A Lagrangian particle advection technique in a time-reparameterized spacetime formulation visualizes coherent heat transport paths and attracting/repelling structures in unsteady convective flows.
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High-fidelity multiphysics simulations of laser powder bed fusion melt pools match 2025 NIST experimental data across depth, width, bead height, overlap, and area metrics for varied powder heights and geometries.
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Visualizing Lagrangian Heat Transport Paths and Density Structures in Unsteady Heat Transfer
A Lagrangian particle advection technique in a time-reparameterized spacetime formulation visualizes coherent heat transport paths and attracting/repelling structures in unsteady convective flows.
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Laser Powder Bed Fusion Melt Pool Dynamics for Different Geometric Variations and Powder Layer Heights: High-Fidelity Multiphysics Modeling vs 2025 NIST Experiments
High-fidelity multiphysics simulations of laser powder bed fusion melt pools match 2025 NIST experimental data across depth, width, bead height, overlap, and area metrics for varied powder heights and geometries.