A KDMC-based particle-level distribution decomposition for neutral transport with a Chapman-Enskog-derived fluid system, achieving ~500x speedup and ~10% L2 error versus full kinetic MC in 1D CX-dominant tests.
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Niobium stabilizes the beta phase and increases symmetry in alpha double-prime martensite while oxygen suppresses omega phase at low niobium but inhibits long-range martensitic transformation at high niobium levels in Ti-Nb-O alloys.
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A kinetic-diffusion Monte Carlo-based particle-level fluid-kinetic decomposition for neutral transport simulations
A KDMC-based particle-level distribution decomposition for neutral transport with a Chapman-Enskog-derived fluid system, achieving ~500x speedup and ~10% L2 error versus full kinetic MC in 1D CX-dominant tests.
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The effect of Nb and O on the martensitic transformation in the Ti-Nb-O alloys
Niobium stabilizes the beta phase and increases symmetry in alpha double-prime martensite while oxygen suppresses omega phase at low niobium but inhibits long-range martensitic transformation at high niobium levels in Ti-Nb-O alloys.