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    文集名称The Science, Technology and Application of Titanium
    国别英国类别世界钛会论文集
    出版单位PERGAMON PRESS
    出版日期1970-01-01载文量127
    简介该文集为第一届世界钛会的会议论文集,会议于1968年5月21—24日在英国伦敦Royal Festival Hall举行。

    本文集文章列表
    Opening Address............[3-4]
    Titanium in U.S.A.............[5-9]
    Titanium in Europe............[11-17]
    Application of Solidification Theory to Titanium Alloys............[21-34]
    Research on the Quality of Commercially Pure Titanium and Ti-6Al-4V Ingots............[35-41]
    Chemical and Structural Microinhomogeneity, Diffusion and Mechanical Properties of Titanium Alloys in Connection with Phase Transformation Characteristics............[43-56]
    Choice of Vacuum-Arc Melting Parameters to Ensure Ingot Chemical Homogeneity............[57-65]
    Properties of Wrought Shapes Formed from Electroslag-Melted Titanium............[67-74]
    Titanium in the U.S.S.R.............[75-76]
    Forgings in Titanium Alloys............[79-95]
    The Beta Forging of Titanium Alloys............[97-110]
    The Effect of Beta Processing on Properties of Titanium Alloys............[111-119]
    Heavy Press Forging of Large Titanium Alloy Parts for Aircraft and Aerospace Applications............[121-131]
    The Mono Graf Casting Process............[133-141]
    Precision Casting of Titanium............[143-147]
    Discussion Part A............[149-150]
    Discussion Part B............[151-152]
    Hydriding of Titanium Used in Chemical Plant and Protective Measures............[155-170]
    Anodizing of Titanium Equipment............[171-178]
    Reaction Rate of Titanium and Titanium Alloys with Titanium Lower Chlorides............[179-188]
    The Oxidation of Titanium Films............[189-197]
    Air Contamination and Embrittlement of Titanium Alloys............[199-208]
    Corrosion Resistance of Titanium and Titanium-5% Tantalum Alloy in Hot Concentrated Nitric Acid............[209-216]
    Utilization of Anodic Breakdown of Titanium Alloys as a Method of Characterization............[217-223]
    Corrosion Test for Evaluating the Corrosion Resistance of Titanium............[225-232]
    Titanium Electrode for the Manufacture of Electrolytic Manganese Dioxide............[233-236]
    Electrochemical Mechanism in the Stress Corrosion Cracking of Titanium Alloys............[239-245]
    The Stress Corrosion Cracking of a-Titanium Alloys at Room Temperature............[247-258]
    Some Characteristics of Aqueous Stress Corrosion in Titanium Alloys (Summary)............[259-261]
    Ambient Temperature Stress Corrosion Cracking in Ti-8Al-1Mo-1V............[263-265]
    Stress Corrosion Cracking in Titanium and Titanium Alloys............[267-281]
    Stress Corrosion Cracking of Titanium and Ti-Al Alloys in Methanol-Iodine Solutions............[283-291]
    Effects of Halogen Containing Hydrocarbons Upon Stressed Ti-6Al-4V Alloy............[293-298]
    Cracking of Titanium Alloys under Stress during Oxidation in Air............[299-306]
    Hot-Salt Stress Corrosion Cracking of Titanium Alloys............[307-320]
    Discussion Part A............[321-323]
    Discussion Part B............[324-328]
    Physical Properties of Titanium Alloys............[331-347]
    The Crystallographic Structure of Ti3Al............[349-357]
    Thermodynamic Properties of the Body-Centered Cubic Beta-Phase in the Titanium-Copper and the Titanium-Aluminum Systems............[359-360]
    Calculation of Regular Solution Phase Diagrams for Titanium Base Binary Systems............[361-372]
    The Single Crystal Elastic Moduli of Beta-Titanium and Titanium-Chromium Alloys............[373-381]
    Computer Experiments on Point Defect Configurations and Energies in Ti-M Systems............[383-392]
    Behavior of Hydrogen in Titanium and its Alloys by Internal Friction Measurement............[393-400]
    Stress-Induced Diffusion of Carbon and Oxygen in Titanium............[401-405]
    Interaction of Titanium with Elements of the Periodic System............[407-418]
    Discussion............[419-422]
    Elastic Properties of Dislocations in Titanium............[425-431]
    Elastic Interactions Between Dislocations and Twin and Grain Boundaries in Titanium............[433-440]
    Strain Distribution in Oxidized Alpha Titanium Crystals............[441-451]
    The Crystallography of Deformation Twinning in Titanium............[453-458]
    Slip Modes and Dislocation Substructures in Titanium and Titanium-Aluminum Single Crystals............[459-477]
    Interstitial Strengthening of Titanium Alloys............[479-487]
    Effects of Interstitial Content and Grain Size on the Mechanical Behavior of Alpha Titanium below 0.4Tm............[489-501]
    A Thermal Plastic Deformation in Commercial Purity Titanium............[503-516]
    Effect of Cyclic Stresses on Unalloyed Polycrystalline Titanium............[517-534]
    Fatigue Behavior of a-Titanium and a-Titanium-Hydrogen Alloys............[535-543]
    Deformation-Assisted Nucleation of Titanium Hydride in an Alpha-Beta Titanium Alloy............[545-555]
    The Temperature Dependence of Fracture Behavior in a-Titanium-Hydrogen Alloys............[557-560]
    Hydrogen Embrittlement of Titanium and its Alloys............[561-576]
    Hydrogen Embrittlement of Titanium as a Part of the Problem of the Brittle-Ductile Transition Temperature of Metals............[577-581]
    Phase Transformations During Welding and the Mechanism of Delayed Cracking of Titanium Alloys............[583-596]
    Transformation Plasticity of Titanium............[597-605]
    The Hot Plasticity of Ti-6Al-4V............[607-613]
    Superplasticity in Titanium............[615-623]
    Discussions............[625-629]
    Some Aspects of Phase Transformations in Titanium Alloys............[633-643]
    Mechanism of the Martensitic Transformation in Titanium and its Alloys............[645-657]
    Martensitic Transformations in Titanium Alloys............[659-676]
    The Effect of Cooling Rate on the Beta Transformation in Titanium-Niobium and Titanium-Aluminum Alloys............[677-690]
    Thermodynamics of the Ms Points in Titanium Alloys............[691-693]
    Continuous Cooling-Transformation of Beta-Phase in Binary Titanium Alloys............[695-698]
    Phase Transformation of Titanium Alloys by Means of Automatic Transformation Apparatus............[699-710]
    The Morphology of the Omega Phase............[711-718]
    The Stability of the Omega Phase in Titanium and Zirconium Alloys............[719-729]
    Note on the Structure of the Omega Phase............[731-732]
    An Electron Microscopy Study of Phase Transformations in Titanium-Copper Alloys............[733-743]
    Phase Relationships in Titanium-Oxygen Alloys............[745-763]
    The Martensitic Transformation in Titanium Binary Alloys and its Effect on Mechanical Properties............[767-778]
    Using of the Jominy Test to Compare the Quench Hardenabilities of Titanium Alloys Ti-6Al-4V and Ti-6Al-6V-2Sn............[779-782]
    A Study of the Age Hardening Reaction in Titanium-2?% Copper............[783-793]
    Thermo-Mechanical Strengthening of High Strength Titanium Alloys............[795-808]
    The Theoretical Bases of the Development of the High-Strength Metastable Beta-Alloys of Titanium............[809-814]
    Strengthening Mechanisms During the Heat Treatment of Three Titanium Alloys—Ti-6Al-4V, Ti-6Al-6V-2Sn and Ti-8Al-1V-1Mo............[815-816]
    Strengthening of Titanium Alloys by Shock Deformation............[817-828]
    Long Time Stability of Ti-679 after Creep Exposure for Times to 15,000 Hours............[829-837]
    Effect of Elevated Temperature Exposure on the Room Temperature Properties of Titanium Alloys 8Al-1Mo-1V, 6Al-4V and 4Al-3Mo-1V............[839-841]
    The Development of the Structure and Mechanical Properties of Titanium Welds............[843-846]
    Discussion Part A............[847]
    Discussion Part B............[848]
    Titanium Alloying in Theory and Practice............[851-859]
    The Effect of the Group III Elements Al, Ga, and In on the Creep and Stress Rupture of Titanium at 500°C............[861-873]
    Structure and Creep Properties of Ti7NbAl3-Base Alloys............[875-878]
    The Influence of Microstructure on the Mechanical Properties of Forged Alpha/Beta Titanium Alloys............[879-889]
    Properties and Application of Ti-5Al-2Cr-1Fe Alloy (KS150B)............[891-895]
    Influence of Carbon and Oxygen on Some Exploratory Ultra-High Strength Alpha-Beta Titanium Alloys............[897-899]
    The Effect of Fabrication Variables on the Properties of Age-Hardened Titanium-2?% Copper............[901-909]
    The Weldability, Tensile and Fatigue Properties of Some Titanium Alloys............[911-922]
    The Fatigue Properties of a High Strength Titanium Alloy (IMI.680)............[923-931]
    Elasticity of Titanium Sheet Alloys............[933-941]
    The Role of Depth Hardenability in the Selection of High Strength Alloys for Aircraft Applications............[945-957]
    Metallurgical Characteristics and Structural Properties of Ti-8Mo-8V-2Fe-3Al Sheet, Plate and Forgings............[959-968]
    High Strength Titanium Alloys for Aircraft Gas Turbine Application............[969-978]
    A Study of the Metallurgical Characteristics of Ti-6Al-6V-2Sn Alloy............[979-982]
    The Development of a Superior Titanium-Base Alloy for Cryogenic Applications............[983-985]
    Exploitation of a Simple Alpha Titanium Alloy Base in the Development of Alloys of Diverse Mechanical Properties............[987-999]
    Creep-Resistant Titanium Alloys............[1001-1008]
    Discussion Parts A and B............[1009-1010]
    Fatigue Characteristics of Titanium Alloy Forgings for Rotary Wing Vehicles............[1013-1021]
    High Voltage Electron Beam Welding of Titanium Alloys in Partial Vacuum............[1023-1036]
    Porosity in Argon Arc Welds in Titanium............[1037-1046]
    Submerged Arc Welding of Titanium............[1047-1048]
    Titanium Hot Forming............[1049-1051]
    Forming Ti-6Al-4V Sheet Metal in Four Heat Treated Conditions............[1053-1063]
    On the Explosive Bonding and Forming of Titanium............[1065-1080]
    The Production and Properties of Some Wear Resistant Coatings on Titanium-4% Molybdenum-4% Aluminum-2% Tin Alloy (Hylite 50)............[1081-1096]
    Titanium in Jet Engines............[1099-1115]
    The Application of Titanium Alloys in the Olympus 593 Engine for the Concorde SST............[1117-1125]
    Titanium Metal Fabrications in Aero Engines............[1127-1141]
    Titanium Applications for Supersonic Airplanes............[1143-1147]
    Future Possibilities for Titanium in Primary Aircraft Structures............[1149-1151]
    Marine Applications of Titanium............[1153-1160]
    Titanium Applications—U.S. Army............[1161-1167]
    Titanium in the Process Industries Today............[1169-1173]
    Titanium Alloy Pressure Vessels in the Manned Space Program............[1175-1186]
    Discussion Part A............[1187-1188]
    Discussion Part B............[1189]
    The Science, Technology and Application of Titanium
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