Mech. Eng. Dept. SUNY Binghamton Binghamton NY;
colloids; contact angle; drops; evaporation; ink jet printing; jamming; lattice Boltzmann methods; multiphase flow; suspensions; wetting; adhesive forces; colloidal drop dynamics; colloidal jamming; contact angle hysteresis; contact line motion; inkjet-printed colloidal drop wetting; lattice Boltzmann simulation; liquid-vapor multiphase flow; particle suspension model; patterned substrates; printable electronics fabrication; single component multiphase model; stick-slip behavior; Lattice Boltzmann method; inkjet printing; particle suspensions;
机译:用于可印刷电子制造的图案化基板上胶体液滴沉积动力学的数值模拟
机译:粒度和基材表面性质对喷墨印刷胶体液滴沉积动力学的影响
机译:图案化基材上液滴的稳定性和动力学:实验和晶格玻尔兹曼模拟的见解
机译:用于可印刷电子制造的图案化基板上胶体液滴动力学的格子Boltzmann模拟
机译:Lattice Boltzmann模型用于滴落碰撞的仿真。
机译:滑移条件下矩形微通道水力入口区域的格子玻尔兹曼模拟
机译:可打印电子设备制造的动态集集元件建模的动态集总元件模型滴下的喷墨打印头性能增强