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ti-4.5fe-6.8mo-1.5al alloy in rok

Recent advances in the deformation processing of

A novel high-speed processing technique for microstructural conversion in titanium has been described, which provides several benefits over the conventional slow-speed practices.

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: S. Tamirisakandala, R. B. Bhat, B. V. Vedam

Comparative Study of the Effect of Isothermal Exposure on

202111 · Dependencies are revealed between hardness of these alloys and their alloying level with β-stabilizing elements as well as features of phase and structural

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(PDF) Influence of alloying elements on the

201371 · Microstructures of Ti–1.5Al–4.5Fe–6.8Mo (a) and Ti–1Fe–13Cr–3Al (b) alloys after treatment for β -solid solution at 1173°K

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:2

Resistometric curves for Ti–1.5Al–4.5Fe–6.8Mo ( p ) and.

Download scientific diagram | Resistometric curves for Ti–1.5Al–4.5Fe–6.8Mo ( p ) and Ti–4.3Fe–7.1Cr–3Al ( s ) alloys in the process of continuous heating at a rate of 1 K ⋅ sec

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Ti-Mo

2016617 · βTi-Mo,TimetLCB(Ti-6.8Mo-4.5Fe-1.5Al)β,,,

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20211019 · Ti-6Al-4V[2]。1.2 Timetal LCB Timetal LCB(Ti-4.5Fe-6.8Mo-1.5Al) Timetal,β,

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β

2020427 · β,β、,5β(Ti-10-2-3、Ti-5553、β

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[PDF]

Open Access proceedings Journal of Physics: Conference

VT8М-1 Ti-5.5Al-3.8Mo-1.2Sn-1.2Zr-0.18Si 400÷450 VT46 Ti-6.0Al-2.0Mo-3Sn-0.8V-0.25Fe-2.5Zr-0.7Nb-0.2Si-0.05C- -0.1O 500÷550 VT25U Ti-6.5Al-1.8Sn-3.8Zr-4Mo-1W

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[PDF]

Ti-C r-Fe ののとにぼす ...

2018912 · したTi-4.5Fe -6.8Mo-1.5Al (TIMETAL LCB)3),フェ ロバナジウムをいたTi-8V- 5Fe-(1 ~3)Al 4) やTi-10V-4.5Fe-1.5Al 5) がされている.さ

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Titanium Spring - Standard Titanium Co. | Titanium

Titanium alloys have been a popular spring material in recent years due to its high specific strength, low elastic modulus, and corrosion resistance. Titanium springs offer the

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[PDF]

Open Access proceedings Journal of Physics: Conference

2020630 · Similar results were obtained in metastable β aerospace Ti-6.8Mo-4.5Fe-1.5Al alloy [18]. In this alloy, the presence of the ω-phase results in maximum microhardness of 550 HV, while fine α + β structure is characterized by microhardness of 500 HV, which is caused both by solid solution strengthening and very fine α particles [18].

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Recent advances in the deformation processing of

A novel high-speed processing technique for microstructural conversion in titanium has been described, which provides several benefits over the conventional slow-speed practices. The hot working behavior of some of the affordable α+β and β titanium alloys being developed recently—namely, Ti-5.5Al-1Fe, Ti-10V-2Fe-3Al, Ti-6.8Mo-4.5Fe-1.5Al ...

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The deformation mechanisms in the {beta}-metastable

199711 · Recently, a low-cost near-{beta} titanium alloy (Timetal LCB Ti-6.8Mo-4.5Fe-1.5Al wt%) containing iron and molybdenum has been developed. This alloy is cold formable in the {beta} microstructure and can be aged to high strengths by precipitating the {alpha} phase. Due to its combination of cold formability and high strength, the alloy is a ...

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[PDF]

Materials Science & Engineering A -

201711 · Ti alloys with imposed equivalent strain. 2. Experimental Ti-15Mo alloy was supplied by Carpenter Technology Corp. in a form of a rod with the diameter of 10.5 mm. Ti-6.8Mo-4.5Fe-1.5Al alloy was produced on demand by Huizhou Top Metals Ltd. using magnetic levitation melting and finally wire-cut to the diameter of 20 mm.

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Titanium springs and fasteners - ScienceDirect

201911 · The conventional definition of β-Ti alloys is based on the molybdenum equivalence (Mo-Eq) value of a titanium alloy. In general, titanium alloys can be classified into α-, (α-β)- and β-alloys, based on the presence of the principal alloying elements, which include α-stabilizers and β-stabilizers [1], [4].Near-β-Ti alloys refer to those with the Mo

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2021210 · : : ISSN 1006-2467 CN 31-1466/U

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.pdf 6

201642 · β 。. β β→α″,β→ω,β→α,β→β′,,。. :β ;; 。. , 1 ...

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Applications of Titanium Alloy in Automobile

Mitsubishi Motors uses Ti-22V-4Al titanium alloy valve spring seat in its large-scale production vehicles to reduce the mass of 42% compared with the original steel lock, ... At present, titanium alloy materials that can be

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βTi-1300-.PDF

20181116 · HRTEM [2−10] 。 , Ti-V-Cu[2] 、 , 30 min , Ti-4.5Fe-6.8Mo-1.5Al[3] Ti-28Nb-13Zr-0.5Fe[4] 3 keV, 3°。

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Influence of Strain Rate, Microstructure and Chemical and

Taking three titanium commercial alloys: commercial purity titanium (c.p.Ti), Ti-6-4 (Ti-6(wt.%)Al-4V) and TIMETAL-LCB (Ti-1.5Al-4.5Fe-6.8Mo) as program materials, the influence of phase composition, microstructure and strain rate (varied from 8 × 10−4 to 1.81 × 10−1) on the mechanical behavior was studied. The size of the matrix phase (α- or β

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Metals | Free Full-Text | Precipitation Behavior and

2022429 · Moreover, the precipitation and growth rate of α phase was relatively slower during aging in Ti-5553 alloy. In the process of solution-plus-aging treatment, some precipitated α phases with various morphological characteristics were also examined in typical metastable β-type Ti alloys, for instance, TB5 and Ti-4.5Fe-6.8Mo-1.5Al alloys

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Phase Transformations in Ti-6.8Mo-4.5Fe-1 - Springer

2017825 · understanding for Ti-6.8Mo-4.5Fe-1.5Al. The precipitation reactions occurring in this alloy were investigated consid-ering two aging treatment pathways, isothermal aging and artificial aging following solution treatment and cooling to room temperature. II. EXPERIMENTAL PROCEDURES The alloy investigated in this study

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High temperature, high strain deformation behavior of Ti

19981015 · Made available by U.S. Department of Energy Office of Scientific and Technical Information ...

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"THE ROLE OF CRYSTALLOGRAPHIC RELATIONSHIPS

This investigation has examined the mechanisms controlling the precipitation of various alpha (α) phase morphologies which form during the elevated temperature beta(β) beta(β)+alpha(α) phase transformations in TIMETAL LCB (Ti-6.8Mo-4.5Fe-1.5Al, in wt.%). Alpha (α) phase precipitation was promoted by aging the TIMETAL LCB specimens in

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10TiB/Ti-4.5Al-6.8Mo-1.5Fe ...

【】:Ti、Al、Mo、FeLaB6TiB2,,,1 150、1 2501 350℃TiB、Ti-4.5Al-6.8Mo-1.5Fe。

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202199 · 4 Ti–10V–2Fe–3Al 777 、 ~1250 Mpa 588 K (80%) 5 Ti–15V–3Cr–3Al–3Sn 777、 ~1400 MPa 6 Timetal LCB (Ti–4.5Fe–6.8Mo–1.5Al) 7

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Pseudospinodal mechanism for fine α/β microstructures in

201421 · DOI: 10.1016/J.ACTAMAT.2013.10.026 Corpus ID:6; Pseudospinodal mechanism for fine α/β microstructures in β-Ti alloys @article{Boyne2014PseudospinodalMF, title={Pseudospinodal mechanism for fine $\alpha$/$\beta$ microstructures in $\beta$-Ti alloys}, author={Alan F. Boyne and Dong

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Ti-6-6-2 - Manufacturing and delivering metals.

2023226 · 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; Ti-5-1-1-1; Ti-5-2.5 ELI; ... 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; Code AB-3;

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Bulk deformation of Ti-6.8Mo-4.5Fe-1.5Al (timetal LCB) alloy

Bulk deformation of Ti-6.8Mo-4.5Fe-1.5Al (timetal LCB) alloy. M Saqib. 1996, Journal of Materials Engineering and Performance. TITAN1UM alloys are of growing interest for automotive applications due to the requirements placed on automobile manufacturers to increase the fuel economy of cars. Titanium alloys have long been used in the aerospace ...

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Overview of titanium alloy spring applications_Shenyang

Room 703,No.28 Huahai Road.Economic and technical development zone,Shenyang P.R.China. ZIP:

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Bulk deformation of Ti-6.8Mo-4.5Fe-1.5Al (timetal LCB) alloy

Recently, a low-cost near-β titanium alloy (Timetal LCB Ti-6.8Mo-4.5Fe-l.5Al wt %) containing iron and molybdenum has been developed. This alloy is cold formable in the β microstructure and can be aged to high strengths by precipitating the a phase. Due to its combination of cold formability and high strength, the alloy is a potential ...

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Mechanical twinning and microstructure refinement in

In this study two different metastable beta titanium alloys, Ti-15Mo and Ti-6.8Mo-4.5Fe-1.5Al (TIMETAL LCB) were subjected to severe plastic deformation (SPD) by high pressure torsion (HPT) technique. The main purpose of SPD methods is the insertion of large plastic deformation to the material without a change of the original shape of the material.

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Titanium for Automotive Applications -

2001620 · Of these, the Ti-4.5Fe-6.8Mo-1.5Al alloy (Timetal LCB) offers the best combination of desirable properties at an economical price. This was developed primarily for automotive springs and can be formulated at approximately 50% of the cost of typical existing beta alloys. Given sufficient production volume, its price should ultimately

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202216 · Timetal LCB(Ti-4.5Fe-6.8Mo-1.5Al)Timetal,β,Ti-10-2-3(Ti10V2Fe3Al),Fe-MoFeV。 TimetalLCB,,,

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[PDF]

201287 ·  6 Ti­6.8Mo ­4.5F­ 1.5Al 1290 ℃ — [13] Fig. 6 Stress — strain curves of Ti­ 6.8Mo ­4.5F­ 1.5Al at ... Ti­10V ­4.5Fe ­1.5Al 。 2) 。VUAY SHANKAR ANKEM [17] β Ti­Mn ...

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201023 · Ti-6Al-6V-2Sn-0.5Cu-0.5Fe AB-3 TC11 Ti-6.5Al-3.5Mo-1.5Zr-0.3Si GB/T ASTM ΓOCT JIS DIN BS TA1(ELI) Ti GR1 BT1-00 JIS1 Ti1 2TA 1 TA2(ELI) Ti GR2 BT1-0

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【】() ...

2021729 · (Timet)Fe、MoTi-4.5Fe-6.8Mo-1.5Al,βLCB(Low Cost Beta),βc,,,,,

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2023215 · :. . ATI425 (Ti -4Al -2.5V -1.5Fe -0.25O)、Time tal 62S (Ti-6Al-1.7Fe-0.1Si)、GR12(Ti-0.3Mo-0.8Ni)、Time tal LCB (Ti-4.5Fe-6.8Mo-1.5Al)、Ti-0.05Pd-0.3Co 。. Time tal 62S ...

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USA alloys - Manufacturing and delivering metals.

2023223 · Our enterprise manufactures and delivers USA alloys. 343 319-42-40. E-mail: . Екатеринбург, ул. Коминтерна 5, оф. 321 . ENG. RU. Main; ... 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. Ti-5-1-1-1. Ti-5-2.5 ELI.

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Titanium alloys and processing for high speed aircraft

This paper discusses some results to date of NASA sponsored research on the effects of heat treatment, service temperatures from −54 to +177°C, and selected processing on the mechanical properties of several candidate β and α-β titanium alloys. Included are β alloys Timetal 21S, LCB, Beta-C, Beta-CEZ and Ti-10-2–3 and α-β alloys Ti ...

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