Insert title here
  • 版权:钛锆铪工业网
  • 陕ICP备05006818号-2
  • 地址:陕西省西安市未央路96号 邮编:710016
  • 电话:029-86224484 邮箱:xxstip@c-nin.com
    • 发布时间:2017-02-06   来源:有色金属战略平台  点击量:1657
    文集名称Titanium '95 Science and Technology
    国别英国类别世界钛会论文集
    出版单位CRC Press
    出版日期1996-05-01载文量368
    简介该文集为第八届世界钛会的会议论文集,会议于1995年10月22—26日在英国伯明翰International Convention Centre举行。

    本文集文章列表
    Recent Developments in the Production, Application and Research of Titanium Alloys in the UK............[1-10]
    Recent Development of the Titanium Industry and Research in France............[11-20]
    The Present Situation ofthe Titanium Industry in Japan............[21-30]
    Research and Fabrication and Development ofTitanium in the CIS............[31-40]
    R&D and Applications Developments in the Titanium Industry in the USA............[41-50]
    A Review of Titanium Developments in Germany............[51-59]
    Present Situation and Development of China's Titanium Industry............[60-69]
    Titanium Intermetallics - Present and Future............[70-79]
    Analysis of Substitution Site of Ternary Additions in TiAl and Ti3Al Intermetallic Compounds............[80-87]
    Investment Casting of Near-net Shape Gamma Titanium Aluminide Low Pressure Turbine Blades............[88-96]
    Valves of Intermetallic γ-TiAl-Based Alloys: Processing and Properties............[97-104]
    TiAl-Based Ingot Conversion via Isothermal Forging............[105-112]
    Reliability Issues Affecting the Implementation of Gamma Titanium Aluminides in Turbine Engine Applications............[113-120]
    Atom Probe Analysis of Ti-48Al-2Cr-2Nb Alloy............[121-128]
    The Nature of the Interaction between Interstitial Solute and Dislocations in TiAl............[129-136]
    Analysis of the Twin Interactions in Co3Ti and TiAl............[137-143]
    Micromechanisms of Fracture in Partially Lamellar Ti-48Al............[144-151]
    Phase Transformation in Gamma Titanium Aluminides in Presence of Hydrogen............[152-159]
    Texture and Microstructure Evolution of a Two-Phase ylal Titanium Aluminide with the Temperature of the Thermal and/or Thermomechanical Treatments............[160-167]
    Microstructure and Properties of Near-y Alloys Based on Ti-47AI-2Nb-2Cr-lMo............[168-175]
    Time-Temperature-Transformation Behaviour of Complex Gamma Alloys............[176-183]
    Effects of Processing Variables on the Creep Behavior of Ti-48Al-2Nb-2Cr Castings............[184-191]
    Effect of aluminum and Heat Treatment on the Mechanical Properties of Cast Ti-48Al-2Cr-2Nb............[192-200]
    Production, Microstructure and Properties of an Extruded Near Gamma Titanium Aluminide Alloy............[201-208]
    Phase Transformations in Mechanically Alloyed Ti-Al-Ta Powders............[209-216]
    Effect of Processing on Properties of Rolled Gamma Titanium Aluminide Sheet Made from Powder Metallurgy Plate............[217-224]
    Effects of Casting Conditions on Microstructure of Permanent Mold and Investment Cast Ti-47Al-2Nb-2Cr............[225-232]
    Grain Refinement of Gamma-based Titanium Aluminides............[233-238]
    Structural Superplasticity in a Micro Duplex γ-TiAl/α2-Ti3Al Alloy............[239-247]
    Single Point turning of Gamma Titanium Aluminide Intermetallic............[248-255]
    Elevated Temperature Low Cycle Fatigue Behaviour of a Near-γ Titanium Aluminide............[256-263]
    Microstructure of Mechanically alloyed Ti-Al Powders and Their α->γ Massive Transformation During Consolidation............[264-271]
    High Strength and Ductility of Nanoscaled Intermetallic TiAl............[272-277]
    Environmental Infuence of Fatigue Crack Propagation in TiAl-based Alloys............[278-285]
    Mechanisms of Ambient and Elevated Temperature Fatigue Crack Growth in Ti-46.5Al-3Nb-2Cr-0.2W............[286-293]
    Phase Equilibria among α, α2, β and γ Phases in Ternary Ti-Al-X Systems at Elevated Temperatures............[294-301]
    Fracture Characteristics and Slip Behaviors related to Microstructures in Ti-24Al-llNb (at.%)............[302-309]
    The Relationship between Phase and Fracture in Ti3Al Base alloys............[310-315]
    High Temperature Discontinuous Yielding in P-phase Ti3Al-(Nb, V, Mo) Alloys............[316-323]
    Texture Development in a Ti3Al-Based Alloy by Thermomechanical Processing and Its Influence on Young's Modulus............[324-331]
    Influence of Microstructure, Texture and Environment on Tensile Properties of Super Alpha 2............[332-339]
    Fracture and Fatigue Crack growth in a Ti3Al Based Aluminide at Ambient and Elevated Temperatures............[340-347]
    Influence of Composition on Creep of Alpha-Two Ti3Al Polycrystals............[348-355]
    Superplastic deformation behaviour of Ti3Al-based Alloys............[356-363]
    The Effect of Microstructure and Composition on the Creep Behaviour of O Phase Titanium Aluminide Alloys............[364-371]
    Phase Equilibria in Ti-Al-Nb Orthorhombic Alloys............[372-379]
    Deformation Modes in the Orthorhombic Phase of a Ti2AlNb Alloy: an In-Situ Study at Room Temperature............[380-387]
    On the Very High Room-Temperature Ductility Obtained in B2 and/or O-Base Titanium Aluminides............[388-395]
    Effects of Environment on the Tensile and Creep Behavior of a Low-Oxygen Orthorhombic-Based Titanium Aluminide, Ti-22Al-23Nb............[396-403]
    Microstructures and Mechanical properties of Blended Elemental Powder Metallurgy Ti2AlNb Intermetallics............[404-410]
    Mechanism of Oxidation of Gamma TiAl Based Alloys............[411-418]
    The Interfacial Bonding Strength and Fracture Features in TiAl Matrix Metal Fiber Composite............[419-423]
    Linear Friction Welding of Ti-48Al-2Cr-2Nb (at.%) Titanium Aluminide............[424-431]
    FE Modelling and Subscale Isothermal Forging of Ti3Al-Nb Alloy............[432-439]
    Phase Transformations on Synthesis of Titanium Aluminides from TiH2 and Al Powders............[440-447]
    Microstructure and Properties of Ti3Al-Base Alloys............[448-454]
    Features of the Solidified Microstructure of PREP TiAl Base Alloy Powder............[455-461]
    Effect of β-anneaIing on the β-grain size of Ti3Al Base Alloy............[462-466]
    Effect of cooling rate on the Microstructure of PREP Ti3Al Base Alloy Powder............[467-472]
    Laser Surface Modification of Titanium Aluminide Alloys............[473-480]
    On the Flow Stress Anomaly Observed around 400°C in Two-Phase TiAl-Based Alloys............[481-488]
    Segregation Patterns in a Plasma-Arc Melted Gamma-Based Titanium Aluminide............[489-496]
    Investigation of Surface and Sub-Surface Damage of γ-Titanium Aluminide after Creep Feed Grinding............[497-503]
    Synthesis of Fine Grained Gamma Titanium Aluminide by Mechanical Alloying............[504-511]
    Gamma Phase Transformation in Nearly Equiatomic TiAl Base Alloys............[512-519]
    The Effect of Prestrain on the Primary Creep Behavior of Cast γ-TiAl............[520-526]
    Continuous Carbon Fibre Reinforced γ-TiAl Matrix............[527-533]
    High Temperature Phase Stability of TiB2 Reinforced (γ+α2) Ti-48Al-2Nb-2(Cr, Mn)............[534-541]
    Hot Isostatic Pressing/Microstructure/Property Relationships in a Powder Metallurgy γ TiAl Alloy............[542-549]
    The Study of Microsegregation in a TiAl-based Alloy Produced via the Ingot Route and via Powder-Processing............[550-557]
    Effect of Microstructure on Room and Elevated Temperature Tensile Poperties of Forged Ti-25Al-10Nb-3V-lMo (Super α2)............[558-565]
    Thermomechanical Processing of γ-TiAl Using Ingot and Powder Based Material............[566-573]
    A Preliminary Investigation into Microstructure-Property Relationships in a PM TiAl Alloy............[574-580]
    Mechanical Properties of the Intermetallic Compounds Al3(Til-xMx)............[581-587]
    Superplasticity and Post-SPF Properties of SP-700............[588-595]
    Advanced Superplastic Titanium Alloys............[596-603]
    Diffusion Bonding of a Superplastic Near-Alpha Titanium Alloy............[604-611]
    Development ofLow-Cost, Short Lead-Time Sattelite Propellant Tanks Using Ti 15-3-3-3............[612-619]
    Linear Friction Bonding of Titanium Alloys for Aero-Engine Applications............[620-627]
    The Role of Computer Modelling in the development of Large Scale Primary Forging of Titanium Alloys............[628-635]
    The Design, Production and Metallurgy ofAdvanced, Very Large Titanium Aerospace Forgings............[636-643]
    Precision Closed Die Forging of Titanium for Aeronautical Applications............[644-650]
    Control of Large Diametre Ti-6-4 Billet Microstructures through Modelling of the Forging Process............[651-658]
    Determination of Experimental and Modelized Flow Field for a Titanium Alloy During Cold Rolling............[659-666]
    Simulation of Thermal Effects During Hot Extrusion of TiAI6V4 with respect to their Influence upon Microstructure............[667-674]
    Properties and Processing of a High Strength Beta Titanium Alloy............[675-682]
    Hot Compressive Behaviour of Ti-17 Alloy............[683-690]
    Permanent Mold Casting of Titanium Aerospace and Automotive Hardware............[691-701]
    Cast Titanium Preforms for Forging............[702-708]
    Influence of Heat Treatment on Microstructure and Mechanical Properties of Cast IMI834............[709-716]
    Effects of Weld Repair on the Fatigue Performance of Ti-15-3 Castings............[717-723]
    Development of Titanium Alloy Investment Casting............[724-731]
    Advanced Rolling Technology for Titanium Foil with Ceramic Rolls............[732-738]
    Titanium Foils Cold Rolled from Direct Cast Strip............[739-746]
    Developments of Rolled Titanium Clad Steel Plates............[747-754]
    Production of Seamless Ti-6Al-4V Tubing............[755-762]
    An Analysis of Tool Wear Mechanisms in High Speed Cylindrical turning of Titanium Alloys............[763-769]
    Manufacture of Disk and Blade Forgings from BT 22 Alloy for Aircraft Engine Fans............[770-773]
    Manufacture ofBillets and Bars with Regulated Structure and Mechanical Properties for Aircraft Engine disks and Blades Forgings and Other Critical Parts............[774-777]
    Manufacture of Large Die Forgings for Wide-Body Aircraft Landing Gear and Airframe Parts in VT 22 and VT 6 Alloys............[778-781]
    Machinohydrogen Treatment of Titanium Alloys............[782-789]
    The Grinding of a Ti-6Al-4V Alloy under High Coolant Pressure............[790-797]
    Structure and Properties of Inertia Welded Assemblies ofTi Based Alloy Disks............[798-804]
    Deformation Inhomogeneities in Isothermal Upset Forging of IMI685 Titanium Alloy............[805-812]
    Influence of Deformation and Heat Treatment Regimes on Value and Distribution of Residual Stresses in Forgings from Titanium Alloys............[813-819]
    Development of High-Accuracy Capillary of Titanium............[820-824]
    Evaluation of Test Methods for Strength of Bonding Interface in Titanium Clad Steel............[825-832]
    Dislocation Creep Controlled Superplasticity at High Strain Rates in the Ultrafine Grained Quasi-Eutectoid Ti-10Co-4Al Alloy............[833-840]
    Enhanced Hot Workability of Titanium Alloys by Use of Plasma Sprayed Coatings............[841-847]
    Production of Uniquely-Shaped Precision Forgings with Specified Structure out of Titanium Alloys............[848-855]
    Effects of Hot Deformation on the Texture Transformation of TA6V............[856-863]
    Comparison of the P-CEZ and Ti-64 Superplastic Properties............[864-871]
    Superplastic Deformation of α/β Titanium Alloys Containing Electron Beam Welds............[872-879]
    Treatment of Weldment Constructions for Titanium Alloys by Hydrogen Technology............[880-886]
    High Temperature Stress Relaxation of a Ti-6Al-4V Alloy............[887-894]
    Improvement of the Properties of (α+β) Titanium Castings by Modifications of the Lamellar Structure............[895-902]
    Plastic Deformation in Deep Drawing of Titanium Sheet............[903-908]
    Superplastic Deformation in the Biomedical Titanium Alloy Ti-6Al-7Nb (IMI367)............[909-916]
    Microstructure/Texture/Low Temperatures Fracture Toughness Relationships in the Ti-6246 Alloy............[917-924]
    Effects of Microstructure on the Fracture Behaviour of the α+β Titanium Alloy Ti-4Al-4Mo-2Sn-0.5Si wt.% (IMI 550)............[925-932]
    Strength/Toughness Properties of SP-700............[933-939]
    Toughness-Strength Trend in Alloys Derived from Ti-4.5Al-5Mo-l.5Cr............[940-947]
    Improvement of Strength and Fracture Toughness in Isothermally Forged Ti-10V-2Fe-3Al............[948-955]
    Deformation Mechanisms and Mechanical Properties in α, α+β and β Titanium Alloys: A Review............[956-963]
    An Analysis of the Elastic Property Anisotropy for the Ti-6Al-4V Two-Phase Rolled Alloy............[964-971]
    Deformation Mechanisms in a βm Alloy............[972-979]
    Work Hardening in Beta Titanium Alloys............[980-987]
    The Effect of Microstructure on Tensile Properties and Fracture Toughness of Ti-15-3 Alloy............[988-995]
    Improvement of the β-Cez Alloy Mechanical properties by Thermomechanical Treatments............[996-1003]
    Tensile Properties of Cold-Worked and High-Low Temperature Duplex-Aged Ti-15(V, Mo)-3Cr-3Sn-3Al Alloys............[1004-1010]
    Rate Dependent Deformation Response and Ductile Fracture of α-Titanium at Room Temperature............[1011-1018]
    Effect of Prior Deformation on Aging Response and Mechanical Properties of Ti-2.5Cu............[1019-1025]
    Effect of Hydrogen Content on the Deformation Behaviour of Titanium-Hydrogen Alloys............[1026-1033]
    Hydrogen Effect on the Mechanical Properties ofTi-6Al-4V EL Alloy at Low and Cryogenic Temperatures............[1034-1041]
    Mechanical Properties of the Near-Alpha Titanium Alloy TIMETAL1100 with Fine β-Grain Size............[1042-1049]
    Microstructure and Mechanical Properties of the Russian High-Temperature Alloy BT 25y............[1050-1057]
    Creep of IMI 834............[1058-1064]
    Mechanical Behaviour at Elevated Temperatures: Cycle and Time Dependent Effects............[1065-1074]
    Influence of Ni and Fe on the Creep of Beta Annealed Ti-6242S............[1075-1082]
    Creep Mechanisms in Ti-6246 Alloy at 773K............[1083-1090]
    Influence of Prior P Grain Size on the Creep Behaviour of βCEZ Alloy............[1091-1098]
    Effect of Heat Treatment on the Mechanical Properties of SP700 Sheet for Helicopter Structural Applications............[1099-1106]
    Some Characteristics of a Low Cycle Fatigue Behaviour for Alpha-Titanium Alloys............[1107-1115]
    Effect of Microstructure on Dwell fatigue Behavior of Ti-6242............[1116-1123]
    The Effect of Thermomechanical Processing on the Structure/Strength/Toughness Relationships in Silicon-Free Ti-6Al-2Sn-2Zr-2Cr-2Mo Sheet............[1124-1130]
    A Microstructural Study of Fatigue Failure in Titanium............[1131-1138]
    Fatigue Crack Initiation Site in Titanium Alloys at Cryogenic Temperatures............[1139-1146]
    Low Cycle Fatigue Behaviour of Ti-10V-2Fe-3Al............[1147-1154]
    Microstructure and Fatigue Processes Relationships in the Betacez Alloy at Room and Elevated Temperatures............[1155-1162]
    Influence of Cooling Rate and P Grain Size on the Tensile Properties of (α+β) Ti Alloys............[1163-1170]
    Optimization of Microstructure and Mechanical Properties of the Hot-Forged Titanium Alloy IMI 834 by Heat Treatment............[1171-1178]
    Creep-Fatigue Interaction and Life Behaviour of the Titanium Alloy IMI 834 at 600 °C............[1179-1186]
    HCF-Behavior of TIMETAL1100: Fully lamellar vs. Duplex Microstructures............[1187-1194]
    Effect of Loading Rate on the Elevated Temperature Fatigue Crack Growth Behaviour of a Near-α Titanium Alloy............[1195-1202]
    Microstructures/Properties Relationships in Ti-6.2.4.6 Alloy: AMicrostructural Approach of the Fatigue Damage............[1203-1210]
    Temperature-Environment Interactions of Fatigue Behaviour in Ti6246 Alloy............[1211-1218]
    On Corrosion-Fatigue, Ripple-Load, and Stress-Corrosion Cracking in TIMETAL 21s Beta Titanium Alloy............[1219-1226]
    The Effect of Aging and Forming on the fatigue Crack Growth Characteristics of β-21S at Ambient and Elevated Temperatures............[1227-1234]
    An Investigation on the High Temperature Deformation Strength-Toughening of Aluminium............[1235-1242]
    The Influence of Microstructure on the Tensile Properties of High Strength/High Toughness Ti-V-Fe-Al Alloys............[1243-1250]
    Microstructure and Fracture Properties of Annealed SP-700............[1251-1258]
    Deformation Modes of Ti-6Al-4V at Cryogenic Temperatures............[1259-1266]
    Two-DimensionalAE Location of Ti-6Al-4V Alloy in Delayed Cracking in Air............[1267-1271]
    Relationship between Mechanical properties, Microstructure and Processing Parameters in Ti-10V-2Fe-3Al Alloy under Isothermal Forging Conditions............[1272-1279]
    Microstructural Aspects in Elevated Temperature Fatigue of Timetal 1100............[1280-1287]
    The Influence of Cold Work on Mechanical Properties of High Strength Timetal LCB............[1288-1293]
    Effect of Aging on the Mechanical Properties of Beta Titanium Alloys of Ti-13V-llCr-3Al, Ti-15V-3Cr-3Sn-3Al and Ti-3Al-8V-6Cr-4Mo-4Zr............[1294-1301]
    Study on Tensile Properties and Tensile Characteristic Curves of Ti75 Alloy Commercial Plate at Room Temperature............[1302-1307]
    New Approach to Reliability Evaluation of Titanium Alloys with Stress Concentrators............[1308-1314]
    The Effect of Morphology and Alloying Elements on the Ambient Temperature Creep of Alpha and Alpha-Beta Titanium Alloys............[1315-1322]
    High Temperature Crack Fatigue Growth Behaviour of TIMETAL 21S in an Oxidising Environment............[1323-1330]
    The Characterisation of Fatigue Crack Closure in IMI 829............[1331-1338]
    Multiaxial Fatigue of Near Alpha Titanium Alloys............[1339-1346]
    A Model for Fatigue Crack Initiation in Titanium Alloys............[1347-1354]
    Fatigue Crack Initiation and Propagation under Major/Minor Cyclic Conditions in a Near Alpha Titanium Alloy............[1355-1362]
    Mechanical Properties of Duplex Microstructures in Ti-2.5Cu............[1363-1370]
    Influence of Thermomechanical Processing on the Mechanical Property Behaviour of Ti-10V-2Fe-3Al for Dynamically Critical Applications............[1371-1378]
    Continuous-Cooling Transformation Behavior of Ti-6Al-2Sn-2Zr-2Mo-2Cr-0.25Si: Applications to Welding............[1379-1386]
    High Strength Titanium Alloys for Large Discs and Blades of Ventilator and Low-Pressure Compressor of High Capacity Aviation Engines............[1387-1394]
    Effect of Microstructure and Test Temperature on Fatigue Properties of IMI 834............[1395-1402]
    Processing, Microstructure and Properties of β-CEZ............[1403-1410]
    Microstructure Factors in Fatigue Damage Process of Two-Phase Titanium Alloys............[1411-1418]
    Development of a Near-Alpha Alloy with Excellent Energy Related Toughness............[1419-1426]
    Titanium Sponge Production Technology............[1427-1437]
    Titanium Alloy Hearth Melt 'Only' Technology Development............[1438-1445]
    Hearth Melt Plus Vacuum Arc Remelt: Production Status............[1446-1453]
    The Formation and Removal of 'Hard-Alpha' Material During the Melting of Titanium Alloys............[1454-1461]
    Larger Scale Cold Crucible Melting of Titanium and its Alloys............[1462-1469]
    Applications for Plasma Arc Melting in Titanium processing............[1470-1477]
    Temperature sensing for Cold-Hearth Melting Processes............[1478-1485]
    A New Concept for Titanium Processing............[1486-1493]
    Advances in Titanium Plasma Cold Hearth Melting............[1494-1499]
    Evaluation of Ti-6Al-2Sn-2Zr-2Cr-2Mo-Si Modified Chemistry............[1500-1506]
    A Theoretical Study of the Influence of Process Parameters on the Macrosegregation in Vacuum Arc Remelted βCez Ingots............[1507-1512]
    Advanced ultrasonic Inspection Techniques for Titanium Billet Materials............[1513-1520]
    Multizone Sonic Testing of Titanium Billet............[1521-1526]
    Manufacture of Upgraded Quality Ingots and Billets............[1527-1534]
    The Vapour Phase Production of Titanium............[1535-1542]
    Temperature Measurement and Mathematical Modeling in the Vacuum Distillation Process............[1543-1550]
    Indigenous development of Technology for Large Scale Production of Titanium Sponge by the Combined Process Route and Magnesium by Fused Salt Electrolysis............[1551-1558]
    Optimization of Requirements for Titanium Sponge Quality............[1559-1563]
    Review of Russian Titanium Certification for Its Integration with the World Economy............[1564-1566]
    New Technologies for Materials on the Basis of Titanium............[1567-1569]
    Microscopic Study on the Residual Chlorine in Titanium Sponge............[1570-1576]
    Tendencies in Development of Magnesium-Reduction Method of Titanium Sponge Production in CIS Countries............[1577-1582]
    Chemical Analysis of Ti-6Al-4V Using Glow Discharge Spectroscopy............[1583-1590]
    Comprehensive modelling ofthe Hard-Alpha Defect Trajectory and Dissolution in the EBCHR Process............[1591-1598]
    Control of the Microstructure in Large Titanium Discs: Application to the High Pressure Compressor of the GE90 Aeroengine............[1599-1608]
    The Development and Evaluation of p Titanium Alloys forAerospace Applications............[1609-1616]
    Titanium Honeycomb Sandwich Structures for High Temperature Acoustic Aerospace Applications............[1617-1624]
    Ultra-High-Strength Bolts Made from Beta-C-Alloy Titanium............[1625-1637]
    High Temperature Titanium Sheet for Helicopter Exhaust Applications............[1638-1645]
    Dual-Structure Compressor Disk of Heat-Resistant Titanium Alloy............[1646-1653]
    Influence ofThermomechanical Processing on Mechanical Properties of Ti-1100 Compressor Disks............[1654-1661]
    Application Development of Titanium in Japan............[1662-1671]
    Reducing Cost ofTitanium and Zirconium Alloy Utilization in Chemical Process Equipment with Ti Roll-clad Plate............[1672-1679]
    Timetal? LCB: A Low Cost Beta Alloy for Automotive and Other Industrial Applications............[1680-1687]
    Terminal Ballistic Properties of Timetal? 62S............[1688-1695]
    The True Strength ofTitanium Fasteners - Designers Beware............[1696-1702]
    The Features of Titanium Alloys Application in Offshore Structures............[1703-1710]
    Titanium Components in Offshore Gas/Oil Environments............[1711-1718]
    High Strength Titanium Alloy Welded Pipe for Sour Service............[1719-1725]
    High Strength Titanium Alloys for Naval Fastener Applications............[1726-1733]
    Timetal? 21SRx - Technology Transfer of Timetal? 21S to Medical Device Applications............[1734-1741]
    15 Years' Experience with Ti-6Al-7Nb Alloy for Joint Replacements............[1742-1759]
    A New Low Modulus, Biocompatible Titanium Alloy............[1760-1767]
    Fatigue Characteristics of Ti-5Al-2.5Fe for Orthopedic Surgery in Simulated Body Environment............[1768-1775]
    New Titanium Alloys for Medical Implants............[1776-1783]
    Ti-6Al-4V Dental Implant Superstructures............[1784-1791]
    Modification of the Surface of Titaniumlmplants for an Improved Osseointegration............[1792-1799]
    Properties and Processing of a New Metastable Beta Titanium Alloy for Surgical Implant Applications: TIMETAL? 21SRx............[1800-1807]
    Development of Calcium Ion Implanted Titanium and Its Alloys for Medical and Dental Applications............[1808-1815]
    Titanium in Medicine, Food Industry and Ecology............[1816-1819]
    Titanium - First Choice for Desalination Plant Heat Exchangers............[1820-1827]
    In-vitro and In-vivo Study of Isoelastic Dental Implants............[1828-1835]
    Mass Production Methods for Titanium Automotive Components............[1836-1843]
    Performance of a High Strength Beta Titanium Alloy under Tensile Load with Cathodic Charging of Hydrogen............[1844-1851]
    Composites............[1852-1859]
    Developments inTitanium Alloy Environmental Behavior............[1860-1870]
    Corrosion Resistance and Mechanical properties of Ti-Ni-Pd-Ru-Cr Alloy............[1871-1878]
    Surface Treatment for Photocatalytic Interior Materials II - Photocatalytic Behaviors of Anodized Titanium and its Alloy............[1879-1885]
    Corrosion Performance of Titanium in Alkaline Hydrogen Peroxide Environments............[1886-1894]
    Atmosphere Influence on Fatigue Crack Propagation in TA6V Alloy up to 300°C............[1895-1902]
    Effect of Small Amplitude Cyclic Load Perturbations to the Sustained-Load Cracking of Titanium Alloys............[1903-1910]
    Survey of Crack Initiation Mechanisms in Hot Salt Stress Corrosion of Titanium alloys............[1911-1918]
    High Temperature Hot Corrosion Characteristics of Ti-6242Si Sheet and Honeycomb Core in Hostile Halide/SOx Chemical Environments............[1919-1926]
    Formation of Oxygen-Rich Layer during Oxidation in Air at P-Region in C. P. Titanium............[1927-1934]
    Oxygen Behaviour of Near-ot Titanium Alloys and Their Protection by Coatings............[1935-1942]
    The Effect of Oxidation Exposure on the Mechanical Properties of Timetal-1100 (Ti-6Al-2.75Sn-4Zr-0.4Mo-0.07O2-0.02Fe wt%)............[1943-1950]
    The Influence ofAlloy Composition on the Formation of Nitride on Titanium Alloys Heated in Air............[1951-1958]
    Hardness, Dendrite Population and Microstructure under Different Nitrogen Environments in the Laser Nitrided Ti-6Al-V Alloy............[1959-1966]
    On Erosion Shielding Employed Beta Titanium Alloy............[1967-1974]
    Comparative Evaluation of Treatments for Wear Protection of Ti6Al4V............[1975-1982]
    Ion-Nitriding Temperature Influence on Tribological Characteristics of Ti6Al4V Alloy............[1983-1990]
    Comparison ofDifferent Coatings to Improve the Ti-6AI-4VAlloy against Wear in Sea Water............[1991-1998]
    Surface Engineering of Titanium Alloy with Oxygen............[1999-2014]
    Improvement in Fatigue Resistance of Ti-6Al-4V and Ti 6246 Titanium Alloys by Dynamic Ion Mixed Thin Coatings............[2015-2022]
    Reactive Laser Cladding of Titanium Alloys with Wear-Resistant Aluminide-Ceramic Composites............[2023-2030]
    The Development of Wear Resistant Surfaces on CPTi and Ti-6Al-4V Alloys by Laser Nitriding............[2031-2038]
    Ion Implantation into Titanium Alloys for Application in Aircraft Building............[2039-2045]
    The Surface Preventing Methods for Fretting Fatigue of TC11 Titanium Alloy............[2046-2052]
    The Effects of Surface Oxidation on Thin Foils of Near-α Ti6242Si and Metastable-β TIMETAl21S: Microstructure and Tensile Property Comparison............[2053-2060]
    The Effect ofAdding Elements on Corrosion Resistance of Ti-Ta Alloy............[2061-2066]
    Effect of Heat Treatment on Hydrogen Absorption of a Titanium Alloy Containing Ni............[2067-2072]
    Electron Beam Surface Alloying of Ti6Al4V for Resistance to Contact Loading............[2073-2080]
    High Temperature Plasma Immersion Ion Implantation of Ti-6Al-4V Alloy............[2081-2088]
    Surface Treatment for Photocatalytic Interior-Finishing Materials I - Effects and Evaluation Method of Photocatalytic Activity of Ti02 Coating............[2089-2095]
    The Wear Resistance of Electrolytic Ni-P Plated Titanium and Its Alloys............[2096-2103]
    Gaseous Stabilized Interstitial Inclusions in Titanium Ingots and Products............[2104-2110]
    Oxidation Behaviour of Highly Beta Stabilised Titanium Alloys............[2111-2118]
    High Power Microwave Treatment of Titanium Alloy Details............[2119-2125]
    High Power ion Beam Treatment of Titanium Alloys............[2126-2135]
    Nitriding of Epitaxial Ti Thin Films by N-Implantation............[2136-2142]
    Characterization of Epitaxial Ti-Pd Bilayers Grown on NaCl Substrates............[2143-2150]
    Spontaneous Hydrogenation Mechanism of Ti Films............[2151-2158]
    On the Nitriding Behaviour of Titanium-Vanadium Alloys in Nitrogen at Temperatures between 1150°C and 1400°C............[2159-2166]
    Modelling of Phase equilibria in Ti-Alloys............[2167-2176]
    Beta Titanium Alloys............[2177-2194]
    Alloy Development............[2195-2204]
    A DTA Study of Phase Transitions in Bulk Titanium-Nitrogen Binary Alloys (Composition Range 23at.%-35at.%N)............[2205-2211]
    Microstructural Study in the Ternary System Ti-Zr-N: Evidence of a Miscibility Gap in the δ-Nitride Region............[2212-2219]
    Phase Equilibria and Transformations in the Ti-Zr-Si System............[2220-2227]
    Short-Range Order in Amorphous Alloys of the Ti-Zr-Si System............[2228-2235]
    Effect of Concentrational Inhomogeneities on α"-Martensite Parameters in Ti-8.0wt%Mo Alloy............[2236-2241]
    The Effect of Oxygen on Microstructure of α and α2 Phase in Titanium-Rich Ti-Al Alloys............[2242-2249]
    The Effect of Hot Working on the Transformation Microstructure of the Titanium Alloy Ti-17............[2250-2257]
    Development of High Performance Heat Resistant Near-Alpha Titanium Alloy Compressor Disk............[2258-2264]
    An Electron, Back-Scattered Diffraction Study of the Annealing Behaviour of Cold Rolled Titanium............[2265-2272]
    Effect of Al and Sn on Deformation Mode in Ti-V Based β Titanium Alloy System............[2273-2280]
    On the Interplay of Omega Formation and Chemical Ordering in Titanium Alloys............[2281-2288]
    Effects of the Fe Content and Addition of α Stabiliser on Phase Constitution and Athermal Ω Phase of Quenched Ti-Fe Alloys............[2289-2295]
    Precursive Transformation before Brittle Fracture in Aged Ti-Mo Alloy............[2296-2302]
    A Study about Formation of O-Phase Crystals in β-Titanium Alloys Using In-situ Electron Microscopy............[2303-2308]
    Development of High Performance, Low Alloy Ti-Fe-O-N Series............[2309-2316]
    The Development and Evaluation of β Titanium Alloys for Aerospace Applications............[2317-2324]
    Near Beta Ti-5Mo-5V-2Cr-3Al Alloy............[2325-2329]
    Calculation of Transformation Kinetics of Titanium Alloys during Continuous Cooling: Application to the β-Cez Alloy............[2330-2337]
    Microstructural Transformations in the β-CEZ Alloy............[2338-2344]
    β-Rich Microstructure Influence on the Deformation Mechanisms and Cold-Formability of the β-Cez Alloy............[2345-2352]
    Comparative Approach of Phase Transformations in Titanium Alloys Ti-6.2.4.6, β-CEZ and Ti-10.2.3 Using Dilatometric Analysis and Electrical Resistivity Analysis............[2353-2360]
    Study of Transformation Kinetics in Timetal-21S Titanium Alloy............[2361-2368]
    Composition-Structure-Property Relationships in Variations of the Ti-15-3 Alloy............[2369-2376]
    Isothermal Transformation of Precipitates in Alloy C+............[2377-2384]
    Solvus Temperatures of Various Phases in Alloy C+............[2385-2392]
    Study on Textures of Ni47Ti44Nb9 Shape Memory Alloy Sheet............[2393-2398]
    Grain Growth of NiTi Alloy and Its Influence on the Martensitic Transformation Temperatures and Thermodynamic Parameters............[2399-2406]
    Study on Microstructure and Transformation of a Ni-Ti-Ta Shape Memory Alloy............[2407-2412]
    On the Synergism of α2 and Silicides in Ti-6Al-2Sn-2Cr-2Zr-2Mo-Si............[2413-2420]
    Demands to Bimodal Structure with Optimal Combination of Mechanical Properties and Regimes for Its Development............[2421-2429]
    Heat-Resistant Titanium Alloys with Enhanced Heat Resistance, Thermal Stability............[2430-2437]
    The effect of Iron modification on the Superplastic Deformation Properties of the Titanium Alloy IMI 550 (Ti-4Mo-4Al-2Sn-0.5Si)............[2438-2445]
    The Nature and Role of Grain Boundaries during Grain Growth of Ti-6Al-4V in the β Phase Field............[2446-2453]
    Decomposition of α' Martensitic Plates of Ti-6Al-4V Alloy at Different Annealing Temperatures and Heat Treatment Times............[2454-2461]
    Thermohydrogen Treatment - the Base of Hydrogen Technology of Titanium Alloys............[2462-2469]
    The Influence of the Alloying by β-stabilizing Elements on the Titanium Electronic Structure............[2470-2477]
    Crystallographic Features of Modulated Structure on Titanium α"-Martensite Decomposition............[2478-2485]
    Effect of β Stabilizer Content on Low Temperature Aging Behavior of β Ti Alloys............[2486-2493]
    The Effect of Silicon Addition on the Microstructure and the Aging Behavior of Ti-3Al-8V-6Cr-4Mo-4Zr Alloy............[2494-2501]
    Structural Characterization of Ti-lAl-8V-xFe (x = 5, 8,10) Alloys............[2502-2508]
    Microstructural Features of the β-annealed Ti-1100 Alloy............[2509-2514]
    Decomposition Diagram and Heat Treatment Schedule of α-alloy of Titanium............[2515-2522]
    Some Peculiarities of Titanium-Based Amorphous Alloys Crystallization (Ti-Zr-Si, Ti-Zr-Hf-Si)............[2523-2530]
    Time Evolution of Small Angle Neutron Scattering Intensity from Crystallizing Titanium-Based Metallic Glasses............[2531-2538]
    Development of High-Performance Ti-Al-Fe Alloy Series............[2539-2546]
    Low Cost Process of Blended Elemental Powder Metallurgy............[2547-2554]
    Determination of High Temperature β-Textures of Hot-Rolled Ti-64 Products............[2555-2562]
    Effects of Solution and Cooling Rate on the Widmanstatten Morphologies in the Ti-6Al-4V Alloy............[2563-2570]
    Martensitic Transformations and Shape Memory Effect in Titanium Alloys............[2571-2578]
    Order-Disorder Transformation δ-TiNx—> δ'-TiNx: SRO and LRO Observations by TEM............[2579-2586]
    Resistometric and D.S.C. Study of the Microstructural Transformations of Titanium Alloys, mainly Ti-6Al-4V, during Heat Treatments............[2587-2594]
    Microstructural Morphology and Dislocation Arrangement in a Ti-Mo-Al Alloy............[2595-2601]
    Developmental Studies of the Spray-Reduction Process for Production of Titanium Powder............[2602-2609]
    Mechanism of Mechanical Alloying of β Ⅲ (Ti-ll.5Mo-6Zr-4.5Sn)............[2610-2617]
    Influence of Microstructure on the Fracture Processes of Powder-Process Blended Elemental Ti-10V-2Fe-3Al Alloys............[2618-2625]
    Control of Interstitial Contamination during Mechanical Alloying of Titanium Based Materials............[2626-2633]
    Numerical Modelling of Near-Net-Shape HIPping of Ti-6Al-4V Powder............[2634-2640]
    Spray Forming of Titanium Ring Preforms............[2641-2648]
    On the Spray forming of the Ti-6Al-4V Alloy............[2649-2656]
    Mechanical Alloying of Titanium-Magnesium Powders............[2657-2664]
    Titanium Based Microlaminates by High Rate PVD............[2665-2672]
    Microstructural Study of Titanium-Magnesium Alloys............[2673-2680]
    Evaporation Mechanism of Titanium Melted by Thermal Plasma............[2681-2687]
    Dehydrogenation of Hydride Titanium in Plasma............[2688-2691]
    Investigation of Processes ofSintering Titanium Powders Added with Refractory Compounds............[2692-2695]
    Diffusion ofAl in Ti-15at.%V Alloy............[2696-2703]
    The Research and Developmmment of TMCs............[2704-2713]
    Flow and Creep Behaviour of Ti/TiB In-Situ Composites............[2714-2721]
    P/M Titanium Matrix Composites: From War Games to Fun Games............[2722-2730]
    PVD Processing of Continuous Fibre-Reinforced Composites............[2731-2738]
    Processing of Fibre Reinforced Titanium Matrix Composites by Physical VapourDeposition............[2739-2746]
    A New Coating System for Continuous SiC Fiber for Use in Titanium Based Metal Matrix Composites............[2747-2754]
    Evaluation of a Discontinuously Reinforced Ti-6Al-4V Composite............[2755-2762]
    Sintering Behavior and Thermal Stability of a TiB Particle Reinforced PM Beta-Titanium Matrix Composite............[2763-2770]
    Characterization of Ti-6%Al-4%V/TiC Metal Matrix Composites Consolidated by Powder Metallurgy Processing............[2771-2778]
    Damage Assessment in a SiC Fibre Reinforced Ti Alloy by Acoustic Emission and Dynamic Mechanical Measurements............[2779-2786]
    Longitudinal-Creep Behavior of Three Titanium Alloy Matrix Composites............[2787-2794]
    High Temperature Mechanical Properties of In-Situ Processed Ti3Al/TiB Intermetallic Matrix Composites............[2795-2802]
    Effects of Fiber/Matrix Interfacial Degradation on High Temperature Fatigue Crack Growth in SCS-6/Timetal?21S Composite............[2803-2810]
    The Effect of Composition on the Elevated Temperature Mechanical Properties of Titanium Metal Matrix Composites............[2811-2818]
    Effects ofFibre Volume Fraction on Fatigue in Selectively Reinforced Ti-6Al-4V Alloy Matrix Composites............[2819-2826]
    Effect of Matrix Microstructure and Fibre-Matrix Interactions on the Fatigue Growth Response of Ti MMCs............[2827-2834]
    Characteristic Features ofthe MMCLayer Formed on Ti-6Al-4V (IMI318) Alloy Surfaces through Laser Treatment by Using SiC Powder Injection and Preplacement Techniques............[2835-2842]
    Influence of Thermomechanical Processing on the As-Consolidated Properties of Ti-6%Al-4%V/TiC MMCs............[2843-2850]
    Shear Punch Test for Strength and Ductility Measurements of Ti-6%Al-4%V/TiC Particulate Reinforced MMCs............[2851-2858]
    Hot Workability and Mechanical Properties of a TiB Particle Reinforced PM Beta-Titanium Matrix Composite............[2859-2866]
    Tensile Properties of Gas Atomised Ti6Al4V-TiC Composite............[2867-2873]
    Synthesis of Particulate Reinforced Titanium MMC by Mechanical Alloying............[2874-2881]
    Characterizing Titanium Matrices for Metal Matrix Composites: Experiments and Modelling............[2882-2889]
    Titanium '95 Science and Technology
    当前位置:首页 > 会议文集
    Insert title here

    登录

    登录
    输入用户名登录
    企业注册       个人注册       登录        联系我们       收藏本站       设为首页
    Insert title here