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    文集名称Ti-2003 Science and Technology
    国别德国类别世界钛会论文集
    出版单位Wiley-VCH
    出版日期2004-05-28载文量432
    简介该文集为第十届世界钛会的会议论文集,会议于2003年7月13—18日在德国Hamburg,CCH-Congress Center举行。

    本文集文章列表
    Recent Titanium Developments in the USA............[1-11]
    State of Production and Application of Titanium in the CIS............[13-26]
    Titanium Developments in the UK............[27-37]
    Recent Titanium Industries in Japan............[39-47]
    Recent Developments and Applications of Titanium in France............[49-57]
    The Present Situation and the Future of Titanium in China............[59-68]
    Recent Developments in the Production, Application and Researchof Titanium Alloys in Germany............[69-80]
    Titanium Production Technology: Recent Advances and Future Needs............[81-94]
    Properties and Applications of Ti: Current Status and Future Needs............[95-110]
    Metallurgy of Titanium Production (Titanium Sponge, Melting, Conversion, Alloys)............[111-120]
    Reduction of Rutile and Ilmenite by Methane-Containing Gas and Chlorination of Titanium Oxycarbide............[121-128]
    Potential New TiO2 Ores and TiC14 Technologies............[129-133]
    Application of Thermo-EMF Method during Titanium Sponge Blocks Preparation for Making Commercial Lots of Crushed Metal and for Alloys Production............[135-139]
    Establishment of the Manufacturing Technology of 5N Super Purity Titanium Billets by Kroll Process............[141-147]
    Implementation and Utilisation of a Mathematical Model to Simulate Vacuum Arc Remelting of Titanium Alloys............[149-156]
    The Influence of VAR Processing Parameters on Solidification Behavior of Ti-6Al-4V Alloy............[157-164]
    Microscopic Segregation of Ti-6Al-4V Ingot by VAR............[165-171]
    Manufacturing of PAM-Only Processed Titanium Alloys............[173-180]
    Direct Production of Ti-6Al-4V Alloy Plate from Electron Beam Cold Hearth Melted Slab Ingot............[181-188]
    Composition Control in Hearth Melting Processes............[189-196]
    Modelling of the EBCHM Process for Titanium Alloys............[197-204]
    An Advanced ESR Process for the Production of Ti-Slabs............[205-212]
    Electron Beam Surface Glazing of Titanium Ingots............[213-219]
    Direct Electrowinning of Titanium: Combination of Electrolysis and Melting of Titanium Metal by DC-ESR Apparatus............[221-228]
    High-Strength and Heat-Resistant Alloys with Intermetallics of MEM Technology............[229-236]
    Titanium Electrowinning............[237-244]
    OS Process — Thermo-Electro-Chemical Reduction of TiO2 in the Molten CaC12............[245-252]
    Reduction of Titanium Oxide in Molten Salt Medium............[253-260]
    Titanium Powder Production by Preform Reduction Process............[261-268]
    Mechanochemical Carbothermic Reduction of Ilmenite............[269-275]
    The Effect of Ball Milling on the Polymorphous Transformationof TiO2 (Anatase Type)............[277-283]
    Development Trends of the Wrought Processing for Titanium and Titanium Alloys (An Overview)............[285-296]
    Titanium Alloy Billet Processing for Low Ultrasonic Noise............[297-304]
    Premium Quality Titanium Billets Produced by a Highly Sophisticated Rotary Forging Machine............[305-312]
    Production of Large Scale Billets with Submicrocrystalline Structure out of Ti-6Al-4V Alloy Using the 3D Isothermal Forging............[313-320]
    The Prediction of Microstructural Development during TIMETAL? 6-4 Billet Manufacture............[321-328]
    Evaluation of Ti-6Al-4V Product Extruded Directly from PlasmaArc Melted Ingots............[329-336]
    The Trial Production of Large Diameter Bar of Ti-6-22-22S Titanium Alloy............[337-341]
    Titanium Processed by Rotary-Die Equal-Channel Angular Pressing............[343-347]
    Production of Sheet Half-Finished Products out of Titanium with Submicrocrystalline Structure and their Mechanical Properties............[349-356]
    Wiredrawing of Low Cost Beta Titanium (Timetal?LCB)............[357-364]
    High Temperature Deformation Behavior of Ti12LC Alloy............[365-370]
    Influence of Microstructure on Hot Plasticity of Ti-6Al-4Vand Ti-5Al-5Mo-5V-1Cr-1Fe Titanium Alloys............[371-378]
    The Comparison of Hot Deformation Resistance of Titanium Alloys during Hot Upsetting............[379-383]
    Properties Comparison for Various Beta and Alpha-Beta Alloys............[385-392]
    Determining Mathematics Model of Deformation Stress of Ti-Ni Alloy............[393-398]
    New Titanium Products via Powder Metallurgy Process............[399-410]
    Density, Thermal Expansion and Surface Tension of Liquid Titanium Alloys Measured by Non-Contact Techniques............[411-417]
    Economic-Cost Investment Casting Technology of Titanium Alloy............[419-424]
    The Evolution of Casting Titanium in China............[425-429]
    The Integration of the Bi-Lamellar Heat Treatment into thePrecision Casting Process............[431-438]
    Thermodynamic and Kinetic Consideration of Selecting Mould Materials for Casting Titanium Alloys............[439-446]
    Effects of Process Parameters on Metal-Mold Reaction of Ti and Ti-6Al-4V Alloy............[447-454]
    Factors Affecting Radiographic Detectability of Ceramic Facecoat Inclusions in Titanium Investment Castings............[455-462]
    Metal Injection Molding (MIM) for Near Net Shape Manufacturing of NiTi Shape Memory Alloys............[463-470]
    A Comparison of Ingot and Powder Metallurgy Production Routes on the Statistical Variability of the High Strength Ti-10-2-3 Titanium Alloy Tensile Properties............[471-477]
    New Production Techniques for Low-Cost Titanium Powder............[479-486]
    Near Net Shape Fabrication of Highly Porous Titanium Parts............[487-494]
    Synthesis of PM Titanium Alloys Using Titanium Hydride Powder:Mechanism of Densification............[495-502]
    Recent Development of Titanium Powder Metallurgy in China............[503-510]
    Updating of Technology for Titanium Hydride Powder and Powder-Based Parts Production............[511-516]
    The Development and Application of the Low Cost Titanium Powder for Automobile............[517-524]
    Direct Manufacturing of Titanium Parts with Unique Properties............[525-531]
    Phase Transformations in Compositionally Graded Titanium Alloys............[533-540]
    A Study on the Microstructure of Direct Laser Fabricated Ti-6Al-4V and Ti-15V-3Cr-3Sn-3Al Alloys............[541-548]
    Laser Deposited Titanium for Forging Preforms............[549-556]
    Making of Structural Elements (Stamping, Welding and Joining, Machining, Surface Strengthening Inclusive of Testing)............[557-568]
    Production of Submicron-Grained Ti-6Al-4V Sheets with Enhanced Superplastic Properties............[569-576]
    Strain Characteristics of Ti6Al4V Alloy Super Fine Grain Sheetsunder SPF Conditions............[577-580]
    Applying Superplastic Forming Principles to Titanium Sheet MetalForming Problems............[581-588]
    Prevention of Alpha-Casing in Ti-6Al-4V during Superplastic Forming Using Thermal Spray............[589-595]
    Effect of Heat Treatment on Superplasticity of Forged Ti-6Al-4V Alloy............[597-602]
    The Superplasticity of Near Beta Titanium Alloy Ti-10V-2Fe-3Al............[603-609]
    Application of Titanium Alloys in Sheet Metal Forming............[611-618]
    Utilisation of Explosive Forming for Titanium Alloy Sheet............[619-626]
    Forming of Long Pure Titanium Cups by Cold Multi-Stage Deep Drawing............[627-634]
    Hot Forming Characteristics of SP -700 Titanium Alloy............[635-642]
    A Study on Hot Formability and Barrel Shaping Technology of Ti-451 Alloy Plate............[643-649]
    Joining of Titanium Alloy 5111............[651-658]
    Current Problems of Joinability of Titanium and Titanium Alloys............[659-666]
    Titanium Joining by Sprayed Melt in Electron Beam Furnaces............[667-673]
    Mechanical Integrity of Diffusion Bonds Between Dissimilar Titanium Alloys............[675-682]
    Diffusion Bonding of Ti 6242 to y-TiAI Alloys............[683-690]
    Diffusion Bonding Characteristics of SP-700 Titanium Alloy............[691-697]
    Plasma Arc Welding of Commercially Pure Titanium and Ti-6AI-4V ELI Heavy Plates............[699-705]
    The Selection of Thermocycling Treatment Types Applied to the Welded Joints of Titanium Alloys............[707-714]
    The Influence of Hot Working Process on Mechanical Properties of Ti3Al-Ti Dual Alloy Welded by Electron Beam Welding in Vacuum............[715-720]
    Investigations on Arc Welding of Titanium and its Alloys............[721-727]
    Fracture and Fatigue Properties of Treated Ti-6Al-4V Platesand Magnetically-Impelled Narrow-Gap TIG Welding............[729-736]
    Weldability of 800MPa-Class Ti-Fe-O-N Based Titanium Alloy............[737-743]
    Manufacture of a Titanium Clad Steel Plate by a Resistance Seam Welding Process............[745-751]
    Numerical Analysis of Heat Transfer during Resistance-Seam Welding of Titanium and Steel Plates............[753-760]
    Development of a Titanium Welding Wire for GMAW............[761-768]
    Brazing of CP-Ti by Micro Spot Brazing............[769-775]
    Joining by Deformation: Innovative, Practice-Relevant Fastening Technologies............[777-783]
    Friction Stir Welding of Titanium Alloys — A Progress Update............[785-792]
    The Joints Characteristics of Friction Welded Titanium and 321 Stainless Steel............[793-798]
    Explosive Welding and Foil Cladding for Titanium Alloy Sheet............[799-806]
    Bonding Characteristics and Effect of Heat Treatment of Explosively Welded Ti/Steel Clads............[807-814]
    Methods for Improving Efficiency in Turning Ti6Al4V............[815-822]
    Workpiece Fatigue Properties after High Speed Maching of n-Titanium Ti 15-3............[823-830]
    Structural — Phase Transformation in Titanium Alloys at High-Speed Mechanical Effect............[831-838]
    Microstructure Evolution in Shear Bands during the Chip Formation of Ti 6Al 4V............[839-846]
    Influence of Different Machining Processes on the Vanadium Concentration of Beta-Phase in Ti6Al4V............[847-854]
    Bright-Shining Titanium Surfaces............[855-860]
    Study on Electropolishing Mechanism of NiTi Alloy............[861-865]
    Surface Engineering of Titanium: An-Overview............[867-874]
    Hardening of Titanium Alloys Using Concentrated Energy Beams............[875-882]
    Electrical Discharge Surface Alloying of Ti-6Al-4V Using Powder Sintered WC/Co Tool Electrodes............[883-890]
    Corrosion of Titanium Surface-Alloyed with Nickel or Nickel-Molybdenum by High Intensity Pulsed Plasma Beams in a Simulated Flue Gas Environment............[891-898]
    Double-Glow Discharged Plasma Non-Hydrogen Carburizing on Titanium Surface............[899-904]
    Oxygen Diffusion Strengthening of Ti6Al4V Alloy in Glow Discharge Plasma............[905-912]
    Elaboration and Thermo-Kinetical Study of Titanium Oxidation Assisted by a Nd-YAG Pulsed Laser............[913-919]
    Deep Case Oxygen Hardening of Titanium Alloys and Simulation............[921-928]
    Plasma Nitriding of Titanium and Titanium Alloys............[929-933]
    Pulsed Plasma Nitriding of Titanium and Titanium Alloys............[935-939]
    Fatigue Strength of Nitrided High-Strength Titanium Alloys............[941-948]
    A Detailed Study of the Microstructures Formed during Laser Nitriding of Ti-6Al-4V under Different Gas Atmospheres............[949-956]
    Orientation Relationships in Nitrided Titanium Alloys............[957-962]
    Technological Aspects of Intense Pulsed Electron Beam Application for Properties Improvement and Repair of Gas Turbine Engine Blades from Titanium Alloys............[963-970]
    Forming of the Surface Layer Microstructure of the Ti-6Al-4V Titanium Alloy through the Laser Alloying............[971-977]
    Modification of the Oxide Layer of Spark-Anodized Ti-6Al-4V by Pulsed Current............[979-986]
    Tribological Properties of Ti-10V-2Fe-3Al for Aeronautic Applications............[987-991]
    Effect of FPB (Fine Particles Bombardment) Treatment on the Friction Coefficient of Ti-6Al-4V Alloy............[993-1000]
    Laser Gas Alloying of Titanium — Process Technology and Wear Test Results............[1001-1008]
    Wear Resistant Ceramic-Based Multilayer Coatings with Dry Lubrication Ability............[1009-1016]
    Effect of Titanium Alloy Class on the Fatigue Response to Mechanical Surface Treatments............[1017-1024]
    Effect of Hybrid Surface Modification on Fatigue Propertiesof Ti-4.5Al-3V-2Mo-2Fe Alloy............[1025-1030]
    Improvement of Surface Properties of Titanium Alloy by Shot Peening............[1031-1038]
    Influence of Shot Peening Parameters on the Fretting Fatigue of Ti-6Al-4V............[1039-1044]
    Residual Stresses in Laser Shock Peened Ti-6Al-4V Plate............[1045-1052]
    Evaluation of Vibrostrenthening for Fatigue Enhancement of Titanium Structural Components on Commercial Aircraft............[1053-1057]
    Effects of Deep Rolling on the Fatigue Behavior of Ti-6Al-4V at Ambient and Elevated Temperatures............[1059-1066]
    Some Recent Work on Alloy and Process Development of Ti and TiAl Alloys............[1067-1074]
    Phase-Separated Microstructures in Ti-Al Binary Alloy Systems............[1075-1082]
    A Quantitative Description of Multicomponent Growth of Needle-Shaped Precipitates in Non-Ideal Solutions............[1083-1089]
    Modelling of Phase Transformation Kinetics in Ti Alloys............[1091-1098]
    Effect of Fe and 0 on the Continuous Cooling Beta to Alpha Transformation Behaviors of Pure Ti............[1099-1105]
    Phase Stability of Ti-Fe-O-N Based Titanium Alloys at Intermediate Temperature............[1107-1113]
    Effect of Carbon on the Distribution of Alloying Elements and Microstructure of Ti-5.6Al-4.8Sn-2Zr-1Mo-0.35Si-1Nd Titanium Alloy............[1115-1122]
    On Phase Relationship between Ti-Si Precipitates and Beta Matrixof Ti-6Al-4Fe-(0.1 to 1.0)Si Alloys............[1123-1129]
    Experimental Study and Computer Modeling of the Isothermal Beta to Alpha Transformation Kinetics in Titanium Alloys............[1131-1138]
    Microstructural Characteristics of Ti-Base Biomedical Shape Memory Alloys............[1139-1146]
    A Study on Microstructure of Solution Treated and Aged SP-700 Titanium Alloy............[1147-1154]
    Anisothermal Alpha Phase Formation in Ti-6.8Mo-4.5Fe-1.5Al............[1155-1161]
    Electrical Resistivity Changes during Isothermal Aging in Ti-10V-2Fe-3Al Alloy............[1163-1170]
    Prediction of the Kinetics of the Phase Transformations and the Associated Microstructure during Continuous Cooling in the Ti17............[1171-1178]
    Metastable Nano-Structure of Beta-Ti Alloys with Tweedor Tweed-Like Modulation............[1179-1185]
    The Microstructural Sensitivity of Ti-10V-2Fe-3Al during Isothermal Forging at Subtransus Temperatures............[1187-1194]
    Microstructure of Ti-B19 High Strength Titanium Alloy............[1195-1202]
    Resistivity Change with Room Temperature Rolling of Commercially Pure Titanium Plates............[1203-1210]
    Texture and Microstructure Evolution during Recrystallizationof Cold-Rolled Titanium............[1211-1218]
    Microstructure Formed by Hot Deformation in a Near P Titanium Alloy............[1219-1226]
    Precipitation and Recrystallization Behavior of Cold-Deformed Beta Titanium Alloys during Continuous Heat Treatment............[1227-1234]
    Refinement of β Grain Size Due to TiB or Y203 Precipitates in Titanium Alloy............[1235-1242]
    Strain-Path Effects on Microstructure Evolution during the Hot Deformation of Ti-6Al-4V............[1243-1250]
    Alpha-to-Beta Phase Transformation in Two-Phase Ti Alloys duringSuperplastic Deformation............[1251-1257]
    Characterization of Electron-Beam Melted Ti-6Al-4V Alloy in Cast and Thermomechanically-Processed Conditions............[1259-1266]
    Experimental and Multiscale Simulative Investigations of Microstructural Evolution of a Ti-6Al-4V Alloy during Thermomechanical Processing............[1267-1274]
    Recrystallization Textures in a Ti-6Al-4V Sheet for Different ColdRolling Conditions............[1275-1281]
    Texture Development under Plane Strain Compression in Ti-6-4............[1283-1290]
    Texture and Microtexture Analysis of an IM I 834 Alloy afterThermo-Mechanical Processing............[1291-1298]
    Texture Evolution during Primary Processing of Production-Scale Vacuum Arc Remelted Ingots of Ti-6Al-4V............[1299-1306]
    Experimental Investigation and 3D Monte-Carlo Simulation of Texture-Controlled Grain Growth in Titanium Alloys............[1307-1314]
    Polycrystalline Modelling of Forging in β Phase Field of Ti 17............[1315-1322]
    Influence of Cold Rolling on Phase Transformations and Texture in a Beta Titanium Alloy............[1323-1329]
    Inhomogeneous Texture and Microstructure Formation in High Speed Hot Rolling of Ti-15V-3Cr-3Sn-3Al Alloy............[1331-1338]
    Phase Transformation Textures and Microtextures in TIMETAL-21S Titanium Alloy............[1339-1344]
    Influence of Heat Treatments on Texture and Microstructure Evolution in Rolled Sheets of a β-Cez Alloy............[1345-1352]
    Beneficial Effects of Hydrogen as a Temporary Alloying Element on Processing and Properties of Titanium Alloys............[1353-1360]
    Hydrogen Diffusion in Beta Titanium Alloys............[1361-1368]
    The Dilatometer to Estimate the Transformations in Ti6Al4V Alloy during Nitrogen Absorption............[1369-1375]
    Relationships between Texture, Microstructure and Properties in Titanium and some Titanium Alloys............[1377-1388]
    A Combinatorial Approach to the Development of Neural Networks for the Prediction of Composition-Microstructure-Property Relationships in α/β Ti Alloys............[1389-1396]
    An Integrated Approach to the Calculation of Materials Properties for Ti-Alloys............[1397-1404]
    Research on the Intelligent Approach of Material Property Prediction and Optimization............[1405-1412]
    Modeling the Relationships between Microstructural Parameters and the Tensile Properties in Ti-6Al-4V Using Neural Networks and Fuzzy Logic Models............[1413-1420]
    Elastic Constant Measurements of Ti Alloys Using Resonant Ultrasound Spectroscopy............[1421-1428]
    Effect of Texture and Deformation Temperature on the Strain Hardening Response of Polycrystalline a-Titanium............[1429-1436]
    Extraordinary Properties of Bulk Ultrafine-Grained CP Ti Processed by Severe Plastic Deformation............[1437-1444]
    Nanostructuring of Titanium Based Materials by Severe Plastic Deformation —Fundamentals and Application............[1445-1452]
    The Effect of Microstructure on the Dynamic Deformation Behavior of Ti-6Al-4V Alloy............[1453-1460]
    Numerical and Microstructural Evaluation of Elevated Temperature Compression Tests on Ti-6Al-4V............[1461-1468]
    In Situ (SEM) Tensile Test of an α/β Titanium Alloy: Analysis and Evolution of Activated Slip Systems F.............[1469-1476]
    The Response of TIMETAL? 6-4 and TIMETAL?-550 to Mediumand High Strain Rate Deformation............[1477-1484]
    Damage Mechanisms of PM Ti-6Al-4V at Cryogenic Temperature............[1485-1492]
    Analysis on Relationship between Strain Behavior and Microstructure of CT20 Titanium Alloy at 20K............[1493-1497]
    Microstructure and Properties of a Nd-Containing High-Temperature Titanium Alloy............[1499-1504]
    Investigation of Stress Distribution in α+β Titanium Alloy by FEM............[1505-1510]
    Tensile Property of a" Martensite Structure in Ti-8mass%Mo Alloy............[1511-1518]
    Development of Multi Functional Titanium Alloy, "GUM METAL"............[1519-1526]
    Origin for "Super" Properties in GUM METAL............[1527-1534]
    Phase Transformations and Mechanical Response in a Ti/Mo-BasedPseudo-Elastic Alloy............[1535-1542]
    Mechanical Properties and Microstructures of Pseudoelastic BetaTi-Mo-V-Nb-Al Alloys............[1543-1550]
    Phase Transformation and Mechanical Properties of a New ? Titanium Alloy with Low Elastic Modulus............[1551-1557]
    The Effect of Heat Treatment on the Microstructure of Ti-5Al-5Mo-5V-3Cr- I Fe (Ti-555)............[1559-1566]
    The Supersaturated Beta Phase with Tweed Structure and its Mechanical Properties of Beta Ti Alloys............[1567-1574]
    Microstructure and Mechanical Properties of a New Near BetaTitanium Alloy — Ti-B19............[1575-1581]
    The Influence of Al Content on Tensile Properties and Aging Behavior of Ti-4.3Fe-7.1Cr-Al Alloys............[1583-1590]
    Effect of Heat Treatment on Mechanical Properties of a New Metastable Beta Titanium Alloy............[1591-1598]
    Analysis of the Mechanical Behavior of Metastable ? Titanium Alloys —Influence of the Phase Transformation............[1599-1606]
    Aging Behaviors from Metastable Beta Matrix and Mechanical Properties of Ti-15-3 Alloy............[1607-1613]
    Fracture Characteristics of Forged Plate of Ti-4.5Al-3V-2Mo-2Fe Conducted with Single and Duplex Annealing in a+? Field............[1615-1622]
    An Investigation of Near Beta Forging for Titanium Alloys and theEngineering Application............[1623-1630]
    Influences of Chemistry and Processing on Microstructure and Mechanical Properties for Ti-6Al-2Sn-2Zr-2Cr-2Mo-0.15Si............[1631-1638]
    Microstructures and Mechanical Properties of Ti-6-22-22s Alloy Step by Step Rolling Rod............[1639-1643]
    Effect of Heat-Treatments on Microstructures and Properties of Ti-6-22-22S Alloy............[1645-1649]
    The Effect of Duplex Aging on the Tensile Behaviorof Ti-35Nb-7Zr-5Ta-(0.06-0.7)O Alloys............[1651-1658]
    Fracture Toughness Mechanisms of High Strength ? Titanium Alloys............[1659-1666]
    Wear of Ti-6Al-4V Alloy under Constant and Variable Fretting Conditions: Development of an Energy Wear Approach............[1667-1674]
    Prediction of Ti-6Al-4V Crack Nucleation under Fretting Loadings:Impact of the Size Effect............[1675-1682]
    Fretting Fatigue and Frictional Wear Characteristics of High Workable Titanium Alloy, Ti-4.5Al-3V-2Mo-2Fe............[1683-1690]
    Reciprocating Sliding Wear Resistance of ?21 SRx Titanium............[1691-1698]
    Oxygen Diffusion in Titanium and its Abrasive Wear............[1699-1706]
    Characteristics and Effects of Pad Alloys and Cu-Ni Coatingon Fretting Fatigue Behavior of Ti-6Al-4V............[1707-1714]
    Hydrogen-Induced Microstructure Changes in Ti-6Al-4V Alloy............[1715-1722]
    Hydrogen Effects on the Mechanical Properties of Beta Titanium Alloys............[1723-1730]
    Effect of Hydrogen and Tensile Strain Rate on Hydrogen Embrittlement of Ti-2Al-2.5Zr Alloy............[1731-1736]
    Hydrogen Effects of ?-21S Titanium Alloy............[1737-1744]
    Effect of Grain Size on Fatigue Properties in Ti-5%Al-2.5%Sn ELI Alloy............[1745-1751]
    Comparison of Accumulated Damange in Low Cycle and High Cycle Fatigue Conditions............[1753-1757]
    Texture, Microstructure and Mechanical Properties in TIMETAL? 6-4............[1759-1766]
    Effects of Microstructure on the High Cycle Fatigue Behaviourof Ti-6Al-4V Alloys............[1767-1773]
    Influential Factors on Interior-Originating Fatigue Fractures of Ti-6Al-4V in Gigacycle Region: Focusing on Stress Ratio and Internal Environment of Material............[1775-1782]
    The Effect of Microstructures on Interior-Originating Fatigue Fractures of Ti-6Al-4V in Gigacycle Region............[1783-1790]
    Thermographic Characterization of Fatigue Damage in Ti-6Al-4V............[1791-1798]
    Localized Damage Characterization in Fatigue Fractured Ti-6Al-4V Using Nonlinear Acoustics and Transmission Electron Microscopy............[1799-1806]
    Tension and Torsion Fatigue Response of TIMETAL ? 6-4and TIMETAL? 550 Alloys............[1807-1814]
    Cycle Deforming Behavior and Microstructure Observationof Ti-2Al-2.5Zr Alloy at 350°C............[1815-1821]
    Influence of Prior Deformation on the Development of Duplex Microstructures and Fatigue Stengths in Ti-6242............[1823-1830]
    Deformation and Crack Initiation in Ti-6242Si Alloys............[1831-1838]
    Comparison of Microstructure and Mechanical Properties of Die-Forged Aero Engine Compressor Disk Alloys Ti-6242, Ti-6246 and Ti-17............[1839-1846]
    Mechanical Properties of SP-700 Titanium Alloy at Room Temperature............[1847-1854]
    Influence of Heat Treatment on Mechanical Properties of Beta 21S............[1855-1862]
    Heat Treatment and Property of Beta-21S Bar............[1863-1869]
    Mechanical Properties of Beta Processed Ti-6246............[1871-1878]
    Microstructure and Mechanical Properties of ?-Annealed Ti-6246............[1879-1886]
    Incorporating Variability in a Mechanism-Based Life Prediction Methodology for Fatigue of Ti-6Al-2Sn-4Zr-6Mo............[1887-1894]
    Role of Microstructure in Crack Nucleation and Fatigue Lifeof the Beta Titanium Alloy: Ti-10V-2Fe-3Al............[1895-1902]
    A Microcrystallographic Study of Fatigue Damage in Ti-Ni Shape Memory Alloy............[1903-1910]
    Short-Fatigue-Crack-Growth Phenomena in a Beta-Titanium Alloy............[1911-1918]
    Effect of a Grain Size Gradient on the Profile and the Propagation of Short Surface Cracks in Titanium Grade 2............[1919-1924]
    Effect of Aging on Fatigue-Crack Growth Behavior of a High-Temperature Titanium Alloy............[1925-1932]
    Fatigue Crack Growth Behaviour in Titanium Single Crystals............[1933-1940]
    Crack Damage Characterization in Ti-6Al-4V by SurfaceWhite-Light Profilometry............[1941-1948]
    In-Situ Studies of Deformation Behavior and Damage Evolutionin High-Temperature Titanium Alloy IMI 834............[1949-1956]
    Crack Growth Resistance of Sharply Gradiented Microstructures............[1957-1964]
    Crack Propagation and its Computation in Graded Microstructuresof a Near-a-Titanium Alloy............[1965-1972]
    Molecular Dynamics Simulation of Crack Propagation in Titanium............[1973-1978]
    Influence of Variable Amplitude Loading on Fatigue Crack Propagation Behavior of Ti-6Al-4V............[1979-1986]
    Low-Cycle Dwell-Time Fatigue in Ti-6.5Al-3.5Mo-1.5Zr-0.3Si Titanium Alloy............[1987-1993]
    Crack Propagation under Fatigue-Corrosion Interaction in Titanium Alloys............[1995-2002]
    Interactions between Fatigue, Creep and Environmental Damage in Ti6242............[2003-2010]
    Recovery of Strain Hardening at Low Temperatures in Alpha Ti-6Al and Ti-6242............[2011-2018]
    Ambient Temperature Creep Deformation Behavior of anAlpha-Ti-1.6 Wt.% V Alloy............[2019-2026]
    Study of Creep Mechanisms and Precipitated Particle Role of Ti-600 Alloy............[2027-2032]
    Effects of Alloying and Cold-Work on Anisotropic Biaxial Creepof Titanium Tubing............[2033-2040]
    Corrosion, Oxidation and Surface Modification of Titanium Alloys............[2041-2049]
    Growth Behaviors of Alpha Cases in Ti-6Al-4V and Ti-10V-2Fe-3Al Alloys during High Temperature Heat Treatment in Air............[2051-2057]
    Improvement of Oxidation Resistance of Ti-Based Alloys with Silicon............[2059-2066]
    Oxidation and Stress Enhanced Oxidation of Ti-6-2-4-2............[2067-2074]
    Corrosion Resistance of Ti-Nb Alloys............[2075-2082]
    Stress-Corrosion and Corrosion Fatigue Cracking in Ti-5111 and VLI Ti-6Al-4V............[2083-2090]
    Sustained Load Cracking in Titanium Alloys............[2091-2098]
    Comparative Corrosion Resistance of Commercial Ru- and Pd-Modified C.P. Titanium Alloys............[2099-2105]
    PGMA — A Novel Corrosion Protection Method for Titanium............[2107-2114]
    Nitridation of Titanium-Tin Alloys during Heating in Air............[2115-2122]
    Processing and Application of Engineering γ-TiAl Based Alloys............[2123-2136]
    Microstructure-Property Relationships in Newly Developed Multiphase Ti2AlNb-Based Titanium Aluminides............[2137-2144]
    The Grain Boundary Character Distribution in BCC and O+BCC Ti-Al-Nb Alloy Microstructures............[2145-2152]
    B2 Grain Size Refinement of (O+B2) Ti-22Al-27Nb Alloy............[2153-2159]
    The Role of W in Orthorhombic Ti2AlNb Based Intermetallic Alloyfor the Enhancement of Creep Properties above 700°C............[2161-2168]
    Composition and Microstructure Analysis of Ti-24Al-17Nb-0.5Mo Alloy after YAG Laser Surface Remelting Treatment............[2169-2176]
    Bulk Properties of Ti2AlNb from First Principles Calculations............[2177-2184]
    High Speed Milling and Surface Grinding of an OrthorhombicTiAl Alloy Ti-23Al-25Nb............[2185-2192]
    Compaction of Mechanically Alloyed Ti-Si Intermetallics Coated with Titanium: Influence of the Interface............[2193-2200]
    Pressurized Reaction Sintering of Intermetallic Compound of TiAl Using Resistance Heating as Ignition............[2201-2208]
    A New Processing Route for Titanium Alloys by Aluminothermic Reduction of Titanium Dioxide and Refining by ESR............[2209-2216]
    Comparison of Microstructure and Phase Composition of Vacuum Induction Ti-48Al-2Cr-2Nb Alloy Melted in Crucibles with Plasma Spaying Coatings............[2217-2224]
    The Chemical Composition, Structure and Properties of Gamma-TiAl Intermetallic Phase Based Alloys Melted in Vacuum Induction Furnaces in Ceramic Crucibles............[2225-2232]
    A Study on the Metal-Mold Reaction for TiAl Investment Casting............[2233-2240]
    Development of Gamma Alloy Based on Ti-46.5Al-5Nb for Cast Applications............[2241-2248]
    Enhanced Superplasticity of Fine-Grained Gamma TiAl (Mo, Cr, Si) Alloys............[2249-2256]
    Development of Novel Sheet Rolling Process of Ingot-Metallurgy γ-TiAl+α2-Ti3Al Based Alloys for Production of Sheets with Enhanced Mechanical Properties............[2257-2264]
    The Joints Properties of TiAl and AISI4140 by Friction Welding Method............[2265-2270]
    Study on Joining of Titanium Aluminide Intermetallic Alloy and Steel............[2271-2276]
    Microstructure and Properties of y TiAl Sheet Joints Brazed with a Ti-Cu-Ni Alloy I. C. Wallis, H. S. Ubhi, M.-P. Bacos, P Josso, J. Lindqvist, D. Lundstrom,............[2277-2284]
    Process Development and Quality Evaluation of Large Size Wrought Plates from Titanium Intermetallide Base Alloy (γ-Alloy)............[2285-2292]
    Studies on the Conventional Machining of TiAl-Based Alloys............[2293-2300]
    Modelling of the Deformation Behaviour of Intermetallic γ-TiAl-Based Alloys —A Short Review............[2301-2308]
    Integrated Material System for P/M Nanocrystalline TiAl............[2309-2316]
    Novel Approaches to Thermomechanical Processing of Ingot-Metallurgy y-TiAl Based Alloys............[2317-2324]
    Development and Control of Feathery Microstructure in Cr Added TiAl Alloys............[2325-2330]
    Effects of Ternary Alloying Elements on Constitution and Mechanical Properties of TiAl Base Alloys............[2331-2338]
    Titanium Boride Clusters and their Effect on Tensile Properties in TiAl Alloys............[2339-2346]
    Effects of Boron, Carbon and Gadolinium Additions on the Microstructure and Grain Size of Ti-48Al-2Cr-2Nb Alloy............[2347-2354]
    Refinement of the Lamellar Structure in TiAl Based Alloys by Addition of Rare Earth Elements............[2355-2360]
    Microstructure and Mechanical Properties of Multi-Oriented Columnar TiAl Alloys............[2361-2367]
    Microstructure and Properties of Quenched and Aged TiAl Alloys............[2369-2376]
    On the Mechanical Behavior and Microstructural Evolution of a TiAl Alloy under Quasistatic and Dynamic Compression............[2377-2384]
    Texture Formation during Hot-Rolling of γ-TiAI............[2385-2392]
    Influence of the Changes in the Microstructure of a Nb-Containing TiAl Alloy on the Measurements of Internal Friction............[2393-2400]
    Creep Properties and Texture of a High Niobium Containing γ-TiAI Sheet Material ............[2401-2408]
    Foreign Object Damage (FOD) and Fatigue Performance of a Gamma Titanium Aluminide at Service Temperatures............[2409-2416]
    Comparison of the High-Temperature Fatigue Behaviour of Two Different Gamma-TiAl Sheet Materials: Influence of a High Niobium Content............[2417-2424]
    Notch Effects on HCF Strength of Gamma Titanium Aluminides............[2425-2432]
    Friction and Wear Performance of a Thermal Oxidation TreatedTitanium Aluminide............[2433-2440]
    Environmental and Thermal Protection of Gamma Titanium Aluminides............[2441-2448]
    Oxidation Activation Energy of TiAl Intermetallics............[2449-2454]
    MCrAlY Coatings for the Protection of Gamma Titanium Aluminide............[2455-2462]
    Titanium Matrix Composites (TMC) Status............[2463-2469]
    Potentials of Orthorhombic Titanium Aluminide Composites............[2471-2478]
    Interfacial Reaction of Super α2 and Ti2AlNb Composites Reinforced by SCS-6 SiC Fibers............[2479-2486]
    Metallurgical Features Related to Liquid Route Ti Alloy Coatingof C Coated SiCcvd Filaments............[2487-2494]
    Microstructures of "In Situ" Ti/TiBw Composites Produced by a Liquid Manufacturing Route............[2495-2501]
    A Powder Coated Fibre Pre-Processing Route for Cost Effective Production of Ti/SiC Metal Matrix Composites............[2503-2509]
    Innovative Processing of Porous Ti Composite by Combustion Reaction............[2511-2516]
    Influence of TiC Particle on Microstructures and Properties of Titanium Matrix Composite............[2517-2521]
    Titanium as an Activator Material for Producing MMCs by Pressureless Melt Infiltration............[2523-2530]
    Hot Formability of a Particle Reinforced Ti-Alloy............[2531-2538]
    Properties of Diffusion Bonded TiC Particulate Reinforced Ti-6Al-4V Metal Matrix Composite............[2539-2546]
    Direct Laser Deposition of In Situ Metal Matrix Composites Basedon Titanium Borides............[2547-2554]
    Phase Equilibria and Phase Transformations in the Ti-Rich Cornerof the Ternary System Ti-Fe-B............[2555-2562]
    The Effects of Holding at Temperature on Fracture Mechanismof Titanium Based Metal Matrix Composite............[2563-2568]
    Debonding Criterion in the Push-Out Process of Fiber-Reinforced Titanium Matrix Composites............[2569-2575]
    Quantitative Analysis of the Fatigue Damage of Ti-6242/SCS-6 Metal Matrix Composite............[2577-2584]
    Thermo-Mechanical Fatigue Failure and the Life Prediction of a Unidirectionally Reinforced SP-700/SCS-6 Composite............[2585-2592]
    The Way of Optimization of the Fatigue Resistance of TitaniumMatrix Composites — Models and Experiments............[2593-2600]
    Mechanical Properties of TiB Ceramic Particulate-ReinforcedTi-22Al-27Nb Alloy............[2601-2608]
    Study on TiC Particle Reinforced Titanium Matrix Composite............[2609-2613]
    Titanium for Airframe Applications: Present Status and Future Trends............[2615-2626]
    Fabrication and Evaluation of Titanium Aluminide (Ti-Al) Honeycomb Structures for Use in Various Hypersonic and Other Aerospace Vehicles............[2627-2634]
    Use of Titanium Castings on the F/A-22 Raptor — Lessons Learned............[2635-2642]
    Properties of TIMETAL 555 — A New Near-Beta Titanium Alloyfor Airframe Components............[2643-2650]
    Lap and Butt Joining by a CO2 Laser of Titanium Alloys for Civil and Military High Speed Aircraft............[2651-2658]
    Titanium Products Used at AIRBUS............[2659-2666]
    Titanium for Damage Tolerance Applications on A380............[2667-2671]
    Development of Superplastic Forming and Diffusion Bonding Titanium Alloy Aerospace Components............[2673-2680]
    Contribution to the Introduction of Casting Factor 1.0............[2681-2688]
    Ti-Applications in High Pressure and High Temperature Ducts............[2689-2696]
    Development of Low Cost Near Net Shape Forgings from Ti 6-4by Special Process Technology............[2697-2704]
    Titanium Investment Castings for Airbus............[2705-2712]
    Take-Off on Titanium............[2713-2717]
    A Study of Oxygen Diffusion Zones in Ti3Al2.5V Tubes and Ti6Al4V Sheets and Introduction of a Detection Method............[2719-2726]
    The Current Status of Titanium Alloy Use in Aero-Engines............[2727-2735]
    Titanium Industry Quality Improvements............[2737-2744]
    Residual Stresses in Linear Friction Welded IM1550............[2745-2752]
    High Frequency Inductive Press Welding of (a+β) Titanium Alloys............[2753-2760]
    Effects of FOD on Fatigue Crack Initiation of Ballistically Impacted Ti-6Al-4V Simulated Engine Blades............[2761-2768]
    Evaluating Fretting Fatigue Life of Titanium Alloy Dovetailsby Using Stress Singularity Parameters............[2769-2776]
    Technological Aspects of Intense Pulsed Electron Beam Application for Properties Improvement and Repair of Gas Turbine Engine Blades from Titanium Alloys............[2777-2784]
    Basics on Laser Cladding of Ti 6246 for the Repair of Damaged Compressor Blades for Jet Engines............[2785-2792]
    Residual Stress Evolution during Heat Treatment and Machining of Forged Ti-6Al-4V Turbine Engine Parts — Computational Simulation in Comparison to Experimental Investigations............[2793-2800]
    Residual Stresses in Unfatigued and Fatigued Laser Shock Peened Fan Blade Roots............[2801-2808]
    Mechanical Properties and Microstructure of Ti40 Bum Resistant Alloy Ring............[2809-2815]
    The Surface Integrity of a Burn Resistant Titanium Alloy (Ti-25V-15Cr-2Al-0.2C wt%) after High Speed Milling and Creep Feed Grinding............[2817-2824]
    Study on Microstructure of Ti40 Burn Resistant Titanium Alloy As-Cast............[2825-2828]
    Micromechanisms of Fracture in Burn Resistant Ti-25V-15Cr-2Al-0.2C Alloy............[2829-2836]
    Applications of Quantitative Fractography to Titanium Alloys............[2837-2843]
    Titanium in Aero-Engines............[2845-2852]
    Microstructure and Mechanical Properties of Screw-Press Forged Titanium Jet Engine Discs............[2853-2857]
    Precision Forging of Titanium Compressor Blades............[2859-2865]
    Friction Welding of Aero Engine Components............[2867-2874]
    Microstructure and Mechanical Properties of Inertia and Electron Beam Welded Ti-6246............[2875-2882]
    The Influence of Manufacturing Anomalies on Fatigue Performance of Critical Rotating Parts in the Aero-Engine............[2883-2890]
    Development of Ti-6-2-4-6 Engine Discs............[2891-2898]
    TiAl — New Opportunity in the Aerospace Industry............[2899-2906]
    Titanium Matrix Composites for Demanding Structural Aerospace Applications............[2907-2914]
    Burn Resistant Titanium Alloy (BuRTi)............[2915-2922]
    Application of "I itanium to Ocean Civil Engineering and Marine Vessels in Japan............[2923-2934]
    Titanium Alloy Utilization in Drilling and Offshore Production Systems............[2935-2942]
    Design, Manufacture, and Assembly of Ti-6Al-4V ELI Tapered Stress Joints............[2943-2950]
    Sustained Load Cracking Resistance of Forged Grade 29 TitaniumRiser Components............[2951-2958]
    Fatigue Strength of CP Grade 2 Titanium Fillet Welded Joint for Ship Structure............[2959-2966]
    Optimizing the Design of the Deep-Water Power Generating Unit Casing Made of Titanium Alloys............[2967-2974]
    Application of TIMET Alloys for High Speed Motor Rotor............[2975-2982]
    Production of All Titanium Brazed Heat Exchanger............[2983-2990]
    Structural — Phase Transformation in Metal of Blades of Steam Turbines from Alloy VT6 after Technological Treatment............[2991-2998]
    Emerging Applications for Titanium............[2999-3010]
    Mass Production of Gamma TiAl- Automobile- Valves on Prototype Scale............[3011-3018]
    Heat Resistant Titanium Alloy for Mufflers, Ti-1.5%Al............[3019-3025]
    Development of Low Cost High Strength Alpha/Beta Alloywith Superior Machinability............[3027-3034]
    Processing and Properties of Ti-38-644 Alloy for Titanium Automotive Suspension Springs............[3035-3042]
    Influence of Heat Treatment and Shot Peening on Fatigue Behaviorof Suspension Springs Made of TIMETAL LCB............[3043-3050]
    Development of a Titanium Connecting Rod for Automotive Quantity Production............[3051-3058]
    Influence of Alloy Composition and Heat Treatment on the Fatigue Behaviour of Titanium Connecting Rods............[3059-3066]
    Investment Casting of Automotive Turbocharger Rotor Using TiAl Alloy............[3067-3074]
    Development of Titanium Alloy Engine Valves for Motorcycles............[3075-3081]
    Research on Low Cost Titanium Alloy............[3083-3087]
    New Alpha-Beta Titanium Alloy, KS Ti-4.5Al-4Cr-0.5Fe-0.2C, Possessing Both Extremely Low Flow Stress during Hot Working Similar to Grade 2 and High Strength Comparable to Grade 5............[3089-3095]
    New Coilable High-Strength Alpha-Beta Titanium Alloy, KS Ti-9,with Properties Comparable to Ti-6Al-4V............[3097-3102]
    Development of New High Performance Titanium for Buildings............[3103-3110]
    A Cleaning Method for Aged Architectural Titanium............[3111-3116]
    Surface Morphology and Discoloration Behavior of Titanium Sheets Pickled in Nitric-Hydrofluoric Acid Solutions............[3117-3124]
    Ballistic Evaluation of Ti-6Al-4V Plate for Protection Against Small Arms Projectiles............[3125-3132]
    Development of a New Beta Titanium Alloy Ti-15V-6Cr-4Al for Golf Club Heads............[3133-3140]
    The Application of Ti-20V-4Al-1Sn Alloy to Golf Club Head............[3141-3148]
    Manufacturing, Quality Control and Assessment of the Cryogenic Properties of α Titanium Alloy for Application to the Coil Suspension System of the Compact Muon Solenoid (CMS)............[3149-3156]
    Porous Titanium with Reticulate Structure for Orthopaedic Implant............[3157-3164]
    Development of New High Strength Beta Ti Alloys for Biomedical Applications ............[3165-3172]
    Mechanical Properties of New Ti-Fe-Ta and Ti-Fe-Ta-Zr System Alloys............[3173-3179]
    Mechanical Performance and Biocompatibility of Low Rigidity Titanium Alloys, Ti-29Nb-13Ta-4.6Zr, for Biomedical Applications............[3181-3188]
    Young's Modulus and Mechanical Properties of Ti-29Nb-13Ta-4.6Zr for Biomedical Applications............[3189-3196]
    Evaluation of Mechanical Properties of ASTM Gr.2 CommerciallyPure Titanium and Ti-6Al-4V ELI in Liquid Hydrogen............[3197-3204]
    Effect of Plastic Deformation and Static Stress on Corrosion of Ti-6Al-4V Alloy............[3205-3211]
    The Application of the Bi-Lamellar Heat Treatment to TitaniumOrthopedic Implants............[3213-3219]
    Evaluation of Corrosion Resistance and Biocompatibility of Ti-Ni Alloy............[3221-3228]
    Corrosion Resistance of Titanium and Titanium-Silver Alloysin the Fluoride-Containing Artificial Saliva............[3229-3235]
    Cyclic Deformation Behavior of Ti-6Al-4V and Ti-6Al-7Nbin Different Quasi-Physiological Media............[3237-3244]
    A Comparative Study of Wear Properties of Ti-Nb-Ta-Zr Alloys and Ti-6Al-4V............[3245-3252]
    Finite Element Modelling of Proximal Humeral Fractures Reinforced by Intramedullary Titanium Nailing............[3253-3260]
    Dental Casting of Ti-Cr-Cu Alloys............[3261-3268]
    Surface Reaction Layer and Mechanical Performance of Low Rigidity Titanium Alloy, Ti-29Nb-13Ta-4.6Zr, Cast by Dental Precision Casting Method............[3269-3276]
    Interactions between Cells and Metal Oxide Surfaces............[3277-3284]
    Characterization of Electrochemical Interface between Titanium and Cells............[3285-3291]
    Effect of Pre-Oxidation on Formation of Apatite Coatings on Titanium Surface............[3293-3297]
    Electrodeposition of Hydroxyapatite on Titanium for Implants............[3299-3306]
    Corrosion Behavior of the Material Combination Titanium —Plasma Sprayed Titanium Coating — Bone Cement in Artificial Bone Fluid............[3307-3314]
    Improvement of the Surface Structure and of Functional Coatings on Titanium Alloys in Contact with Blood............[3315-3322]
    Biocompatibility of Calcium Phosphate Film Made by Electrochemical Method............[3323-3330]
    RGD Peptide Grafting onto Ti-6Al-4V: Physical Characterization and Interest towards Human Osteoprogenitor Cells Adhesion............[3331-3338]
    Spark Anodization on Titanium and Titanium Alloys............[3339-3344]
    Atmospheric Plasma Spraying (APS) of Graded Multilayer Titanium Dioxide/ Calciumphosphate Coatings on Titanium for Biomedical Implants............[3345-3352]
    Ti3 + Surface Defects Generation by UHV Low-Temperature Annealing............[3353-3360]
    Biocompatibility of Ti-6Al-4V Alloy Modified by Fine Particle Bombardment (FPB)............[3361-3367]
    Improvement of ? Titanium Alloys Surface Properties by Vacuum Laser Treatment ............[3369-3375]
    Influence of Laser Marking on the Fatigue Behavior of Ti-6Al-7Nb Alloy............[3377-3384]
    Shape Memory Characteristics of Ti-Base Biomedical Shape Memory Alloys............[3385-3392]
    Titanium in Automotive Applications — Nightmare, Vision or Reality............[3393-3402]
    Optimization of Deep Drawing Processes for the Low-Cost Manufacturing of Automotive Titanium Exhausts............[3403-3410]
    Titanium Aluminides for Automotive Applications............[3411-3418]
    Low-Cost Production Lines for Emerging Applications Like Automotive............[3419-3426]
    Ti-2003 Science and Technology
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