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2022121 · Here, we report a hierarchical microstructure tailoring strategy to achieve an excellent strength-ductility combination in Ti-4Al-5Mo-5V-5Cr-1Nb (Ti-45551) alloy. It
contactBT9 Ti-6.5Al-3.5Mo-0.3Si TC3 Ti-4Al-4V A-1 Ti-5Al-2.5Sn BT/4 Ti-5Al-3Mo-1.5V TC4 Ti-6Al-4V A-3 Ti-6Al-2Nb-1Ta BT16 Ti-2.8Al-5Mo-5V ... BT22 Ti-5.5Al-5V-5Mo-1.5Cr-1.0Fe A-4
contact201023 · Ti-4Al-1.5Mn OT4 TC3 Ti-5Al-4V TC4 ( TC4ELI ) Ti-6Al-4V GR5 ( GR23 ) BT6 ( BT6C ) 60 ( 60E ) TiAl6V4 Ti-6Al-4V TC6 Ti-6Al-1.5Cr-2.5Mo
contact201023 · Ti-6242S(AB-4) Ti-6242S Ti-6242S TA20 Ti-4Al-3V-1.5Zr GB/T ASTM ΓOCT JIS DIN BT8-1 TC26 Ti-13Nb-13Zr
contact20191127 · Ti-4Al-1.5Mn TC3 Ti-5Al-4V TC4 Ti-6Al-4V TC4ELI Ti-6Al-4VELI TC6 Ti-6Al-1.5Cr-2.5Mo-0.5Fe-0.3Si TC8 Ti-6.5Al-3.5Mo-0.25Si TC9 Ti-6.5Al-3.5Mo-2.5Sn
contactThe dynamic mechanical properties and failure behavior of rolled and heat treated Ti-4.5Mo-5.1Al-1.8Zr-1.1Sn-2.5Cr-2.9Zn alloys were studied.The results show that after multi-pass
contact2022121 · 1. Introduction. Titanium (Ti) alloys have been widely applied in the structural applications of aerospace, marine, energy and biomedical implants industries due to their high strength-to-density ratio, good weldability, excellent hardenability and corrosion resistance [1], [2], [3], [4].Over the last decades, metastable β-Ti alloys become one of
contact202291 · Here, we report a hierarchical microstructure tailoring strategy to achieve an excellent strength-ductility combination in Ti-4Al-5Mo-5V-5Cr-1Nb (Ti-45551) alloy. It was revealed that high density ...
contactTable 2 Solution treatment conditions for Ti-4Al-6Mo-2V-5Cr-2Zr alloy Fig.2 Microstructures of Ti-4Al-6Mo-2V-5Cr-2Zr alloy after solution treatment below phase transition temperature for 1 h at 750℃, low magnification (a); at 750℃, high magnification (b); at 770℃, low magnification (c) and at 770℃, high magnification (d) ...
contactTo reduce the alloying elements and maintain a high elastic admissible strain, a new alloy design of the metastable α+β-Ti alloy (Ti–4Al–2Mo–2Fe–2Cr) is proposed in this study. The microstructure of the alloy consists of an α phase with a high yield strength and a metastable β phase with a low elastic modulus. The existence of the ...
contact2021616 · :(、) TAD Grade1 1 BT1-00 TA1 Grade2 2 BT1-0 TA2 Grade3 3 OT4 -0 Ti-0.8Al-0.7Sn TA3 Grade4 4 OT4 -1 Ti-2Al-1.
contact2022725 · TA5 :Ti-4Al-0.005B : Al:3.3%~4.7% B:0.005% GB/T2965-2007 :≥685(MPa) ...
contact2021223 · The 5Cr-0.5Mo steel is a member of the heat-resistant chromium-molybdenum (Cr-Mo) alloy steel family. Piping materials made of 5Cr-0.5Mo are widely used for a variety of high pressure and high temperature services such as petroleum cracking facility, coking unit, fertilizer production system, steam facility, and other petrochemical &
contact2022822 · Ti-4Al-5Mo-5V-5Cr-1Nb (wt.%) is a new type of high-strength (~1300 MPa) titanium (Ti) alloy developed for aerospace applications. Until now, the research on its welding and subsequent heat treatment is barren. Herein, we employed electron beam welding (EBW) to a solutionized Ti-4Al-5Mo-5V-5Cr-1Nb with a phase constituent of α +
contact2022822 · Ti-4Al-5Mo-5V-5Cr-1Nb (wt.%) is a new type of high-strength (~1300 MPa) titanium (Ti) alloy developed for aerospace applications. Until now, the research on its welding and subsequent heat treatment is barren. Herein, we employed electron beam welding (EBW) to a solutionized Ti-4Al-5Mo-5V-5Cr-1Nb with a phase constituent of α +
contact20221014 · This work studied the high strain rate behavior of the Ti-4Al-5Mo-5V-5Cr-1Nb (Ti-45551) alloy after two-stage aging, with dynamic tension tests conducted using the split Hopkinson tensile bar. The results show that the microstructure, especially the size and distribution of the α phase, significantly affects the mechanical and failure
contact4.0/). metals Article Electron Beam Welding and Post Heat Treatment of a New Near-Beta High-Strength Ti-4Al-5Mo-5V-5Cr-1Nb Alloy Xinquan Zhang 1,2, Jinshan Li 1,3, Manfei Tao 1, Jie Wan 1,3 and ...
contactTable 2 Solution treatment conditions for Ti-4Al-6Mo-2V-5Cr-2Zr alloy Fig.2 Microstructures of Ti-4Al-6Mo-2V-5Cr-2Zr alloy after solution treatment below phase transition temperature for 1 h at 750℃, low magnification (a); at 750℃, high magnification (b); at 770℃, low magnification (c) and at 770℃, high magnification (d) ...
contactTo reduce the alloying elements and maintain a high elastic admissible strain, a new alloy design of the metastable α+β-Ti alloy (Ti–4Al–2Mo–2Fe–2Cr) is proposed in this study. The microstructure of the alloy consists of an α phase with a high yield strength and a metastable β phase with a low elastic modulus. The existence of the ...
contact2021223 · The 5Cr-0.5Mo steel is a member of the heat-resistant chromium-molybdenum (Cr-Mo) alloy steel family. Piping materials made of 5Cr-0.5Mo are widely used for a variety of high pressure and high temperature services such as petroleum cracking facility, coking unit, fertilizer production system, steam facility, and other petrochemical &
contactThe dynamic mechanical properties and failure behavior of rolled and heat treated Ti-4.5Mo-5.1Al-1.8Zr-1.1Sn-2.5Cr-2.9Zn alloys were studied.The results show that after multi-pass rolling at 880℃,a duplex microstructure consisting ofβmatrix and non-uniformly distributed"equiaxed+strip"αphase is obtained,and the microstructure is composed ...
contact@article{osti_, title = {Effect of microstructure and yield strength on the void nucleation, growth, and fracture of. alpha. /. beta. Ti-4. 5Al-5Mo-1. 5Cr alloy (CORONA-5)}, author = {Vijayaraghavan, T V}, abstractNote = {The objective was to investigate the effect of varying plastic interaction between particle and matrix in a two-ductile-phase system,
contact2022822 · Ti-4Al-5Mo-5V-5Cr-1Nb alloy(Ti -45551, wt.%) is a newly developed metastable β titanium alloy, which possessed superior com-prehensive mechanical properties. The ultimate tensile strength of titanium alloy is greater than 1300 MPa, the total elongation is not less than 5%, and the fracture toughness is more than 60 MPa∙m 1/2
contact@article{osti_, title = {Effect of microstructure and yield strength on the void nucleation, growth, and fracture of. alpha. /. beta. Ti-4. 5Al-5Mo-1. 5Cr alloy (CORONA-5)}, author = {Vijayaraghavan, T V}, abstractNote = {The objective was to investigate the effect of varying plastic interaction between particle and matrix in a two-ductile-phase system,
contactTo reduce the alloying elements and maintain a high elastic admissible strain, a new alloy design of the metastable α+β-Ti alloy (Ti–4Al–2Mo–2Fe–2Cr) is proposed in this study. The microstructure of the alloy consists of an α phase with a high yield strength and a metastable β phase with a low elastic modulus. The existence of the ...
contact202231 · Table 1 Chemical compositions of experimental alloy compared with nominal 1C–1?5Cr alloy/wt-% Alloys C Al Mn Si Cr Ni Mo Cu 1.2C–1.5Cr–5Al 1?250.35 0.25 1.55 1 C–1.5Cr 10 2 Microscopy of as hot rolled alloy, indicated almost full pearlite dispersed with very small amount of secondary phase, prior austenite after
contactTitanium and titanium alloys are widely used in aerospace, petrochemical, electric power, seawater desalination and other industries, below are different titanium and titanium alloys and related Chemical compositions, ... (Ti-55 bar) Ti-5.4Al-4.2Sn-2.0Zr-1.0Mo-0.25Si-1.0Nd TA13(Ti-230,IMI230) Ti-2.5Cu TA14(Ti-679,IMI679) Ti-2.25Al-11Sn-5Zr-1Mo ...
contact. 【】: βTi-4.5Mo-5.1Al-1.8Zr-1.1Sn-2.5Cr-2.9Zn,2。. ,880℃,β"+"α;895 ...
contact2023223 · Ti-4.4Al-5Mo-1.5Cr. Ti-4.5Al-3V-2Fe-2Mo. Ti-4.5Fe-6.8Mo-1.5Al. Ti-4.5Sn-11.5Mo-6Zr. Ti-4.5Sn-6Zr-11.5Mo - MIL T-9047G. Ti-4Al-4Mo-2Sn. Ti-4Al-4Mo-2Sn-0.5Si. Ti-5-1-1-1. ... CABOT alloy Ti-3Al-2.5V; Class 4; Code A-1 ; Code A-2 - MIL T-81556A; Code A-3 - MIL T-9046J; Code A-4 - MIL T-81556A; Code AB-1 ; Code AB-2 - MIL T-81556A;
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