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Title: Prediction of grain structures in various solidification processes

Journal Article · · Metallurgical Transactions, A
DOI:https://doi.org/10.1007/BF02648956· OSTI ID:237778
; ;  [1];  [2]
  1. Ecole Polytechnique Federale de Lausanne (Switzerland)
  2. Calcom SA, Lausanne (Switzerland)
+ Show Author Affiliations

Grain structure formation during solidification can be simulated via the use of stochastic models providing the physical mechanisms of nucleation and dendrite growth are accounted for. With this goal in mind, a physically based cellular automaton (CA) model has been coupled with finite element (FE) heat flow computations and implemented into the code 3-MOS. The CA enmeshment of the solidifying domain with small square cells is first generated automatically from the FE mesh. Within each time-step, the variation of enthalpy at each node of the FE mesh is calculated using an implicit scheme and a Newton-type linearization method. After interpolation of the explicit temperature and of the enthalpy variation at the cell location, the nucleation and growth of grains are simulated using the CA algorithm. This algorithm accounts for the heterogeneous nucleation in the bulk and at the surface of the ingot, for the growth and preferential growth directions of the dendrites, and for microsegregation. The variation of volume fraction of solid at the cell location are then summed up at the FE nodes in order to find the new temperatures. This CAFE model, which allows the prediction and the visualization of grain structures during and after solidification, is applied to various solidification processes: the investment casting of turbine blades, the continuous casting of rods, and the laser remelting or welding of plates. Because the CAFE model is yet two-dimensional (2-D), the simulation results are compared in a qualitative way with experimental findings.

Sponsoring Organization:
USDOE
OSTI ID:
237778
Journal Information:
Metallurgical Transactions, A, Vol. 27, Issue 3; Other Information: PBD: Mar 1996
Country of Publication:
United States
Language:
English

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Related Subjects

36 MATERIALS SCIENCE
33 ADVANCED PROPULSION SYSTEMS
ALLOYS
SOLIDIFICATION
MICROSTRUCTURE
GAS TURBINE ENGINES
TURBINE BLADES
MATHEMATICAL MODELS
NUCLEATION
DENDRITES
FINITE ELEMENT METHOD
ENTHALPY
HEAT FLUX
SIMULATION
ALGORITHMS
SEGREGATION