isothermal hot compression tests|Constitutive modeling of high temperature flow : member club A constitutive equation based on the hyperbolic sinusoidal Arrhenius-type model has been developed to describe the hot deformation .
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The nominally isothermal, uniaxial hot compression test has been analyzed with special reference to the effects of temperature nonuniformities and friction on sample deformation and flow stress estimates.The nominally isothermal, uniaxial hot compression test has been analyzed . The deformation behavior of IN 028 alloy in the temperature range of 950–1150 °C and strain rate range of 0.01–30 s −1 has been studied using processing maps by isothermal .
It is applicable to hot (isothermal) uniaxial axisymmetric compression tests at medium to high rates of strain (10-4 to 102 s-1) at deformation temperatures below the solidus. The deformation behavior of IN 028 alloy in the temperature range of 950–1150 °C and strain rate range of 0.01–30 s−1 has been studied using processing maps by isothermal . A constitutive equation based on the hyperbolic sinusoidal Arrhenius-type model has been developed to describe the hot deformation . In the present work, the hot deformation behavior of TB18 titanium alloy was investigated by isothermal hot compression tests with temperatures from 650 to 880°C and .
The nominally isothermal, uniaxial hot compression test has been analyzed with special reference to the effects of temperature nonuniformities and friction on sample deformation and . The true stress− true strain curves obtained from isothermal compression tests of AA6099 at temperature of 350, 400, 450 and 500 °C, at strain rates of 0.01, 0.1 and 1 s −1, . In this study, pure copper’s hot deformation behavior was studied through isothermal compression tests at deformation temperatures of 350~750 °C with strain rates . The hot deformation behavior of a newly developed AA6099 alloy was investigated after homogenization. To this end, Gleeble® isothermal hot compression tests were performed at temperatures of 350, 400, 450, and 500 °C, and strain rates of 0.01, 0.1, and 1 s −1 up to a true strain of 0.8. The dependency of the flow stress on the deformation temperature, strain, and .
Prediction of material flow behavior is essential for designing the forming process of any material. In this research, experimental flow curves of Ti–6Al–4 V alloy were obtained using the isothermal hot compression test done at 750–950 °C with 50 °C intervals and constant strain rates of 0.001, 0.005 and 0.01 s −1.For prediction of hot deformation flow curves two . The isothermal hot compression test was carried out in a servo-hydraulic materials test system (MTS-810, MTS system Co., USA) with a load capacity of 250 KN outfitted with a three-zone resistance heating furnace. Ceramic rods (referred to as dies) were used to compress the specimen, and three S-type thermocouples were attached to the top/bottom .
Isothermal hot compression tests have been performed to study the hot working characteristics of Ni-Cr-Mo-based C276 superalloy in the temperature range 1000–1200 °C and strain rate range 0.001–5.0s −1.The critical strain and stress for the initiation of dynamic recrystallization (DRX) were determined from the strain rate hardening curves. The processing .Materials Science and Engineering A 387–389 (2004) 857–861 Isothermal forging of AA2618 + 20% Al2 O3 by means of hot torsion and hot compression tests P. Cavaliere a,∗ , E. Cerri a , E. Evangelista b a Department of Ingegneria dell’Innovazione, Engineering Faculty, University of Lecce, I-73100 Lecce, Italy Department of Mechanics . Hot compression experiment was performed on a Gleeble-3800 thermal simulation test machine and true stress-strain data were used in this work. Due to the critical recrystallization temperature and initial melting temperature of ATI 718plus superalloy is about 1000 °C and 1260 °C respectively.
The hot deformability of this alloy was studied using isothermal hot compression tests in the temperature range of 850 °C to 1150 °C and at strain rates ranging from 10− 3 to 10 s− 1, using a Gleeble 3800 thermo-mechanical simulator. The flow behaviour was analysed using stress-strain and strain hardening plots. Isothermal hot compression tests were conducted using a Gleeble-1500 thermal simulation machine. The tests were carried out at constant strain rates of 0?01, 0?1, 1 Isothermal and non-isothermal multistage hot compression tests were carried out on 7150 aluminum alloy at temperature range of 325-425 °C and strain rate range of 0.01-1s−1.
Cylindrical compression specimens with dimensions of Ø 8×12 mm were machined and underwent uniaxial isothermal hot compression tests employing a Gleeble-1500D thermal simulation test machine (Fig. 1. a). Thermocouples were welded onto the specimen surface to monitor and control the temperature (Fig. 1. b). Specimens were initially heated at a .
An isothermal process is a type of thermodynamic process in which the temperature T of a system remains constant: ΔT = 0. This typically occurs when a system is in contact with an outside thermal reservoir, and a change in the system occurs slowly enough to allow the system to be continuously adjusted to the temperature of the reservoir through heat exchange (see . The isothermal hot compression tests were conducted in cylindrical samples with 5-mm diameter and 7-mm length. The tests were carried out at temperatures of 200 °C, 300 °C, 350 °C, 400 °C, 450 °C and 500 °C, and strain rates of 0.01 s −1, 0.1 s −1, 1 s −1 and 10 s −1.Before testing, a nickel-based lubricant was applied to the specimen end faces to minimize .
Schroeder works out the details for these two types of compression in his section 1.5, so I’ll just review the main ideas here. Isothermal compression. For isothermal compression, the temperature is constant so from the ideal gas law P= NkT V = constant V (1) The plot of P versus V on a PV diagram is a hyperbola known as an isotherm.
An analysis of the stress–strain curves to determine the critical strain of the onset of DRX (ε c) under continuous isothermal hot compression indicated that the amount of strain above ε = 0.15 in the double-pass hot compression tests led to static softening by MDRX. Following the onset of DRX, the growth kinetics of nuclei increased after . In this study, pure copper’s hot deformation behavior was studied through isothermal compression tests at deformation temperatures of 350~750 °C with strain rates of 0.01~5 s−1 on a Gleeble-3500 isothermal simulator. . A R410A scroll compressor was tested over a wide range of operating conditions flooding POE oil into the compression chamber using a hot-gas test stand. . Isothermal compression is a promising process that could drastically improve the isothermal efficiency of the compressor. Because of this, methods have been explored to apply this process .
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The article investigates the hot deformation behavior of a homogenized Mg-13Gd-4Y-2Zn-0.6Zr (GWZK1342) alloy based on isothermal compression tests. The hot deformation characterization of the GWZK1342 alloy was investigated through the work-hardening rate θ and the inflection point of ln θ − ε curves; thus, the critical strain model was established. . To improve the hot working stability of Al-0.5Mg-0.4Si-0.1Cu alloy, isothermal compression tests were performed at the temperature range of 350-500°C and strain rate of 0.001-10s-1. The isothermal compression tests of the nickel-based superalloy Waspaloy were carried out under various temperatures from 1040 to 1120 °C and strain rates from 0.01 to . The nominally isothermal, uniaxial hot compression test has been analyzed with special reference to the effects of temperature nonuniformities and friction on sample .
Isothermal compression tests at temperatures ranging from 523 to 723 K and strain rates from 0.01 to 10 s(-1) were performed on AZ31 magnesium alloy to reveal the deformation characteristics. Hot compression tests of Mg–8Al–1.5Ca–0.2Sr magnesium alloy were performed on the Gleeble-1500 machine at temperatures of 300, 350, 400, and 450 °C and strain rates of 0.01, 0.1 and 1 s−1. Typically hot isothermal compression testing is used to generate flow stress data for finite element modelling; this technique is particularly suitable for modelling processes such as rolling and extrusion where the temperature of the workpiece is held approximately constant throughout the process. The investigation of thermal deformation behavior plays a significant role in guaranteeing the overall performance of alloy materials. In this manuscript, a series of isothermal compression tests at different temperatures (300, 350, 400, and 450 °C) and strain rates (0.001, 0.01, 0.1, and 1 s−1) were conducted to study the thermal deformation behavior of 7075 .
Isothermal hot compression tests on the as-cast high-Cr ultra-super-critical rotor steel with columnar grains were carried out in the temperature range from 1223 to 1523 K and at strain rates from . Abstract. This paper describes good practice for the measurement of hot flow stress in metallic materials. It is applicable to hot (isothermal) uniaxial axisymmetric compression tests at medium to high rates of strain (10 −4 –10 2 s −1) at deformation temperatures below the solidus.. Guidance is provided on appropriate testpiece geometries and methods of verifying . The isothermal hot compression tests were performed using the Sanaf universal testing machine (SUTB 20) equipped with an electrical resistance furnace up to the constant true strain of 0.6, as shown in Fig. 2 (a).
The stress-strain curves for nickel-based superalloy were obtained from isothermal hot compression tests at a wide range of deformation temperatures and strain rates. The material constants and .
Measurement Good Practice Guide No 3 Measuring Flow
Hot Deformation Behavior and Processing Maps of Pure Copper
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isothermal hot compression tests|Constitutive modeling of high temperature flow