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Abstract. The present work depicts a compilation of mechanical properties of 282 distinct multicomponent Ti-based alloys and their respective microstructural features. The dataset includes the.
Metrics - A compilation of experimental data on the mechanical properties and .Full Size Image - A compilation of experimental data on the mechanical .Full Size Table - A compilation of experimental data on the mechanical . For this purpose, uniaxial tensile and compression, and double shear strength tests were performed on 13 Ti alloys, which have different microstructural phases (α, α+β, and β) .
In order to study the warm temperature deformation behavior of the alloy, the tensile testing methods were utilized. In addition, the compression tests were conducted to more . A procedure using finite element analysis is described to determine the axial stress in a PST test. The experiments reveal the deformation-induced anisotropy and tension .
This paper presents experimental results and finite element analysis of hot upsetting of titanium alloys Ti64 and Ti407 using a dilatometer in loading mode. All samples . Results of the mechanical tests illustrated in Fig. 1 indicate that CP-Ti exhibited conspicuous TCA under yielding and strain hardening. Compared with its properties under .
Ultrasonic impact significantly influences the mechanical properties and flow stress of Ti-17 titanium alloy. In this study, compression tests on Ti-17 titanium alloy were conducted under ultrasonic impact conditions, varying .
The tension-compression asymmetry (TCA) behavior of an extruded titanium alloy at high temperatures has been investigated experimentally in this study. Uniaxial tensile and compressive tests were conducted from 923 . In this study a two-phase α/β alloy, Ti-6Al-2Sn-4Zr-2Mo (Ti-6242), and a single phase binary alloy, Ti-6Al, were observed to exhibit a dramatic asymmetry between tension .Development of bimodal/multimodal microstructure has attracted extensive attention in the balance of high strength and ductility of titanium alloys. This review covers the development .
The flow stress correction in uniaxial compression has drawn much attention and some standard procedures have been developed. For instance, the upper bound analysis yields the following correction method: (1) σ = p 1 + m 3 3 d h where σ is the corrected flow stress, p is the uncorrected flow stress, m is the friction factor, d and h are the diameter and height of the .systematically with test conditions, with the central strain and strain rate being magnified significantly, by factors of order 2–3. Keywords barrelling, compression testing, finite element analysis, process modeling, titanium alloys 1. Introduction It is well established that process modeling is central to hot The high-strain-rate mechanical response of α-titanium is examined in terms of the underlying deformation mechanisms that govern its macroscopic behavior.The mechanical behavior of α-titanium has been evaluated using quasistatic (10 −5 to 10 0 s −1) compression testing with servohydraulic machines, dynamic (10 −2 to 10 4 s −1) compression testing with .This chapter discusses the factors that govern the mechanical properties of titanium, beginning with the morphology of the alpha phase. It explains that the shape of the alpha phase has a significant effect on many properties, including hardness, tensile strength, toughness, and ductility as well as creep, fatigue strength, and fatigue crack growth rate.
Commercially pure titanium (CP Ti), grade II, is subjected to hot compression at temperatures ranging from 673 to 973 K with 50 K intervals and strain rates of 0.001, 0.01, 0.1 and 1 s −1 up to 60% height reduction. By analysing work hardening rate vs. flow stress, the deformation behaviour can be divided into three groups, viz. three-stage work hardening, two .This paper presents experimental results and finite element analysis of hot upsetting of titanium alloys Ti64 and Ti407 using a dilatometer in loading mode. All samples showed barrelling, as a consequence of an inhomogeneous temperature distribution and friction. . Finite Element Modeling of Hot Compression Testing of Titanium Alloys .This paper presents experimental results and finite element analysis of hot upsetting of titanium alloys Ti64 and Ti407 using a dilatometer in loading mode. All samples showed barrelling, as a consequence of an inhomogeneous temperature distribution and friction. The FE analysis is a full thermomechanical model of the test calibrated using multiple thermocouples. At each nominal . This paper presents experimental results and finite element analysis of hot upsetting of titanium alloys Ti64 and Ti407 using a dilatometer in loading mode.
Fig. 5 shows a Ti G4 Hard implant during compression loading. The compression tests of the implants were interrupted by the fracture of any part. It can be seen that the implant undergoes plastic deformation, showing that this alloy has good plasticity. Fig. 6 shows the results of compression tests of implants from each group. Establishing a unified constitutive model to simulate the hot deformation behaviors, microstructure evolution and fracture behaviors under different stress states during the hot forming of titanium alloy is indispensable. The high temperature tensile tests were first carried out on different stress states of forged Ti-6Al-4 V alloy specimens to analyze the flow behaviors, .
Background Because 3D printed titanium alloys are often used in load-bearing structures, strength research becomes critical. Surprisingly, numerous studies have reported the tensile strength measurements, but no study has presented any result for the shear strength measurement of 3D printed titanium alloys. Hence, a new approach is worthy of exploration, . Twinning affects the deformation of titanium alloys, presenting several strain stages according to the dominant deformation mechanisms. Nemat-Nasser et al. found three hardening stages for extruded pure titanium in compression tests. They correlated a high temperature and/or a low strain rate with the non-existence of twinning mechanism in the . The flow curve behavior and microstructure evolution of commercially pure titanium (CP-Ti) through uniaxial hot compression was investigated at 850 °C and a strain rate of 0.1/s. Electron back scattered diffraction (EBSD) was employed to characterize the microstructure and crystallographic texture development for different thermomechanical conditions. The stress . Thermomechanical treatment is known to induce changes in the microstructure of materials, which subsequently affects their mechanical properties [16], [17], [18].In a study conducted by Abbasi [19], the impact of hot compression on the mechanical characteristics of Ti–6Al–4V was investigated.Elevating the rolling temperature from the two-phase region to the .
The compression test results were fully correlated with the formed AM Ti-6Al-4V alloy microstructure (Ref 1, 68, 69, 71). All specimens failed through the inclined cracks at an angle of 45° (Fig. 6 ) that was typical for titanium alloys including lattice structures manufactured via electron beam melting (Ref 74 ).
Tension–Compression Asymmetry of Commercially Pure
As titanium alloys are typically anisotropic, the SRS is likely to be varied with grain orientations and the associated slip systems [37].A previous study on micropillar test from Jun et al. [4] in Ti 624x alloys demonstrated that prism slips are more rate sensitive than basal slips in single α phase within a dual-phase Ti alloys. In Jun et al.’s work, this difference was . RESULTS: Nickel-titanium wires show exceptional features in terms of elasticity and shape memory effects. . Compression tests (27°C, 37°C . NiTi SMA is more corrosion resistant than Cu-alloy .
A large number of studies have been carried out using mechanical experiments to understand and model the response of titanium and its alloys, mostly based on uniaxial loading (Nemat-Nasser et al., 1999; Khan et al., 2004; Hosford, 2005; Semiatin et al., 2006).Among more recent studies (Nixon et al., 2010), presented a comprehensive set of uniaxial tension and . The dynamic mechanical properties of the TC4 titanium alloy were investigated within a temperature range of − 40 °C to 20 °C and strain rates that range from 500 s−1 to 3000 s−1. Based on the obtained experimental data, modifications were made to the Johnson–Cook (J–C) constitutive model, tailored explicitly for low temperatures. This modified model was . The dynamic transformation in an unstable state has been also observed in near-beta titanium alloys. For example, compression tests were performed on a near-beta titanium alloy (Ti-55511) with an initial microstructure of adequate alpha phases by Lin et al. in which samples were heated to target temperature and held for 300 seconds prior to .
The methods of optical metallography, SEM, x-ray fluorescence analysis, microindentation and compression testing were used to study the effect of annealing of Ti – 6%Al – 4%V alloy produced by direct laser sintering of the powder on structure, phase composition and mechanical properties of the samples with cellular architecture intended for .
The quasi-static and dynamic impact compression tests of the TA31 titanium alloy were conducted at the strain rates from 0.001 s−1 to 4000 s−1 and deformation temperatures from 293 K to 773 K . The microstructural evolution of titanium alloys under high-temperature conditions plays a key role in determining their mechanical properties and hot working behavior. This research presents an advanced method for calibrating β phase reconstruction software using in situ testing on Grade 2 titanium, which achieves accurate reconstruction of the parent β . Abstract— Features of 3D printing, including laser melting of metal powders, were considered in this work. The effect of laser operation mode on the structure, residual stresses, and properties of manufactured metals was reviewed. A method for choosing process parameters using single tracks as universal for all types of metal laser 3D printers was proposed. .the strength of Ti6321 titanium alloy, which can be attributed to the transition from slip-based mechanisms to twinning. This shift toward twinning not only enhances strain hardening but also reinforces the material. In summary, most of the existing results focus on the limitations of compression properties of titanium alloys (Ref 2-5).
Compression tests were carried out at the temperatures of 25 °C, 200 °C, 400 °C and 600 °C under the different strain rates of 0.01–3500/s (Fig. 1). The Charpy impact tests were carried out in a Zwick–Roell make system. . Comparison between Crystal plasticity model and experimental results of titanium alloy for different strain rates .This paper presents experimental results and finite element analysis of hot upsetting of titanium alloys Ti64 and Ti407 using a dilatometer in loading mode. All samples showed barrelling, as a consequence of an inhomogeneous temperature distribution and friction. The FE analysis is a full thermomechanical model of the test calibrated using multiple thermocouples.
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unusual compression testing results of titanium alloys|A Review on High