutions............[2705-2711]
    Hydrogen Absorption of Titanium in Sea Water at High Temperature............[2713-2722]
    Stress Corrosion Cracking of Ti-N Alloys in Iodine-Methanol............[2723-2728]
    The Effect of Iron Content on the Corrosion Behavior of Titanium in Sulphuric Acid Medium............[2729-2737]
    Photochemical Characterization of Passive Layers formed on Titanium by Anodization............[2739-2751]
    Oxidation of Titanium Base Alloys foi Application in Turbines............[2755-2764]
    Structural and Kinetic Investigation into Oxidizability of Titanium Alloys with Tungsten, Aluminium, and Zirconium............[2765-2772]
    Oxidation Behaviour of Titanium in High Temperature Steam............[2773-2782]
    On the Beneficial Effect of the Titanium Oxide Film Formed by Thermal Oxidation............[2783-2792]
    Influence of Titanium Content on Oxidation of Nb-Ti Alloys (10,20,30 wt% Ti) in the Temperature Range 400 ℃-1300 ℃, at Oxygen Pressure 100 Torrs—Kinetics and Oxygen Dissolution Study............[2793-2802]
    On the Properties of the Passive Film Formed on Cold-Worked and Annealed Titanium and TA6V Alloy............[2803-2809]
    A Structural and Analytical Study of Titanium Oxide Thin Films............[2811-2817]
    Oxidation Mechanism, Oxide Decomposition, and Phase Transition in Industrial Titanium Studied by High Resolution Low Energy Electron Spectrometry............[2819-2827]
    A Study of Oxygen Chemisorption on Titanium by Auger Analysis and Mirror Electron Microscopy............[2829-2837]
    Oxidation Kinetics of High Purity Titanium. Influence of a Monolayer of Chemisorbed Sulfur............[2839-2851]
    Reaction of Titanium with Carbon Dioxide Under Low Pressures (by Microgravimetry, ESCA, Nuclear Analysis)............[2853-2858]
    Study of the Oxidation of Titanium by Microgravimetry and Electron Spectroscopy (ESCA) at Elevated Temperatures and Low Pressures............[2859-2866]
    Photoelectron Spectroscopic Observation of Nitrided Titanium Surface............[2867-2876]
    The Role of Titanium in High Temperature Corrosion of Gas Turbine Alloys ............[2877-2886]
    Phase Separation in Ti-V Alloys ............[2889-2895]
    Analytical and Experimental Study of the Constitutional Diagram of the Titanium-Molybdenum-Niobium-Zirconium System............[2897-2905]
    The Study of Phase Equilibria in Ti-Al-Zr-W and Ti-Al-Zr-Mo-W Alloys............[2907-2915]
    Phase Equilibria in the Ti-TiPd-TiNi System Alloys............[2917-2927]
    DTA-Determination of Phase Change Temperature for Titanium Alloys............[2929-2939]
    Iron Retrograde Solubility in α Titanium and Precipitation Phenomenon............[2941-2947]
    On the α/α+α2 Boundary of Ti-Al-Sn-Zr Quaternary System............[2949-2957]
    The α2+γ Transformation in Ti-Al-Mo Alloys............[2959-2969]
    Titanium Alloys for High Temperature............[2971-2979]
    Formation and Decomposition of α” in Ti-Al-Sn-Zr-Mo Alloys............[2981-2990]
    Kinetics of Recrystallization of Alpha in Ti-6Al-4V............[2991-2997]
    Electronic Structure and Stability of Omega Phase in Ti and Ti-Based Alloys............[2999-3008]
    The Thermodynamics of Liquid Titanium Alloys............[3009-3018]
    On the Solubility of Oxides in Liquid Alloys Containing Titanium............[3019-3031]
    Selection of "All-Titanium Surface Condenser" for Thermal and Nuclear Power Stations............[3035-3043]
    The Use of Titanium Tubes in French Sea-Water Cooled Nuclear Plant Condensers............[3045-3052]
    Experience from the Manufacture and Installation of All Titanium Condenser Tube Bundles with Seal Welded Tube-to-Tube Sheet Joints............[3053-3060]
    Why Titanium Condenser for Sea Water Cooling............[3061-3067]
    Design, Manufacture, and Installation of Larger-Scale Titanium-Tubed Condensers............[3069-3075]
    Expected Application and Qualification of Titanium in Steam Turbine Industry............[3077-3093]
    Manufacturing and Quality Control of Titanium Tubing in Steam Turbine Industry............[3095-3098]
    Consideration on Specifications of Titanium Welded Tubes............[3099-3105]
    Present Status Concerning Production and Utilization of Titanium Materials for Powder Plants in Japan............[3107-3116]
    Discussion............[3117-3125]
    Titanium '80 Science and Technology
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