TAGGED: fluent, scheil, solidification-model, udf-fluent, vof-model
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April 13, 2022 at 1:44 pmsfaronSubscriber
Hi everyone !
I am trying to simulate the solidification of a binary alloy with the multiphase - Volume-Of-Fluid model (primary phase being my alloy, secondary phase is argon inert gas). I am using Ansys fluent 2021 R1, Double precision and in parallel on an HPC.
At first, I was using the Lever rule (no species transport), I only had two fluids materials (the argon, and my alloy, with its liquidus and solidus temperature) for solidification.
However, I now want to change my solidification path following Scheil rule. I've enabled the species transport equations (witout reactions, and no Options ticked), created my mixture made of two species - which compose the binary alloy - and set the thermophysical properties of the mixture (volume-weighted-mixing-law for density, piecewise-linear Specifict heat and thermal conductivity, constant viscosit, constant-dilute-appx for the Mass diffusivity, the order of magnitude being 10e-09).
My solute has also a piecewise linear density, constant molecular weight, the standard state enthalpy (at Tref = 300 K) to the order of magnitude 1e+08, coming from the Fluetn database of the pure solid element representend by this species), and the alloy-related slope of liquidus, partition coefficient, eutectic mass fraction and the same diffusion in solid as the mass diffusivity of the mixture. The solvant has a different molecular weight, but same density, standard state enthalpy and reference temperature, the other options are empty as not requiered (automatically set to zero).
A UDF set the initial volume of fluid of the mixture during initialization (basically, if any cell of my Eulerian mesh are below a given value, C_VOF(c, pt[0]) = 1.0; and C_VOF(c, pt[1]) = 1.0 - C_VOF(c, pt[0]);).
A heat source is then applied from the UDF with Discrete Phases. When I was using the Lever rule, the material was melting and then solidifying well. However, now, the material seems to react as if it was a gas, although its temperature is below the Eutectic temperature (hence, below pure element melting temperature and solidus temperature).
I don't know if I've done something wrong, perhaps something had to be changed in the UDF by going from one fluid to using the mixture ? I doubt it, as C_VOF(c, pt[0]) referes to the phase and not the material itself.
Feel free to ask any question if I've not been clear, unfortunately I am not allowed to give many in-depth details about the simulation and elements used ...
April 14, 2022 at 8:08 pmKarthik RemellaAdministratorHello Can you simplify the model and see if it behaves alright? If that works, my suggestion would be to add complexity one by one at a time. Perhaps, it is a simple issue with the model set-up in Fluent.
Karthik
April 19, 2022 at 4:21 pmsfaronSubscriberHello Kremella, sorry for the late reply due to the Easter break. Thanks for your reply !
I just tried with constant values for my species and my mixture, but the issue is still the same. How would you suggest to simplify the model ?
Thanks in advance,
Sebastien
April 20, 2022 at 2:24 pmsfaronSubscriberHi again I found the issue, which came from the UDF. I've added an extra force in the momentum source term, which was responsible of the wrong metal behaviour...
It is fixed now
Viewing 3 reply threads- The topic ‘Scheil implementation during Solidfication/Melting of a binary alloy’ is closed to new replies.
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