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    文集名称Ti-2007 Science and Technology
    国别日本类别世界钛会论文集
    出版单位The Japan Institute of Metals
    出版日期2007-12-01载文量407
    简介该文集为第十一届世界钛会的会议论文集,会议于2007年6月3—7日在日本东京Kyoto International Conference Center举行。

    本文集文章列表
    Titanium Developments in the UK............[1-8]
    Development of Titanium Processing Technologies in the USA............[9-16]
    Current Status of Titanium Production, Research and Applications in CIS............[17-24]
    Recent Titanium Research and Development in Germany............[25-32]
    Challenges for the Development of Titanium in France and in the European Industry............[33-39]
    Review of Titanium Industry in China............[41-48]
    Recent Developments in the Research, Production and Application of Titanium in Japan............[49-56]
    Application of the FFC Cambridge Process for the Production of Titanium Alloys............[59-65]
    Study on the Effect of Mechanical Activation on the Kinetics of Hydrochloric Acid Leaching of Ilmenite............[67-70]
    Chlorination of Titanium Oxycarbide Produced by Carbothermal Reduction of Rutile............[71-74]
    Synthesis of Titanium Oxycarbide by Carbothermal Reduction of Titania in Different Gas Atmospheres............[75-78]
    Synthesis of Titanium Oxycarbonitride by Carbothermal Reduction of Titania in Nitrogen Containing Gas Mixtures............[79-82]
    Operation of Electrolysis Cells for the Direct Production of Titanium from Solid Oxide Precursors............[83-86]
    Cathodic Behaviour of TiO2 in Molten CaC12-based Electrolytes............[87-90]
    Investigation of the Reduction Electrochemistry of Titanium Oxides in Molten Calcium Chloride using a Cavity Electrode............[91-94]
    Direct Electrochemical Production of Ti-10V-2Fe-3Al from Mixed Oxide Precursors............[95-98]
    Calciothermic Reduction of TiO2 with ZrO2 Anode in Molten CaCl2............[99-102]
    Reduction of TiC14 Gas by Ca Dissolved in Molten Calcium Chloride............[103-106]
    Preparation of Hydrogen Storage Ti-V-Cr Alloy from the Oxide Mixture in CaCl2............[107-110]
    Fundamental Study on Titanium Production Process by the Disproportionation Reactions of Titanium Subchlorides............[111-114]
    Titanium Production Process by Utilizing Titanium Subchlorides............[115-118]
    Production of Titanium Powder Directly from Titanium Ore............[119-122]
    A Thermodynamic Study on the Deoxidation of Titanium by Calcium Halide Flux............[123-126]
    Application of a 'See-through' Electrolytic Cell for Titanium Electrowinning............[127-130]
    DCW Synthetic Rutile - A Feed Stock for Titanium Sponge............[131-133]
    Stepped-up Production Capacity of Titanium Sponge............[135-137]
    History of Improving TOHO TITANIUM Sponge Quality............[139-142]
    Development of New Titanium Production Process............[143-146]
    New Smelting Method Development (Ca Cleaner Technology)............[147-150]
    Titanium Alloy Melt Process Quality Improvements............[151-154]
    Titanium Ingot Production at Toho Titanium Co., Ltd.............[155-158]
    Optimization of VAR Process by Applying Computational Simulation............[159-162]
    Simulation of Macroscopic Segregation in Titanium Alloy VAR Ingots............[163-171]
    Experience in Using Scull Arc Remelt for Production of Multi-Component Titanium Alloys............[167-175]
    Segregation and Solidification in Titanium Alloy............[173-180]
    Extraction of Titanium in a Liquid State from Molten Slag with a DC-ESR Unit............[177-184]
    Ingots Crystallization in Titanium Sponge Cakes Electron Beam Direct Melting............[181-188]
    The Electron Beam Cold Hearth Melting Technology............[185-191]
    The Preparation of Homogeneous Ingot of Ti35 Alloy............[189-194]
    Microstructure Formation in Titanium Alloys by Solid/Solid Phase Transformation: Towards Prediction of Morphology Distributions............[195-202]
    Ultrafine-grained CP-Ti Fabricated by Severe Plastic Deformation and Annealing............[203-206]
    Influence of Heat Generation during HPT-straining on Strengthening and Grain Refinement in Commercial Purity Ti............[207-210]
    Anisotropic Behavior of Pure-titanium Sheet under Biaxial Tension............[211-214]
    Influence of Grain Size and Strain Rate on the Constitutive Response and Texture Evolution in High-purity Titanium............[215-218]
    Deep Drawing of Pure Titanium and Pure Aluminum Using Plastic Die for Prevention of Seizure............[219-222]
    Forming of Long Titanium Alloy Cups by Multistage Deep Drawing............[223-226]
    Micro-indentation of Commercially Pure Titanium............[227-230]
    Direct Observation of Solidification and Morphological Development in Pure Titanium............[231-234]
    Influence of Solid Solution Hydrogen on Grain Growth in Commercially Pure Titanium............[235-238]
    In situ 3-D Imaging of Combined Microstructure and Crack Propagation in Ti Alloys using Phase Sensitive Synchrotron Microtomography............[239-242]
    The Reason to Produce Noises in Ultrasonic Detection of Titanium Alloys............[243-246]
    X-ray Stress Measurement of Titanium Casting Materials............[247-250]
    Formability of Newly Developed High-performance Titanium Alloys for Automotive Exhaust Systems............[251-254]
    Creep Properties of Near Alpha Titanium Alloys at Elevated Temperatures Higher than 600° C............[255-258]
    Description and Characterisation of Texture Heterogeneities in Titanium Alloy TIMETAL 834 with a Bimodal Microstructure............[259-262]
    Recrystallization during Alpha + Beta Processing of IMI834............[263-266]
    Microstructural Modeling of Cold Creep/Fatigue in Near Alpha Titanium Alloys Using Cellular Automata Method............[267-270]
    Inhomogeneous Strain Accumulation in a Model Near α Titanium Alloy............[271-274]
    Comparison of Isothermal and Thermomechanical Fatigue Behaviour of a High-temperature Titanium Alloy and a Third Generation TiAl Intermetallic............[275-278]
    Effect of Oxygen on Stress-Corrosion Cracking and Fatigue Crack Growth of Ti-6211............[279-282]
    The Effect of Precipitates on Mechanical Properties of Ti-6Al-4V Alloy............[283-286]
    Modeling Formation of α Sideplates in Alpha/Beta Ti-alloys - Effect of Interfacial Energy Anisotropy and Coherency Elastic Strain Energy............[287-290]
    Prediction of Precipitate Morphology by the FEM Analysis Based on the 3D-NCS Model in BCC/HCP System............[291-294]
    The Effect of Primary and Secondary Alpha Morphology on the Cold Creep Response of β-Processed Ti-6-2-4-2............[295-298]
    Effect of Severe Deformation on the Indentation of Titanium............[299-302]
    The Response of Ti-6Al-4V to One-dimensional Shock Loading: Variations of Shear Strength with Stress Amplitude and Orientation............[303-306]
    Deformation Characteristics of Individual Alpha and Beta Phase Compositions in Timetal 6-4............[307-310]
    Dislocation Density Based Constitutive Model for Ti-6Al-4V at Low Strain Rates............[311-314]
    A Hot Deformation Model for Two-phase Titanium Alloys Based on an Internal State-variable Approach............[315-318]
    Modelling of Hot Deformation Behavior of Equiaxed Ti-6Al-4V ELI, in Two Phase (α + β) Region, Using Neural Networks............[319-322]
    Modeling of the Effect of a Plastic Deformation in the β Phase Field on the Further Precipitation of α Phase on Cooling............[323-326]
    Microstrucutural and Mechanical Evaluation under Elevated Temperature Condition of Ti-64 Linear Friction Joints............[327-330]
    Influence of Post Weld Heat Treatment on Mechanical Properties of 5V Alloy............[331-334]
    The Role of Twinning on the Room Temperature Creep Behavior of Titanium Alloys............[335-338]
    Straightly-aligned Dislocation Arrays in h.c.p. Metals after Ambient Temperature Creep............[339-342]
    Fatigue Crack Initiation Behavior at Cryogenic Temperatures in Ti-5%Al-2.5%Sn ELI Alloy............[343-346]
    Superplasticity in Ti-3Al-5V Alloy............[347-350]
    Superplastic Behavior of Ti-6Al-4V Alloy after Dynamic Globularization............[351-354]
    Study on Microstructures and Superplastic Properties of a Submicrocrystalline Structure Titanium Alloy............[355-358]
    Analysis of Slip and Crack Initiation Processes Activated by Fatigue in a α/β Titanium Alloy in Relation with Local Crystallographic Orientation............[359-362]
    Evolution of Lattice Strain in Ti-6Al-4V During Tensile Loading at Room Temperature............[363-366]
    Residual Stress-induced Subsurface Fatigue Crack Nucleation in Titanium Alloys............[367-370]
    Influence of Microstructure on Periodic Overload Effects in Ti-6Al-4V............[371-374]
    Microstructural and Mean Stress Effects in Fatigue Performance of Shot Peened Ti-6Al-4V............[375-378]
    Statistical Evaluation of the Fatigue Life of Fine-grained Ti6242............[379-382]
    Effects of Supra- and Subtransus Heat Treatments on Fatigue Performance of Ti-6Al-4V............[383-386]
    Crack Growth, Microstructure and Texture in Ti-6Al-4V............[387-390]
    Microstructures and Mechanical Properties of Extruded and Cast Ti-6Al-4V............[391-394]
    Study on Microstructure Refinement for Ti-6Al-4V Alloy Bar by Huge-deformation and Three-dimensional Compression Rolling............[395-398]
    Heat Treatment Behavior of Ti-Cr Binary System Alloys............[399-402]
    Studies and Researches Concerning the Structure and Properties of Some Titanium-Aluminium-Molibden Alloys............[403-405]
    Influence of Lanthanum Addition on the α-β Transformation Kinetics in the Ti6Al4V Alloy............[407-410]
    Characteristic of Microstructure and Properties of Cold Deformed and Annealed Titanium Alloy of Ti-6Al-2Zr-2V-1.5Mo............[411-414]
    Investigation on the Anisotropy and the Hardening Behaviour of a Titanium Alloy............[415-418]
    Microstructure and Mechanical Property of HRS Processed Pure Titanium and Ti-6Al-4V Alloy Powder Compacts............[419-422]
    Texture Characteristics of Pack Ply-rolling Ti-6Al-4V Alloy Sheets and Its Mechanical Properties............[423-425]
    Titanium Alloys Design on Machinability and Forgeability............[427-430]
    Study on Fatigue Crack Growth Behavior of TC4-DT Alloy of Damage Tolerance............[431-433]
    The Mechanical Properties of TC21 Alloy Developed by Different Thermal Mechanical Processing............[435-438]
    Transformation in Two-phase Titanium Alloy at Shock Loading............[439-422]
    Element Partitioning Behavior in Commercial β Titanium Alloys............[443-446]
    Precipitation of Fine Beta-phase in High Nitrogen Titanium Alloy............[447-450]
    Characterization of the Nanophase Precipitations from Beta Metastable Titanium Based Alloys............[451-454]
    Alpha-phase Structure Observed in a Needle Shape Omega-phase Precipitate Formed by a Two-step Aging Method in a Beta-Type Ti-Mo Alloy............[455-458]
    Effect of Microstructural Evolutions on Hardness in a Metastable β Ti Alloy............[459-462]
    Experimental Evidence for the Displacive Growth of Bainitic α Plates in β Ti Alloys............[463-466]
    Study of Microstructure Evolution of Grain Boundary α Phase during β to α Transformation in Timetal 21S Alloy............[467-470]
    Phase Transformations in Ti-5Al-5Mo-5V-3Cr-0.5Fe............[471-474]
    Three-dimensional Characterization and Mesoscale Mechanical Modeling of a Beta Titanium Alloy............[475-478]
    Phase Kinetics Modelling of Titanium Alloys Undergoing Plasticity Induced Transformation............[479-482]
    Properties of Amorphous/Nanocrystallline TiNi Shape Memory Alloys Produced by Plastic Deformation............[483-486]
    Ballistic Evaluation of Titanium Alloys against Handgun Ammunition............[487-490]
    Study of Transformations and Microstructural Modifications in Ti-LCB and Ti-555 Alloys Using Differential Scanning Calorimetry............[491-494]
    Comparison of the Microstructure and Mechanical Properties of the Metastable Beta Titanium Alloys Ti-LCB and Ti-555............[495-498]
    Heat Treatment, Microstructure, and Properties of TIMETAL 555............[499-502]
    Thermomechanical Processing of TIMETAL 555............[503-506]
    Inverse Modeling of Nanoindentation Tests to Identify Ti-555 Behavior............[507-510]
    Flow Behaviour and Microstructure during Hot Deformation of Ti-5Al-5Mo-5V-3Cr-1Zr............[511-514]
    Low-Cycle Fatigue Behaviour of Metastable β-Titanium Alloy TIMETALR? LCB: Mechanical and Microstructural Aspects............[515-518]
    The Effect of Yield Stress Level on the Mechanical Properties of Ti-6246............[519-522]
    Mechanical and Texture Evaluations of Ti 6246 as a Dwell Fatigue Tolerant Alloy............[523-526]
    Variant Selection and Texture Studies in Ti-6246............[527-530]
    Damping Behavior of Quenched Ti-6Al-25n-4Zr-6Mo Alloy during Phase Transformation............[531-534]
    Effect of Alloying Elements on Hot Deformation of Duplex Titanium Alloys............[535-538]
    Anelastic Behavior of Ti-8mass%Mo Alloy by Pre-deformation............[539-542]
    The Effects of Deformation Mechanism on Plastic Behavior of β-type Ti-Mo Alloys............[543-546]
    Mechanical Properties and Microstructure of Ti-20V-4Al-1Sn Produced by α +β Processing............[547-550]
    Effect of Cold Working and Annealing on the Mechanical and Physical Properties of Ti-20V-4Al-1Sn............[551-554]
    Influence of Hot-rolling and Aging on Mechanical Properties and Fatigue Strength of Ti-20V-4Al-1Sn Alloy555............[555-558]
    Work Hardening of Ti-20V-4Al-1Sn............[559-562]
    In Situ Characterization of the Transformation Sequences of Ti17 Alloy by High Energy X-ray Diffraction: Influence of the Thermal Path............[563-566]
    High Temperature Deformation of SP-700............[567-570]
    Effect of Cooling Rate on Superelasticity of Ti-10V-2Fe-3Al Alloys............[571-574]
    Ductility Optimization through Plasticity Induced Martensitic Transformation in Ti-10V-2Fe-3Al and Ti-5Al-2Sn-4Zr-4Mo-2Cr-lFe Alloys............[575-578]
    Investigation of Adiabatic Shear Bands of Ti-B19 Titanium Alloy............[579-582]
    Aging Response of a New Metastable Beta Titanium Alloy............[583-586]
    Fabrication of Fine-grained β-Type Titanium Alloy through Mechanical Alloying Treatment............[587-590]
    Mechanical Properties of Ti-13mass%Cr-1mass%Fe-3mass%Al Alloy as Vanadium and Molybdenum Free Beta Titanium Alloys............[591-594]
    Local Deformation of Ti Alloys and Ti Matrix Composites............[595-598]
    The Potential for Achieving Enhanced Mechanical Performance in TiC Particulate Reinforced Ti-6Al-6V-2Sn Powder Metallurgy Composites............[599-602]
    Fabrication of Ti2AlC/TiAl Composites by MA and SPS............[603-606]
    Study on Microstructure and Mechanics Properties of TiAl/TC-4 Composite Sheet............[607-610]
    Mechanical Properties of (TiB + TiC) Hybrid Titanium Matrix Composites............[611-614]
    The Relationship of TiCp/Titanium Based Composites Creep Mechanism and Microstructur............[615-617]
    Ideal Deformation in Gum Meta............[619-622]
    Mechanical Properties and Phase Stability Dependence of Ti-Nb-Ta-Zr-O Alloys............[623-626]
    Elastic Deformation Behavior of Single-crystal Gum Meta............[627-630]
    Deformation of Ti-36Nb-2Ta-3Zr-0.30 (Gum Metal............[631-634]
    Special Deformation Mechanisms in Gum Meta............[635-638]
    The Deformation of Gum Metal in Nanoindentatio............[639-642]
    Formation of Gamma-massive Microstructure in a TiAl-based Alloy............[643-646]
    Severe Plastic Deformation Applied to a Model Lamellar Ti52Al48 Allo............[647-650]
    Deformation Studies of (α2+ γ) TiAl Alloy Using In-situ High Energy X-ray Diffractio............[651-654]
    Control of Misfit Dislocations on Gamma/Alpha2 Boundaries by Alloy Addition to Lamellar TiAl Allo............[655-658]
    A Novel in-situ Composite Structure in TiAl Alloy............[659-662]
    Processing of TiAl Alloys by Spark Plasma Sinterin............[663-666]
    Mechanical Properties and Formability of Ultrafine Grained γ-TiAl Based Ti-47Al and Ti-45Al-2Cr-2Nb-1B-0.5Ta (at%) Alloys Produced by a PM Rout............[667-670]
    Thermophysical Properties of Titanium Aluminides............[671-674]
    Effects of Strain Rate on Tensile Properties of Cr Doped Gamma TiAl............[675-678]
    Axial-torsional Thermo-mechanical Fatigue of Ti-45Al-5Nb-0.2B-0.2C............[679-682]
    Micromechanical Modeling of Near-gamma Titanium Aluminide............[683-684]
    Influence of C and Nb Concentrations on the High Temperature Deformation Behaviour of Nb-rich Gamma-TiAl Alloys............[685-688]
    Performance of Ti(Al,O)-Al2O3 Composite Coatings in Molten Aluminiu............[689-692]
    Processing Microstructure and Property of an Orthorhombic Ti-22Al-25Nb Alloy............[693-696]
    The Effect of Boron on the Elevated-temperature Creep Behavior of Cast Ti-6Al-4V(wt.%............[697-700]
    B2 Grain Refinement of W-modified Ti2AlNb Base Allo............[701-704]
    Compositional Modification and Property Evaluation of Orthorhombic Ti2AlNb-based Alloys............[705-708]
    A New Free Machining Titanium Alloy Containing Lanthanum............[709-712]
    Processing and Properties of Timetal 54M............[713-716]
    Processing and Characterization of Rapidly Quenched Ti-Based Amorphous/Nanoquasicrystalline Composites............[717-720]
    Change of Mechanical Properties with β-phase Stability in High Zr-containing Ti-based Alloys............[721-724]
    Formation of Ti2FeSn Compound and Phase Equilibria at the Ti-Fe Side of Ti-Fe-Sn Ternary System............[725-728]
    Effect of Mo Addition on FeTi Formation in Ti-Al-Fe Based Titanium Alloys ............[729-732]
    Structure and Deformation Behavior of High Strength Hypereutectic Ti-Based Alloys............[733-736]
    An Overview of Titanium Alloys Modified with Boron............[737-740]
    Fine-grained Titanium by Inclusion-assisted Microstructure Control ............[741-744]
    Mechanical Behavior of B Modified Ti-6Al-4V Alloys ............[745-748]
    Chemical Homogeneity, Structure, and Properties of Titanium Alloys Produced by Electron-Beam Single-Melting (EBSM)............[749-752]
    Microstructure Property Comparison of Beta Titanium Alloys Produced by the Single Melt and Direct Rolling Process............[753-756]
    Production of Titanium Components from Hydrogenated Titanium Powder: Optimization of Parameters ............[757-760]
    The Equal Channel Angular Processing of Two Ti-10wt%Mg Powder Feedstocks ............[761-764]
    Effect of fl-Stability on Diffusion of Hydrogen in β-Titanium Alloys............[765-768]
    Improvement of the Fatigue Properties of Metastable β-Titanium Alloys by Using Hydrogen as a Temporary Alloying Element............[769-772]
    Hydrogen Absorption Behaviors of Titanium in High Pressure Gaseous Hydrogen............[773-776]
    Metallographic Structures and Hydrogenation Properties of Ti4Ni2Ox Hydrogen Storage Materials............[777-780]
    Development and Application of Microstructure and Mechanical Property Models for Titanium Alloys ............[781-784]
    Titanium Metallography Using Heat Tinting............[785-788]
    Study on Interface Reaction and Phase Composition of Titanium Aluminum Alloys Investment Casting ............[789-792]
    Residual Stress Measurement of Titanium Casting Alloy by Neutron Diffraction............[793-796]
    Structural-Phase Transformation in Metal of Steam Turbine Blade of Titanium Alloy after Impact by Steam Particles............[797-800]
    High Temperature Shape Memory Behavior in Ti-Ta Alloys ............[801-804]
    Annealing Effect on Martensitic Transformations of Severely Cold-rolled Ti50Ni40Cu10 Shape Memory Alloy............[805-808]
    New Titanium Alloys Designed and Developed by NIN............[809-812]
    Effects of Alloying Elements on Ti-V-Cr Burn-resistant Titanium Alloy's Mechanical Properties............[813-816]
    Research on Microstructure and Properties of Ti-26 Titanium Alloy after Large Deformation............[817-820]
    Hot Deformation Behavior and Constitutive Equation of Titanium Alloy Ti600............[821-824]
    Research on Creep Property at the Elevated Temperature of Ti-600 Alloy ............[825-828]
    Progress in Wrought Processing of Titanium............[855-859]
    FEM Simulation of Microstructure Evolution during Hot Forging Process of a Small-scale Titanium Alloy Wing-panel............[861-864]
    Application of Microstructure and Damage Models in the Primary Conversion of Ti-6-4............[865-868]
    A Numerical Study of the Influence of Stirring Parameters on Titanium Ingot Quality Using SOLAR V4.2.............[869-872]
    An Analysis of Microstructure in TIMETALR? 6-2-4-6 Billet Taking Process History into Account ............[873-876]
    Semisolid Forging of Titanium Alloy Making Use of Rapid Resistance Heating ............[877-880]
    Manufacturing Technologies for Ti-6246 Alloy Aero Engine Disc Forgings ............[881-884]
    Forgings from Ti-5Al-5V-5Mo-3Cr with Optimized Fracture Toughness ............[885-888]
    Integrated Computer-aided Design and Engineering during Manufacture of Ti Alloy Die Forging ............[889-892]
    Impact of Die Shape, Arrangement and Conditions of Drawing and Upsetting on Non-uniformity of Temperature Distribution and Accumulated Deformaiton in Titanium Alloys Semi-finished Products ............[893-896]
    State-of-the-art Processes of Titanium Tube and Hollow Die-forging Manufacture by Russian and CIS Companies............[897-900]
    Grain Growth Behavior of Commercially Pure Titanium............[901-904]
    Characteristic Features of Hot Deformation of Two-phase Titanium Alloys............[905-908]
    Hot Working of Ti-6Al-4V (ELI) with Lamellar Starting Microstructure: Processing Map and Microstructural Mechanisms............[909-912]
    Dynamic Recrystallization in Titanium Alloys during Hot Deformation............[913-919]
    The Profile of Microstructure and Properties of the Different Deformation for VT22 Alloy............[921-924]
    Development of Sharp Local a Microtextures during α/β Thermo-mechanical Processing of TIMETAL 834............[925-928]
    The Evolution of Lattice Strain in Ti-10V-2Fe-3Al during Tensile Loading at Room Temperature ............[929-932]
    Comparative Study of Different Low-Cost Beta Titanium Alloys Highly Strengthened Using Cold Deformation and Rapid Recrystallization Approach............[933-936]
    Grain Refinement by Means of Rapid Heating in Ti-2.5Cu and TIMETAL LCB............[937-940]
    Discussion on the Texture Voids in Wrought Material of Deformed Titanium Alloy Ti-5Al-2.5Sn ............[941-944]
    Characterisation of Texture and Microtexture Heterogeneities in a Timetal?834 Billet............[945-948]
    Investigating Microstructural Evolution in the Near Alpha Titanium Alloy Timetal? 834 using Electron Back Scatter Diffraction (EBSD) ............[949-952]
    Crystallographic Texture and the Definition of Effective Structural Unit Size in Titanium Products............[953-956]
    Processing and Properties of Uniform Fine Grain Ti 6-4 Billet ............[957-960]
    Phase Field Modeling of the Growth and Dissolution of the α Phase in Near-β Titanium Alloys ............[961-964]
    Stability of Ti-5Al-5Mo-2Cr-1Ni (Corona-X)............[965-968]
    Anisothermal Alpha Phase Precipitation in Ti-3Al-8V-6Cr-4Zr-4Mo (Ti-38644)............[969-972]
    The Influence of Heating Rate on Phase Transformation Kinetics and Microstructures Evolutions at Aging in Metastable Beta Titanium Alloy--Ti-B19 ............[973-976]
    Production of Plates and Sheets from As-Cast Ti-6Al-4V via Boron Modification............[977-980]
    Development of a New α+ β Type Titanium Alloy for Cold Strip ............[981-984]
    Cold Formability and Rolling Ability of New Alpha + Beta Titanium Alloy for Cold Strip............[985-988]
    Near Conventional Forging of Titanium Aluminides............[989-992]
    Microstructure Homogeneity of Wrought TiAl............[993-996]
    Production of Gas Atomized Ti Alloy Powder by Levitation Melting Furnace with Electro Magnetic Nozzle............[997-1000]
    Microstructures and Mechanical Properties of Gum Metal Sheets Correlated with Cold Rolling Reduction ............[1001-1004]
    Comparing the Hot Working Behaviour of High Strength Beta Alloys Ti-5Al-5Mo-5V-3Cr with That of Ti-10V-2Fe-3Al ............[1005-1008]
    Microstructural Transformation of β-solution Treated and Forged Ti-6Al-4V Alloy during Superplastic Deformation ............[1009-1012]
    Comparative Study of Forming Ti-TWBs under Single and Multi-stage Forming Process at Elevated Temperatures ............[1013-1016]
    Optimization of Hot Workability and Control of Microstructure During Hot Deformation of Ti53311S Alloys ............[1017-1020]
    Sheet Rolling and Performance Evaluation of Beta Gamma (β-γ) Alloys ............[1021-1024]
    Recycling Technology of Titanium Scrap by ESR Process ............[1025-1028]
    The 40 Years of Baoji Titanium ............[1029-1032]
    Recrystallization Kinetics of Ti-Ta Alloy ............[1033-1036]
    The Distribution Character of Ta Element in Ti-Ta Alloy Ingot ............[1037-1040]
    Numerical Simulation of Hot Push-expanding Forming on High Strength Titanium Alloy Ring Pipe ............[1041-1044]
    Study of Large Area, Thick Ti/Steel Plate Explosion Cladding Technology ............[1045-1048]
    Recent Development in Component Manufacturing Technology of Titanium and Titanium Alloy in Japan ............[1051-1058]
    Casting and Properties of Al-rich Ti-Al Alloys ............[1059-1062]
    Influence of the Reinforcement Particles on the Cutting Behaviour of Titanium MMC............[1063-1066]
    Recent Developments in Titanium Powder Metallurgy ............[1067-1070]
    Development of Porous Materials Made from High-quality Spherical Titanium Powder ............[1071-1074]
    Fabrication of Ti Coatings by an Improved Atmospheric Spray Process ............[1075-1078]
    Development of High Lubricity Titanium Sheet with Excellent Press Formability ............[1079-1082]
    Application and First Results of a Titanium-based System Consisting of an Alloy and a Surface Layer for High Temperatures e.g. Exhaust Systems ............[1083-1086]
    Ultrasonic Testing of Titanium Welded Tubing ............[1087-1090]
    Modelling and Experimental Calibration of Electron Beam Welded Ti-6Al-4V ............[1091-1094]
    Stationary Shoulder Friction Stir Welding of Ti-6Al-4V: Process and Evaluation ............[1095-1098]
    Micro-incremental Forming of Ti Foils by Indentation Method ............[1099-1102]
    High Temperature Forming of Ti-6Al-4V Alloy Considering Microstructure Evolution ............[1103-1106]
    Ridging Phenomenon during Cold Rolling in Ti-15V-3Cr-3Sn-3Al Sheet ............[1107-1110]
    Development of High Strength MWCNT Reinforced Titanium Alloy Matrix Composites ............[1111-1114]
    Infrared Brazing Ti-6Al-4V and 17-4PH Stainless Steel with Barrier Layers ............[1115-1118]
    Infrared Brazing High Strength Titanium Alloys Using the Ti-20Zr-20Cu-20Ni Foil ............[1119-1122]
    Electroplating on Titanium ............[1123-1124]
    Net Shape Hot Isostatic Pressing and Metal Injection Moulding of Ti Powders ............[1127-1133]
    Effect of Oxygen on Mechanical Properties of Metal Injection Molded Titanium and Titanium Alloy ............[1135-1136]
    New Production Method by Gas-atomization Process of Titanium Alloy Powder ............[1137-1140]
    Economical Sintering of Titanium Powder ............[1141-1144]
    Development of Ultra-fine Microstructure by Rapid Hot-compaction of Armstrong-process Titanium Powder ............[1145-1148]
    Processing of Titanium Powder Made by the Armstrong Process ............[1149-1152]
    Effect of Nb on Pore Structure and Permeability of Ti-48Al Cellular Alloy ............[1153-1156]
    The Effect of Some Process Variables on Defects in Titanium Aluminide Castings ............[1157-1160]
    Alpha-case Controlled Titanium Alloys Casting ............[1161-1164]
    Near Net Shape of Porous Titanium Scaffolds Using 3D Fiber Deposition ............[1165-1168]
    Superplastic Behavior of In Situ Synthesized (TiB + TiC)/Ti Matrix Composite ............[1169-1172]
    The Action of Isothermal Processing Routes on Relieving Distortion of TC11 Titanium Alloy Blade Airfoil ............[1173-1176]
    Three Dimensional FE Simulation of Ring Rolling Process for Jet Engine Fan Case ............[1177-1180]
    Research on Powder Metallurgy of Titanium Alloy ............[1181-1184]
    Effect of Mixed Powders on the Properties of Ti-6Al-7Nb Alloy by Metal Injection Molding ............[1185-1188]
    Economic Net-shape Forming of Ti and Ti Alloy Biomaterial by Investment Casting ............[1189-1192]
    Progress of Near Net-shape Techniques for Titanium Alloy ............[1193-1196]
    Advances in Thin-walled Welded Tube Manufacture from Titanium Alloys ............[1197-1199]
    Development of a Microstructure Model for Metal Deposition of Titanium Alloy Ti-6Al-4V ............[1201-1204]
    Current Research Situation of Corrosion, Oxidation and Surface Modification of Titanium Alloys ............[1207-1212]
    Development of a New Corrosion Resistant Titanium Alloy for the Chemical Process Industry ............[1213-1216]
    Stress Corrosion Resistance of Grade 23 and 29 Titanium Riser Pipe in Aqueous Glycol Drill Fluids ............[1217-1220]
    Effects of Mechanical Stress on Corrosion Resistance of Metallic Biomaterials ............[1221-1224]
    A Mechanism of Interior-originating Fatigue of Ti-6Al-4V Based on Crack Growth Behavior in a High Vacuum ............[1225-1228]
    Detection of Hydrogen Evolution during Tensile Deformation of a Ti-Ni alloy Affected by Hydrogen Embrittlement ............[1229-1232]
    Improvement of the High Temperature Oxidation Resistance of γ-TiAl by means of Si-based Coatings ............[1233-1236]
    Effect of Molybdenium on the Crevice Corrosion for Titanium Alloys ............[1237-1240]
    Considering Environmental and Mean Stress Effects in Understanding the Fatigue Performance of Shot Peened Titanium Alloys ............[1241-1244]
    Effect of Isothermal Aging after Beta Quenching on the General Corrosion Properties in Ni/Fe Added Titanium Alloys ............[1245-1248]
    Anodic Polarization Behavior of Titanium and Titanium-nickel Electrode in Ionic Liquid ............[1249-1252]
    Recent Titanium Developments and Applications in the Aerospace Industry ............[1255-1262]
    Properties and Microstructures of Ti-555 (Ti-5Al-5Mo-5V-3Cr-0.6Fe) for Fasteners ............[1263-1266]
    Skull Melting, an Alternatve Melting Process for the Production of Ti 6Al-4V Aerospace Plates ............[1267-1270]
    A Three-dimensional Steady State Thermal Fluid Model of the Ingot Casting Process Associated with Electron Beam Melting of Ti-6Al-4V ............[1271-1274]
    Hot Stretch Forming of Titanium 6Al-4V Alloy Extrusions ............[1275-1278]
    Computational Modeling of the Vacuum Arc Remelting (VAR) Process Used for the Production of Ingots of Titanium Alloys ............[1279-1282]
    Friction Welding of Near Net Shape Preforms in Ti-6Al-4V ............[1283-1286]
    Superplastic Sheet Forming Aircraft Parts from Ti-alloys ............[1287-1289]
    Machinability of Near Beta Titanium Alloys Employed in Aeronautics ............[1291-1294]
    α to β Transformations in the Ti-10V-2Fe-3Al Alloy. Characterization and Mechanical and Microstructural Characteristics ............[1295-1298]
    Issues and Progress in Manufacturing of Turbo-engines Titanium Parts ............[1301-1308]
    Close Die Forging of Ti 6246 Engine Disks............[1309-1312]
    Titanium for High Strength Aerospace Forgings ............[1313-1316]
    Designing TiAl Alloys to Transform Massively during Slow Cooling ............[1317-1320]
    Effect of Carbon on Phase Equilibria between a and y Phases in Ti-Al-Nb System ............[1321-1324]
    Influence of Processing on Matrix Microstructure and Properties of Titanium Matrix Composites ............[1325-1328]
    Compression Strength of Titanium Matrix Composites Depending on Fibre Volume Content, Fibre Orientation and Temperature ............[1329-1332]
    Torsion Fatigue in Near Alpha and Alpha-beta Titanium Alloys ............[1333-1336]
    Designing for Variability in Fatigue Performance ............[1337-1340]
    The Use of Modeling and Experiment to Understand "Dwell Fatigue" in Ti Alloys ............[1341-1344]
    Effect of Prestrain on Ambient and High Temperature Creep in Ti834 ............[1345-1348]
    Titanium Alloys for High Temperature Applications ............[1349-1352]
    Improvement of Fretting-Wear Behaviour of Titanium Alloy by Surface Toughening Treatments ............[1353-1356]
    Creep-fatigue Interaction Mechanisms in a Near-alpha Titanium Alloy at Room Temperature ............[1357-1360]
    Characterization of Refractory Titanium Alloys Welded by TIG and Laser Processes ............[1361-1364]
    Microstructural Evolution of TC11 Titanium Alloy during Thermomechanical Processing ............[1365-1368]
    Status on Titanium and Titanium Alloys in Automotive Applications ............[1371-1378]
    Recent Titanium Applications for Motorcycles ............[1379-1382]
    Recent Development of Titanium and Its Alloys in Automotive and Motorcycle Applications ............[1383-1386]
    Development of a High Temperature Oxidation-resistant Titanium Alloy for Exhaust Systems of Motorcycles and Automobiles ............[1387-1390]
    Development of High-formability Titanium Alloys for Automotive Exhaust Systems ............[1391-1394]
    Development of Cold Forging Technology for Beta-titanium ............[1395-1398]
    Casting and Modeling of Titanium Aluminides for Automotive ............[1399-1402]
    Properties of TIMETAL Exhaust XT Developed for Automotive/ Motorcycle Exhaust Applications ............[1403-1406]
    Improvement of Mechanical Properties in Ti-64 Castings ............[1407-1410]
    Progress on Titanium Spring ............[1411-1414]
    Titanium Alloys for Biomedical, Dental and Healthcare Applications ............[1417-1424]
    Investigation on Process, Microstructure and Mechanical Properties of the Newly Developed Near β Type Biomedical Titanium Alloy TLM ............[1425-1428]
    Development of Ti-Mg Alloys Resistant to an Aqueous Fluoride Solution ............[1429-1432]
    The Effect of Tin Addition on the Phase Constitution and Heat Treatment Behavior in Ti-7mass%Cr Alloy for Biomedical and Healthcare Applications ............[1433-1436]
    Crystal Growth and Plastic Deformation Behavior of Ti-29Nb-13Ta-4.6Zr Bcc-based Single Crystal ............[1437-1439]
    Evaluation of Ti-29Nb-13Ta-4.6Zr as New Spinal Implants ............[1441-1444]
    Effect of Bcc-phase Stability on Cyclic Deformation Behavior in Beta-type Ti-Nb-Ta-Zr Alloys Single Crystals with Different Nb Content ............[1445-1447]
    Texture and Elastic Anisotropy of Ti-Nb-Zr-Ta-O Gum Metal ............[1449-1450]
    Deformation and Recrystallization Textures of Ti-18Zr-15Nb Alloy ............[1451-1452]
    Effect of N Addition on Mechanical Properties of Ti-20Nb-4Zr-2Ta (at%) Biomedical Superelastic Alloy ............[1453-1454]
    Effect of Nb and 0 Contents on the Mechanical Properties of Ti-Nb-O Alloys ............[1455-1456]
    Interfacial Defects at β/a" Interface in Ti-Nb Shape Memory Alloys ............[1457-1460]
    Wear Resistance and Mechanical Properties of Biomedical β-type Ti-Nb-Ta-Zr System Alloy Subjected to Gas Nitriding Process ............[1461-1464]
    Friction Wear Patterns of Dental Restorative β-type Titanium Alloy ............[1465-1468]
    Plastic Deformation of Titanium for Implantation of Hydroxyapatite Granules ............[1469-1472]
    Apatite Formation on Ti-29Nb-13Ta-4.6Zr Alloy Coated with a Calcium Phosphate Glass-ceramic ............[1473-1476]
    In Vivo and in Vitro Evaluations of Calcium Phosphate Films Coated on Titanium by RF Magnetron Sputtering ............[1477-1480]
    Immobilization of Poly (Ethylen Glycol) to Titanium Surface ............[1481-1484]
    Mechanical Properties of Porous fl-Ti Alloy Compacts for Biomedical Applications ............[1485-1488]
    Mechanical Properties of Ti-Cr System Alloys Prepared by Powder Metallurgy ............[1489-1492]
    Mechanical Properties of Porous Titanium Alloy Fabricated by Powder Sintering for Medical Use ............[1493-1496]
    Development of Fabrication Process of Porous Titanium and Polymethylmethacrylate (PMMA) Composite Biomaterial ............[1497-1500]
    Developments of Dental Precision Casting Technology for Biomedical β-type Ti-29Nb-13Ta-4.6Zr Alloy ............[1501-1504]
    Fatigue Properties of Titanium Wires for Medical Applications ............[1505-1508]
    Microstructural Evolution of β-TiNb(Sn) Orthopaedic Alloys during High Energy Mechanical Milling and Consolidation ............[1509-1512]
    Superelasticity in Ti-Nb Base Alloys ............[1513-1516]
    Mechanical Properties of Ti-Nb Shape Memory Alloys Containing 3d Transition Metal Elements (V, Cr, Mn, Fe, Co, Ni and Cu) ............[1517-1520]
    Internal Twin and Defect of α"-Martensite in Ti-Nb-Al Shape Memory Alloy ............[1521-1524]
    Effect of In Addition on Shape Memory Characteristics of Ti-Nb Alloys ............[1525-1528]
    Microstructure of Ti-24Nb-3Al Melt-spun Ribbon ............[1529-1532]
    Synthesis, Microstructure and Cytocompatibility of New Beta Titanium Alloys for Biomedical Applications ............[1533-1536]
    Animal Experiments on Bone Tissue Reaction to a Low Rigidity Titanium Alloy of Ti-29Nb-13Ta-4.6Zr ............[1537-1540]
    Phase Transformation Behavior of Ni-rich and Reclaimed NiTi Shape Memory Alloy Prepared by Vacuum Arc Remelting ............[1541-1543]
    Preparation and Characterization of TiNi Shape Memory Alloy Foams by Powder Metallurgy ............[1545-1548]
    Surface Modification of Medical Ni-Ti Alloys through Forming TiO2 Thin Film ............[1549-1552]
    Corrosion Resistance and Biocompatibility of Ti-Ni Alloy Modified by Isothermal Oxidation ............[1553-1556]
    Corrosion Behavior of Laser-fabricated Hydroxyapatite Coating on Titanium Alloy for Biomedical Applications ............[1557-1560]
    Electrolytic Treatment to Form Nickel-free Surface Oxide Layer on Super-elastic Ti-Ni Alloy ............[1561-1562]
    A Novel Fabrication Technique for Titanium Dental Implant and its Evaluation ............[1563-1566]
    Evaluation of Cast Ti-Al-Fe Alloys for Dental Prostheses ............[1567-1570]
    Development of Titanium Alloy for Mouthpiece of Brass Instrument and Its Precision Casting Process ............[1571-1574]
    Photocatalyst Development at Sumitomo Titanium ............[1575-1578]
    Recent Civil Applications and Supporting Technologies ............[1581-1587]
    Three Case Studies for the Architectural and Structural Use of Titanium: Abu Dhabi Airport, Tianjin Titanium Towers, Titanium Gridshells ............[1589-1593]
    The Anti-corrosive Reinforcement Method for Heavy Duty Coatings by Titanium Foils ............[1595-1598]
    Titanium Covering Method for Corrosion Protection of Concrete Structures in Sewerage Facilities ............[1599-1602]
    Titanium Alloy for Golf Club Head ............[1603-1606]
    Ti-Nb-Sn and Ti-V-Sn Alloys with Low Young's Modulus and High Strength ............[1607-1610]
    The Art of Refraction and Reflection-A History of the Early Evolution of the Use of Titanium in Jewellery Dedicated to the Memory of Professor Harvey Flower ............[1611-1614]
    Titanium - Key to Ocean Depth ............[1617-1624]
    Update and Trends in Titanium Alloy Riser Applications and Technology ............[1625-1628]
    Processing and Properties of Heavy Section Ti 6-4 ELI Billet ............[1629-1632]
    The Development of Hollow Forged Ti 6-4 ELI Rounds ............[1633-1636]
    Misalignment Effect on Fatigue Strength of CP Titanium Butt-welded Joints ............[1637-1640]
    Microstructures and Mechanical Properties of Ultrafine Grained Ti-47Al-2Cr (a%) Alloy Produced by Hot Isostatic Pressing of Powders ............[1641-1644]
    Cost Competitive Welding of Titanium for Sea Water Piping for Navy Vassels ............[1645-1648]
    Nitride Strengthened Titanium via Deposition Processing ............[1651-1654]
    Stress Gradient at the αs/β Interface in a Ti-6Al-4V Alloy ............[1655-1658]
    Effect of Hybrid Surface Modification Composed with Plasma Carburizing and FPB Treatment on Fatigue Strength of Ti-6Al-4V Alloy ............[1659-1662]
    Characterization of Surface Modified Ti6Al4V Alloy by Combination of Plasma-carburizing and Cold-rolling ............[1663-1666]
    Near-surface Characteristics and Fatigue Behavior of Laser Shock Peened Titanium Alloy Timetal LCB ............[1667-1670]
    Effect of Attachment of Silica Nanoparticles on Coordination of Titanium Surface Species of Titania ............[1671-1674]
    Fabrication of Titanium by High Performance Nano Adhesive for Aerospace Applications ............[1675-1678]
    Development of Titanium Alloy Separator for Polymer Electrolyte Fuel Cell ............[1679-1682]
    Titanium Coating on Iron and Steels by Disproportionation Reaction in Molten Salt ............[1683-1686]
    Development of Colored Titanium Sheets with Highly Resistant to Discoloration in Atmospheric Environments ............[1687-1690]
    Effect of Carbon Content on Interface Separation Phenomenon in Ti-Al/Fe-C Joints ............[1691-1694]
    Formation of a Protective Alumina Layer by Fluorine Doping of Titanium Aluminide Surfaces ............[1695-1698]
    Comparative Flourine Surface Treatments for TiAl Oxidation Protection ............[1699-1702]
    Influence of Mechanical Surface Treatments on the High Cycle Fatigue Performance of Gamma Titanium Aluminides ............[1703-1706]
    Tensile Deformation Behaviour of the Titanium Alloy with Hard Elastic Coating ............[1707-1710]
    Fatigue Behavior and Residual Stress Relaxation of Laser-shock Peened and Deep Rolled Ti-6Al-4V ............[1711-1714]
    Effect of Laser Carbonizing on Microstructure and Wear Properties of Ti-6Al-4V Titanium Alloy ............[1715-1718]
    Material Transfer and Diffusion in Peening Process on Ti-6Al-4V Alloy ............[1719-1722]
    The Effect of Friction Stir Processing on the Microstructure and Properties of Investment Cast Ti-6Al-4V ............[1723-1726]
    Surface Modification Technology of Titanium, 'Fresh Green' Durability and Photocatalytic Activity of Carbon-doped Titanium Dioxide Surface ............[1727-1730]
    Gas Nitriding of Biocompatible Beta Titanium Alloys ............[1731-1734]
    Influence of Laser Treatment on Microstructure of Surface Layer of the Ti-6Al-4V Alloy ............[1735-1738]
    Assessment of Bioactivity of Zirconium and Titanium-zirconium Alloy ............[1739-1742]
    Ti-2007 Science and Technology
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