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We present the Moving Eulerian-Lagrangian Particles (MELP), a novel mesh-free method for simulating incompressible fluid on thin films and foams. Employing a bi-layer particle structure, MELP jointly simulates detailed, vigorous flow and large surface deformation at high stability and efficiency. In addition, we design multi-MELP: a mechanism that facilitates the physically-based interaction between multiple MELP systems, to simulate bubble clusters and foams with non-manifold topological evolution. We showcase the efficacy of our method with a broad range of challenging thin film phenomena, including the Rayleigh-Taylor instability across double-bubbles, foam fragmentation with rim surface tension, recovery of the Plateau borders, Newton black films, as well as cyclones on bubble clusters.more » « less
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Feng, Fan ; Xiong, Shiying ; Liu, Ziyue ; Xian, Zangyueyang ; Zhou, Yuqing ; Kobayashi, Hiroki ; Kawamoto, Atsushi ; Nomura, Tsuyoshi ; Zhu, Bo ( , International Journal for Numerical Methods in Engineering)
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Liu, Jinyuan ; Xian, Zangyueyang ; Zhou, Yuqing ; Nomura, Tsuyoshi ; Dede, Ercan M. ; Zhu, Bo ( , Structural and Multidisciplinary Optimization)