Meshless simulation of a macrosegregation benchmark considering the solid motionGovže, Viktor (Avtor) Vušanović, Igor (Avtor) Šarler, Božidar (Avtor) solidificationmeshless methodsgrain motionbenchmarksWe have extended the existing two-dimensional rigid solid phase benchmark for binary substance with the solid phase motion in the present paper. Incompressible laminar Newtonian flow is assumed, and a standard mixture formulation is used for the mass, momentum, energy, and solute transport. A coherency solid motion model accounts for the free-floating grains, assuming that the solid velocity is proportional to the mixture velocity and the liquid fraction. The lever rule is used to describe the mass fractions of the phases. A two-dimensional benchmark is solved using the semi-implicit meshless diffuse approximate method with an adaptive subdomain upwinding strategy. The results of the meshless method are compared to the finite volume method results with a reasonable agreement. The new benchmark results show that the solid motion has an essential effect on the macrosegregation pattern.IOP Publishing20232024-03-21 08:38:14Neznano18503UDK: 519.61ISSN pri članku: 1757-8981DOI: 10.1088/1757-899X/1281/1/012039COBISS_ID: 153238787OceCobissID: 153238531Anglijasl