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    文集名称Sixth World Conference on Titanium
    国别法国类别世界钛会论文集
    出版单位Les Ulis, France : Editions de physique
    出版日期1988-01-01载文量312
    简介该文集为第六届世界钛会的会议论文集,会议于1988年6月6—9日在法国CANNES举行。

    本文集文章列表
    Recent advances in titanium processes, alloys and products............[1-10]
    New development in titanium-elaboration-sponge, melting and casting............[11-22]
    Thermomechanical processing of titanium alloys............[23-35]
    Designing with titanium............[37-48]
    New trends in titanium application............[49-56]
    Titanium and titanium alloys, biomaterials of preference............[57-70]
    Crack propagation in Ti-alloys............[71-80]
    Influence of composition and microstructure on damping capacity in some Ti-Mo based alloys............[81-86]
    Cryogenic properties of extra-low oxygen Ti-6Al-4V alloy............[87-92]
    The preference for slip in alpha-based titanium alloys............[93-98]
    Superdislocations in oxygen-rich alpha titanium alloy - an indicator of oxygen order............[99-104]
    Tensile properties and plastic deformation modes in β phase titanium alloys............[105-110]
    On the analysis of plastic flow in titanium............[111-115]
    Influence of strain rate on the substructure evolution and yield behavior of Ti-6Al-4V............[117-122]
    Crystallographic and morphological features of the imperfect structure evolution in plastically deformed alpha-titanium............[123-127]
    Analysis of plastic anisotropy in titanium sheets - microstructural considerations............[129-134]
    Evolution of textures and mechanical properties of titanium alloys according to doping............[135-140]
    Numerical analysis of necking phenomena in titanium alloys............[141-146]
    Microstructure and mechanical properties of investment cast Beta-C titanium............[147-152]
    The influence of ageing temperature on the mechanical properties of IMI 834............[153-158]
    The effect of microstructure on the fatigue crack propagation near the threshold of three titanium alloys............[159-162]
    Mechanical behaviour of a forged and a HIP'ed TA6V4 alloy in the phase transformation α+β?β temperature range............[163-168]
    Effect of texture on the dwell fatigue properties of a near-alpha titanium alloy............[169-173]
    Creep fatigue interactions in titanium alloys............[175-180]
    Effect of yield stress and environment on fatigue crack propagation of aged Ti-10V-2Fe-3Al............[181-186]
    Creep behavior of Ti-6242 : the effect of microstructure and silicon content............[187-192]
    Investigation of the influence of creep deformation at 550 ℃ on mechanical properties of TiA19-base alloys ............[193-198]
    Effect of minor alloying additions on creep behavior of Ti3Al+Nb............[199-204]
    The effect of cold rolling and heat treatment conditions on microstructures and mechanical properties of Ti-15V-3Al-3Sn-3Cr alloy............[205-209]
    The properties and microstructures of Ti-5Al-2Mo-3Zr alloy............[211-216]
    Toughness of hydrogen charged typical (α+β)type titanium alloys............[217-222]
    Hydrogen embrittlement behavior of structure controlled Ti-6Al4V alloy............[223-228]
    Crack propagation behaviour of titanium alloys for compressor disks............[229-233]
    Mechanical twinning-in polycrystalline titanium in relation to the applied stress tensor............[235-239]
    Variable amplitude fatigue crack growth in Ti-4Al-4Mo-2Sn-0.5Si (IMI 550)............[241-246]
    Tensile properties of Ti-6Al-2Sn-4Zr-2Mo sheet after superplastic deformation............[247-251]
    Development and evaluation of high temperature titanium alloy IMI 834............[253-258]
    Microstructural influence on low cycle fatigue strength of IMI 550............[259-264]
    Multiple regression analysis of the effects of various alloying elements on the properties of titanium alloys............[265-268]
    Influence of peak pressure on the substructure evolution and shock wave profiles of Ti-6Al-4V............[269-274]
    Mechanical properties and age hardening behavior of electron beam welded zone in Ti-15V-3Cr-3Sn-3Al alloys............[275-280]
    Mechanism of tensile deformation and fracture in a titanium alloy TC11............[281-286]
    Thermo-mechanical processing of titanium IMI 834............[287-292]
    The influence of elevated temperature on the mechanical behavior of α/β titanium alloys............[293-298]
    Superplastic behaviour of PM Ti-6Al-4V alloy investigated by tension, torsion and compression tests............[299-304]
    The validity of fracture toughness measurements in titanium alloys............[305-312]
    Negative temperature dependence of electrical resistivity in Ti-Mo binary alloys............[313-318]
    Low-cycle fatigue in a Ti6Al4V alloy with equiaxed or acicular structure............[319-324]
    Interdiffusion dans les solutions solides Ti-Hf en phase β cubique centree............[325-330]
    Fatigue crack growth in titanium and its alloys: the effect of oxygen content, environment and R-ratio............[331-337]
    Effects of oxygen on phase composition and strength of Ti-6Al-4V alloy............[339-343]
    Propagation of small fatigue cracks in Ti alloys............[345-350]
    Effect of texture and tensile ductility on fracture toughness of Ti-6Al-4V............[351-356]
    The influence of microstructure on the creep and room temperature tensile properties of Ti 5331S............[357-364]
    Titanium alloys use in turbojet engines............[365-379]
    Nonaerospace applications of titanium............[381-390]
    Principal problems of titanium alloys application in ship equipment............[391-398]
    S.P.F-D.B. applications for military aircraft............[399-404]
    Beta titanium wire for surgical implant uses............[405-410]
    Surface treatments of TA5Fe alloy and HDPE polymer to improve friction compatibility for medical devices............[411-416]
    Long time behaviour of Ti-5Al-l.5B as a medical implant material............[417-420]
    Use of titanium in petroleum refining............[421-429]
    Application of titanium linings in flue gas desulfurization systems............[431-436]
    Condenser retrofit with seawelded titanium tubes in Loviisa NPS, Finland............[437-442]
    The use of Beta-Ctm titanium for downhole production casing in geothermal wells............[443-448]
    New process for manufacturing titanium alloy pipes............[449-454]
    High strength titanium forgings for aerospace applications............[455-460]
    Diffusion bonding of SPF/DB turbofan fan blades............[461-466]
    Influence of microstructure of IMI 834 on mechanical properties relevant to jet engines............[467-472]
    The manufacture of welded and welded-and-drawn pure titanium tubes with thin and extra-thin walls............[473-475]
    The development of high pressure proof vessel for 10 km submarine exploration............[477-482]
    Super titanium blades for advanced steam turbines............[483-488]
    Analysis of two kinds of corrosion troubles in welded titanium materials in chemical plants............[489-494]
    Process on the porous titanium coating............[495-498]
    Hydroxyapatite coating on titanium surface............[499-503]
    Bonding of titanium to hydroxyapatite............[505-509]
    Development of 40 inch long titanium alloy blade for steam turbines............[511-516]
    Titanium's contribution to the world's deepest offshore system............[517-520]
    Titanium applications - a critical review............[521-529]
    Ten years operation of 23-inch titanium alloy blade and its investigation............[531-534]
    Titanium alloys for surgical implants - biocompatibility from physicochemical principles............[535-540]
    An application of the titanium-alumina system for prosthetic dentistry............[541-544]
    The biocompatibility, mechanical and electronchemical properties of Ti-15-3 alloy............[545-550]
    In vitro and in vivo modeling of the biocompatibility of titanium............[551-556]
    Vacuum-melting and vacuum-casting of parts for medical application Ti using non-consuable electrode............[557-564]
    Critical review: raw materials............[565-572]
    Plasma consolidation of large diameter titanium electrodes for single stick var ingot manufacturing............[573-578]
    Utilization of electron beam melting in the production of defect free Ti-6Al-4V ingots............[579-582]
    Cold crucible induction melting of titanium............[583-586]
    Recent developments in plasma melting and refining of titanium............[587-592]
    Defect removal mechanisms in hearth melted Ti-6Al-4V............[593-595]
    High power plasma melting of titanium............[597-602]
    The melting of titanium and its alloys............[603-608]
    Dissolution of tungsten carbide particles during vacuum arc melting of titanium base alloys............[609-614]
    Recent developments in electron beam hearth refining............[615-619]
    Manufacturing of automotive engine valves by plasma package melting of titanium scraps............[621-626]
    HDI's in turnings, the only concern?............[627-629]
    Production of high quality titanium alloy ingots in large-sized advanced var furnace............[631-636]
    The control of the solidifying segregation of Ti-2.5Cu alloy............[637-641]
    Recent developments in titanium investment casting technology and applications............[643-648]
    Numerical simulation of the alpha case as a quality criterion for the investment casting of small, thin-walled titanium parts............[649-654]
    Casting of high strength beta titanium alloys............[655-660]
    Liquid argon quenching (LArQ) of prep generated titanium alloy molten metal particles............[661-665]
    Novel porous titanium............[667-672]
    The relationship of chlorine level/microstructure/mechanical properties for blended elemental P/M Ti-6Al-4V compacts............[673-678]
    Calcium fluorotitanate-induction-slag furnace route to titanium metal............[679-684]
    Upgrading titaniferrous materials by DC arc smelting and processing of products in a plasma heated fluidized bed reactor............[685-695]
    Dissolution du nitrure de titane dans le titane liquide et dans le TA6V4............[697-699]
    Preparation of Ti powders by the calcium vapor reduction of TiO2 and the electron-beam melting............[701-706]
    Melting and precision casting of pure titanium using calcia............[707-713]
    Investigation of the dissolution of a MoAl-masteralloy in titanium melts............[715-720]
    Titanium minerals in Thailand............[721-726]
    Study on the structure of titanium sponge and condensate produced by magnesium thermal reduction method............[727-731]
    Production of titanium alloy powders by secondary atomisation............[733-738]
    Direct cast titanium alloy strip............[739-743]
    A new generation of vacuum arc skull melters............[745-746]
    Titanium alloy powders produced by calciothermic reduction............[747-752]
    A newly designed plant for the electrowinning of titanium from molten salts............[753-760]
    Optimization of non destructive soundess welded titanium condenser tubing............[761-765]
    Non-destructive examination for titanium tubed condenser............[767-772]
    The influence of phases and microstructures on ultrasonic detection of titanium alloys............[773-778]
    Spectral interferences in high purity titanium............[779-784]
    Present status of analytical procedures for titanium(an overview)............[785-788]
    Acoustic emissions as a means of monitoring fatigue phenomena in Ti-6Al-4V implant alloy............[789-794]
    Rapid identification of titanium and its alloys by portable spectroscope............[795-798]
    Engineered titanium-base structural materials............[801-810]
    β-CEZ, a high performance titanium alloy for aerospace engines............[811-818]
    Strengthening mechanism of ultra-high strength achieved by new processing in Ti-15%V-3%Cr-3%Sn-3%Al alloy............[819-824]
    Ti-1100: a new high temperature titanium alloy............[825-830]
    Control of β-grain size and shape by yttria or other particles in a powder metallurgy processed Ti-6Al-4V alloy............[831-836]
    Microstructure and phase investigation in a rapidly solidified Ti-25V-2Er-0.02B alloy............[837-842]
    The effect of Er additions to melt spun Ti-V-Cr alloys............[843-847]
    The effect of yttrium, erbium and boron additions on the microstructure and mechanical properties of Ti-l5V-3Cr-3Sn-3Al alloy............[849-854]
    Dispersion strengthened titanium alloys through mechanical alloying............[855-860]
    Microstructural development and high temperature mechanical characterization of a dispersoid-containing titanium alloy............[861-866]
    Investigation on phase transitions and electric resistance memory in Ti-Ni-Fe alloy............[867-870]
    Microstructure and properties of NiTi shape memory alloys produced by meltspinning............[871-876]
    Shape memory effect of Ti-Mo-Al alloys............[877-882]
    Structural state, crystallization, physico-mechanical properties of TiCu-TiNi alloys produced by melt spinning............[883-887]
    Phase transformation and internal friction behavior in Ti-Ni and Ti-Ni-Al alloys............[889-894]
    Processes to produce Ti-Al alloy powders by calcium co-reduction from the oxide............[895-900]
    Titanium production by the electrolysis of fused salts............[901-906]
    Fundamental studies of titanium-based metal matrix composites............[907-912]
    Development of rapidly solidified titanium matrix composites............[913-917]
    A method to evaluate the bonding between fibre and matrix in Ti-base composite............[919-923]
    Amorphous phase formation in the system Ti-Ni-Cu by mechanical alloying............[925-930]
    Development of the titanium-magnesium alloy system through mechanical alloying............[931-936]
    Morphology of alpha phase in rapidly solidified and wrought Ti-6Al-4V alloy during isothermal annealing............[937-942]
    Site substitution behaviour in Ti3Al (D019) and Ti2AlNb (B2) intermetallics............[943-948]
    The plastic deformation of polycrystalline Ti3Al deformed at room temperature, 300 ℃ and 650 ℃............[949-954]
    Deformation in alpha-2 titanium alloy............[955-960]
    Properties of Ti3Al+Nb alloys produced via rapid solidification technology............[961-966]
    Mechanical properties and microstructure of alloyed Ti3Al after rapid solidifipation and hot isostatic pressing............[967-972]
    Characterization of rapidly solidified Ti3Al alloyed with Cu, Ni, Si and Nb............[973-978]
    The effect of dispersion-modification on the mechanical properties of Ti3Al-based alloys............[979-984]
    Phase relationships in the Ti3Al+Nb system............[985-990]
    Titanium aluminide alloys for aerospace applications............[991-996]
    Titanium intermetallics development through mechanical alloying............[997-1002]
    Mechanical properties and oxidation behaviour of samples produced by hot isostatic pressing of powder mixtures of TiAl36 and of cp-titanium............[1003-1008]
    Effect of temporary alloying with hydrogen on the compactability and microstructure of titanium aluminide powders............[1009-1014]
    Oxidation of titanium aluminides............[1015-1019]
    Mechanical properties and microstructures of powder metallurgy and ingot metallurgy intermetallic TiAl alloys............[1021-1026]
    Plastic deformation behaviour of rapidly solidified Ti-Y alloys below 700 ℃............[1027-1032]
    Porus titanium compacts prepared from Ti-Ni composite powders............[1033-1038]
    Effect of hydrogen on the shape memory properties of Ti-Ni alloy............[1039-1044]
    Effect of heat treatments on the structure of multifilamentary Ti-36.8% at % Nb superconductors and conductors............[1045-1050]
    Thermal stability of rapidly solidified Ti-Cu alloys containing Al, Zr, and Sn additions............[1051-1056]
    Microstructural study of Ti-based TiC metal matrix composites............[1057-1062]
    Experience in the production of TiNi shape memory alloy............[1063-1068]
    Shape recovery and phase transformation behavior in Ti-Mo-Al-Sn-Zr alloys............[1069-1074]
    Microstructure and mechanical properties of dispersion strengthened Ti-Fe-(Al), Ti-Ni-(Al) and Ti-Co-(Al) alloys............[1075-1080]
    The effect of lanthanum on alpha-2 precipitation in Ti-Al alloys............[1081-1084]
    Transmission electron microscope observations of deformation mechanisms in Ti3Al............[1085-1090]
    Microstructure and phase relations in the Ti3Al-Nb section............[1091-1096]
    Microstructure and tensile properties in a Ti3Al-Nb alloy............[1097-1102]
    Fracture mechanisms in titanium aluminide intermetallics............[1103-1108]
    Binary TiAl alloys processed by rapid solidification............[1109-1114]
    The microstructures of rapidly solidified titanium aluminide-based alloys produced by centrifugal atomization............[1115-1120]
    Compaction of titanium aluminide powders by hot isostatic pressing (HIP)............[1121-1125]
    Microstructural development in Ti-Al alloys during rapid solidification............[1127-1132]
    Recent advances in superplasticity and superplastic forming of titanium alloys............[1135-1150]
    The relationship between manufacturing technology and design............[1151-1155]
    Microstructural change during high temperature deformation of a Ti-6Al-2Sn-4Zr-6Mo alloy............[1157-1160]
    Grain growth in blended elemental Ti-6Al-4V powder compacts............[1161-1166]
    The effect of air contamination on the mechanical and fatigue properties of titanium weldments............[1167-1172]
    Microstructure refinement and property enhancement of titanium powder compacts by high pressure and low temperature processing............[1173-1178]
    Effect of high pressure compaction on phase morphology of alpha/beta titanium alloys............[1179-1184]
    Effect of hydrogen addition in superplastic behaviour of the titanium base Ti-6.3Al-2.7Mo-l.7Zr alloy............[1185-1189]
    Design of superplastic titanium alloys having improved strength-density ratio............[1191-1196]
    Deformation of extruded titanium alloys under superplastic conditions............[1197-1202]
    Numerical simulation of superplastic forming............[1203-1208]
    The development of titanium brazing technologies............[1209-1213]
    A feasibility study on the GMA welding of thinck titanium using steady and pulsed currents............[1215-1220]
    Effect of process parameters on GTA welding of a titanium TA6V alloy............[1221-1226]
    Joining of titanium and titanium-alloys using copper-titanium filler metals............[1227-1229]
    New trends in titanium clad plates............[1231-1237]
    Bonding conditions and material properties of roll-bonded titanium-clad steel............[1239-1244]
    Bi-direction fold rolling effect of Ti/Al explosive cladding plate............[1245-1249]
    Production of seamless titanium alloy tubing............[1251-1256]
    Thermal cutting of thick TA6V4 products............[1257-1262]
    Near net shape forging of titanium alloys............[1263-1268]
    Titanium precision forgings: current status and future developments including role of direct aged Ti-10V-2Fe-3Al............[1269-1275]
    The isothermal forging of titanium alloys............[1277-1281]
    The effects of processing on the properties of forgings from two new high temperature titanium alloys............[1283-1288]
    Shear deformation and breakup of lamellar morphology in Ti-6Al-2Sn-4Zr-2Mo alloy............[1289-1293]
    Contribution of phase transformation to the compaction of prealloyed titanium powders............[1295-1300]
    Relationship between thermo-mechanical processing and mechanical properties for Ti-10V-2Fe-3Al............[1301-1306]
    A thermomechanical treatment for the improvement of the microstructure of PM and IM Ti-6Al-4V possessing a combination of high RT fatigue strength and good creep-rupture strength............[1307-1312]
    Role of transformation microstructure on high temperature deformation of Ti-alloys............[1313-1318]
    Effects of forging and heat treatment conditions on mechanical properties of a high-strength titanium alloy, Ti-17............[1319-1324]
    Mechanical behavior under hot deformation of titanium and its alloys............[1325-1337]
    Microstructure and mechanical property optimization through thermomechanical processing in Ti-6-4 and Ti-6-2-4-6 alloys............[1339-1344]
    Thermomechanical 6-4 forging model............[1345-1353]
    A comparison of the high temperature deformation processes in two beta titanium alloys: Ti-3%Al-8%V-6%Cr-4%Mo-4%Zr and Ti-10%V............[1355-1360]
    The structure of localized shear bands in nonisothermally hot forged two-phase Ti alloy............[1361-1365]
    Texture analysis of anisotropic superplastic deformation in a Ti-6Al-4V extrusion............[1367-1372]
    Deformation of electron beam welded Ti-6Al-4V alloy sheet under superplastic conditions............[1373-1377]
    The production of zirconium-lined titanium-3%Al-2.5%V pipe and tube for industrial applications............[1379-1384]
    New laser perforating process for titanium............[1385-1390]
    Forming limit diagrams with broken strain paths calculation by means of the limit stress curve of a titanium sheet............[1391-1396]
    Laser welding of titanium and titanium alloys............[1397-1402]
    Experiences on the shielding during TIG welding of thin wall titanium tubes............[1403-1408]
    Influence of welding parameters and heat treatments on microstructure and mechanical properties of electron beam welded Ti-6242............[1409-1414]
    Free-machining titanium............[1415-1420]
    Structure and properties of a welded beta titanium alloy............[1421-1426]
    Effect of the phase transformation on the hot workability of Ti-6Al-6V-2Sn, Ti-5Al-2.5Sn, and other alloys............[1427-1432]
    Forming of the structure and mechanical properties of the coarse-grained, two-phase titanium alloy by plastic working and heat treatment............[1433-1438]
    Isothermal forging of HIP'ed titanium alloy GT-9 and GT-33............[1439-1444]
    On the basketweave microstructures in Ti-6Al-2.5Mo-l.5Cr-0.5Fe-0.3Si alloy............[1445-1450]
    The diffusion bonding of aeroengine components............[1451-1456]
    Influence of microstructure on mechanical properties and plasticity of titanium and titanium alloys............[1457-1465]
    Phase transformations in titanium alloys............[1469-1479]
    Phase transformation, thermal and thermomechanical processing of titanium alloys............[1481-1487]
    New concept on the β to α phase transformation in titanium alloys............[1489-1494]
    Microstructure and mechanical properties of beta heat treated Ti-Al-X alloys............[1495-1500]
    The effect of cooling rate from the solution anneal on the structure and properties of Ti-6Al-4V alloy............[1501-1506]
    Influence of heat treatment on microstructures and mechanical properties of Ti-15-3 alloy............[1507-1512]
    Transformation-strengthened beta titanium alloys............[1513-1518]
    Effect of double ageing treatment on near-beta titanium alloy structure............[1519-1522]
    Property enhancement of titanium alloys by microstructure modification............[1523-1528]
    The estimation of refinement possibility of coarse-grained structures of unalloyed titanium by the heat treatment............[1529-1534]
    The concentration mechanism of α + β→β transformation in titanium alloys on rapid heating............[1535-1539]
    The effects of alloying and impurity elements on the phase stability of titanium............[1541-1546]
    Peculiarities of interaction of titanium-based constant-composition phases in threeand four-component systems............[1547-1552]
    Part I : Prediction of alpha/beta equilibria in titanium-based alloys containing Al, Mo, Zr, Cr............[1553-1558]
    Part II : Prediction of alpha/beta equilibria in titanium-based alloys containing Al, Mo, Zr, Cr............[1559-1564]
    Metallurgy of the Ti-N system: homogeneity, formation of stable and metastable phases, interphases equilibria nitrogen diffusion............[1565-1570]
    Silicide precipitation in Ti-5.4Al-3.5Sn-3Zr-1Nb-0.3Mo-O.3Si (IMI829)............[1571-1576]
    Atom probe study of some phase transformations in titanium base alloys............[1577-1582]
    Decomposition of stressinduced and deformed orthorhombic α"- Martensite in near β-Ti alloys............[1583-1588]
    The effect of aluminium on the phase transformations in Ti-15% V............[1589-1594]
    Thoughening of typical (α+β) and β type titanium alloys by grain coarsening and strain induced transformation............[1595-1600]
    Theoretical design of titanium alloys............[1601-1606]
    A study on the duplex aging to Ti-10V-1Fe-1Cr-3Al near beta alloy............[1607-1612]
    Microstructure of Ti-Si alloys rapidly solidified by electron beam surface melting technique............[1613-1618]
    Age hardening reactions and mechanical properties in two near beta titanium alloys............[1619-1624]
    Strengthening of Ti-15V-3Al-3Cr by 2 step aging............[1625-1628]
    The effect of aluminium on the phase transformations in Ti-11% V............[1629-1634]
    Particle growth in two-phase titanium alloys............[1635-1640]
    Microstructure modification of titanium alloy products by temporary alloying with hydrogen............[1641-1646]
    Precipitant character of TiC in the metastable β-Ti alloy............[1647-1652]
    Growth and structure of titanium evaporated films............[1653-1658]
    Thermodiffusimétrie flashlaser diffusivite thermique d'alliages de titane............[1659-1662]
    The ternary system titanium-aluminium-nitrogen............[1663-1668]
    β/α transformation in dilute titanium base alloys............[1669-1674]
    Influence of small additions of Fe, Cr, Ni on the recrystallization behaviour of commercially pure titanium............[1675-1680]
    A comparative analysis of the ω phase formation and growth in different Ti and Fe base alloys by TEM.Classical (SAXS) and anomalous (ASAXS) small angle X ray scattering experiments using synchroton radiation............[1681-1686]
    The development of surface-modified microstructures in laser-treated titanium and titanium alloys............[1687-1692]
    Metallurgical factors which affect on the corrosion resistance of titanium............[1695-1704]
    Surface engineering of titanium............[1705-1712]
    Effect of oxidation treatment on corrosion resistance of Ti-0.3Mo-0.8Ni alloy............[1713-1716]
    Effect of heat treatment on the corrosion behavior of Ti-0.3Mo-0.8Ni............[1717-1721]
    Role of temperature and pressure on the electrochemical behaviour of titanium in concentrated HCL medium. Reaction model............[1723-1728]
    Effect of Pd addition on the crevice corrosion resistance of titanium............[1729-1733]
    Effect of iron content on the breakdown potential for pitting of titanium in NaCl solutions............[1735-1740]
    Corrosion-fatigue resistance of Ti-10V-2Fe-3Al alloy in salt water............[1741-1746]
    Stress corrosion cracking of pure titanium as influenced by oxigen content............[1747-1752]
    Oxidation resistant coatings for titanium alloys............[1753-1758]
    Properties of surface oxides on titanium and some titanium alloys............[1759-1764]
    Dissolution of oxigen in the metallic phase during high temperature oxidation of titanium and some alloys............[1765-1770]
    Hydrogen absorption in titanium during high temperature exposure in gaseous hydrogenoxygen environments............[1771-1782]
    Where to find the cause of the periodic rupture of oxidation scales grown on titanium or its alloys?............[1783-1787]
    Plasma processing of titanium-based composites............[1789-1794]
    Alumina coating on titanium by plasma spraying............[1795-1800]
    The ion nitriding of titanium materials and its applications............[1801-1804]
    Fatigue of nitrogen-ion-implanted titanium............[1805-1810]
    Laser surface alloying of titanium and titanium alloys............[1811-1816]
    Characteristics of anodized titanium and its application............[1817-1822]
    XPS and AES study of the anodic titanium oxides............[1823-1828]
    Oxynitriding of titanium and TA6V4 at high temperature in dry air at low pressure............[1829-1834]
    The implantation of phosphorus in titanium reference samples preparation............[1835-1839]
    Grinding of titanium with jet infusion of grinding fluid............[1841-1846]
    High power laser surface treatments on Ti-6Al-4V in order to improve its erosion resistance............[1847-1852]
    Effects of unanalyzed mass ion implantation on Ti-6Al-4V fatigue limit............[1853-1857]
    Study of the fatigue parameters of titanium alloys treated for wear resistance............[1859-1864]
    Tribological behaviour of titanium alloy Ti-6Al-4V............[1865-1870]
    Nitruration du TA6V4 à haute température dans l'azote pur............[1871-1876]
    Influence on fretting fatigue behaviour of Ti6Al4V by coatings............[1877-1881]
    Wear problems in small displacements encountered in titanium alloys parts in aircraft turbomachines............[1883-1888]
    Surface modifications of Ti-6Al-4V by a continuous wave laser............[1889-1893]
    Influence of surface treatment on the fatigue behavior of Ti-alloys at room and elevated temperatures............[1895-1900]
    Study on galvanic corrosion of titanium alloys in seawater............[1901-1903]
    A comparison of wet fracture toughness of several Ti-alloys in brine............[1905-1909]
    Comparison between the kinetics of anodic dissolution - in 8M L-1 HCL media - of the various areas of a sudmerged arc welded TA6V elements. Role of structural characteristics and of impurities............[1911-1915]
    Titanium alloy crevice corrosion: influencing factors and methods of prevention............[1917-1922]
    Reactivity of the surface of titanium during pickling in nitric-hydrofruoric acid............[1923-1928]
    Contribution to the influence of cutting fluids on SCC behavior of Ti6Al4V............[1929-1934]
    Water jet erosion behavior of titanium alloys............[1935-1940]
    The first stages of the.oxidation of titanium: comparison between thermal and anodic oxidation of titanium implanted with sulfur and alloyed titanium............[1941-1946]
    Hot corrosion of titanium in water vapour............[1947-1952]
    Formation and properties of rutile lamellar scales obtained by titanium oxidation............[1953-1956]
    Properties of plasma nitrided titanium alloys............[1957-1962]
    Sixth World Conference on Titanium
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