Simulation analysis on surface morphology and hysteresis characteristics of molten Sn–3.0Ag–0.5Cu sitting on the inclined Ni substrate

“…1-4 become a bottleneck, preventing minimization. The second method that addresses this problem is to omit face 6 and define a vector field energy function around the edges 1-4 of face 6 (Rayner et al, 2004;B. Xu et al, 2014).…”

“…However, once face 6 is constrained, vertices 1–4 become a bottleneck, preventing minimization. The second method that addresses this problem is to omit face 6 and define a vector field energy function around the edges 1–4 of face 6 (Rayner et al., 2004; B. Xu et al., 2014). This vector field energy function uses integrals on the three‐phase contact line to account for the virtual contact energy.…”

A Hysteretic Model Considering Contact Angle Hysteresis for Fitting Soil‐Water Characteristic Curves

“…1-4 become a bottleneck, preventing minimization. The second method that addresses this problem is to omit face 6 and define a vector field energy function around the edges 1-4 of face 6 (Rayner et al, 2004;B. Xu et al, 2014).…”

“…However, once face 6 is constrained, vertices 1–4 become a bottleneck, preventing minimization. The second method that addresses this problem is to omit face 6 and define a vector field energy function around the edges 1–4 of face 6 (Rayner et al., 2004; B. Xu et al., 2014). This vector field energy function uses integrals on the three‐phase contact line to account for the virtual contact energy.…”

A Hysteretic Model Considering Contact Angle Hysteresis for Fitting Soil‐Water Characteristic Curves

“…图 3 (网络版彩图) 不同组元锡基合金接触角滞后性与温 度的关系 [25,27] 3 微重力条件下锡基合金的润湿性研究 研究微重力条件下锡基合金的流动特点对揭示锡 晶须自生长机理及开发无铅焊锡合金材料有重要意 图 4 (网络版彩图) 不同倾角基板上的Sn-3.0Ag-0.5Cu合金熔滴形貌模拟及三相线移动模拟 [26,34] . (a) 理论形貌模拟; (b) 熔滴 三相线移动模拟…”

“…Color online) Morphology simulation and three-phase line movement simulation of Sn-3.0Ag-0.5Cu alloy droplets on different titled substrates[26,34]. (a) Theoretical morphology simulation; (b) three-phase line movement simulation.…”

Wettability of high-temperature melts under microgravity and ground gravity conditions

“…The use of the Surface Evolver simulation tool [4,[17][18][19] is able to yield other non-circular footprints. Alternative approaches numerically obtain the footprint shapes considering an hybrid diffuse interface with smoothed particle hydrodynamics model [20], or an equilibrium variation approach which accounts for a drop's virtual motion on the footprint [21].…”

Contact-angle-hysteresis effects on a drop sitting on an incline plane