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Thermodynamic calculated data, obtained with application of mathematical modeling method, were used duringĭevelopment and investigation of a number of promising filler metals for brazing high-temperature nickel alloys, including In particular, their impact on the quantity and thermal stability of γ′-phase and σ-phase wasĭetermined. On the influence of adhesion-active elements of groups IV and V of the periodic table on liquidus temperature and phase composition Temperature ranges were determined for a number of alloys of Ni–Cr–Co–Al–(Ме)–Ta system. During performance of investigations, using CALPHAD computational procedure, melting Modeling of thermodynamic processes (CALPHAD) during development of multicomponent filler metals for brazing The work is a study of applicability of the method of mathematical Task, requiring considerable investment of time and money.
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However, establishing the optimum composition to obtain the desired set of properties is a non-trivial Provide the required level of strength, high-temperature resistance, high-temperature corrosion resistance and other service E-mail: brazing filler metals for brazing high-temperature nickel alloys are complex alloys, where the components should Paton Electric Welding Institute of the NAS of Ukraineġ1 Kazymyr Malevych Str., 03150, Kyiv, Ukraine.
#JMATPRO PRICE SOFTWARE#
At different cooling rates, the continuous cooling transition diagram simulated by JMatPro is basically the same as the phase transition in the dynamic continuous cooling transition diagram of the test steel, which proves that the simulation prediction of the dynamic continuous cooling transition of the test steel by the JMatPro software has high accuracy and applicability.Mathematical modeling of melting temperature range and phase composition of multicomponent nickel alloys With the increase of the cooling rate and the decrease of the transition temperature, from low-speed cooling→medium-speed cooling→high-speed cooling, respectively, the diffusion type phase transition→semi-diffusion type phase transition→the non-diffusion type phase transition.
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When the cooling rate is high (15☌/s), the martensitic transformation is a non-diffusion-type transformation carried out in the low temperature region, and the atoms are directly transferred from the austenite lattice to the martensite lattice. At a moderate cooling rate (1☌/s), the bainite phase transition is a semi-diffusion phase transition in which carbon atoms are displaced in a non-cooperative thermally activated transition mode. The results show that: at a lower cooling speed (0.1☌/s), austenite decomposition is a diffusion-type phase change that takes place in a high-temperature region, and carbon atoms can diffuse sufficiently. Obtain the dynamic continuous cooling transformation diagram and the scanning structure diagram of the test steel, and then analyze the phase composition under different cooling speeds through JMatPro material performance simulation. After the compression deformation, it was cooled to room temperature at different speeds. Through the Gleeble3500 thermal simulation test machine, the phase transformation law of Nb microalloyed steel was studied and tested.