BEGIN:VCALENDAR VERSION:2.0 PRODID:Linklings LLC BEGIN:VTIMEZONE TZID:Asia/Tokyo X-LIC-LOCATION:Asia/Tokyo BEGIN:STANDARD TZOFFSETFROM:+0900 TZOFFSETTO:+0900 TZNAME:JST DTSTART:18871231T000000 END:STANDARD END:VTIMEZONE BEGIN:VEVENT DTSTAMP:20250110T023313Z LOCATION:Hall B7 (1)\, B Block\, Level 7 DTSTART;TZID=Asia/Tokyo:20241206T113100 DTEND;TZID=Asia/Tokyo:20241206T114300 UID:siggraphasia_SIGGRAPH Asia 2024_sess144_tog_109@linklings.com SUMMARY:A Unified MPM Framework supporting Phase-field Models and Elastic- viscoplastic Phase Transition DESCRIPTION:Technical Papers\n\nZaili Tu, Chen Li, Zipeng Zhao, Long Liu, Chenhui Wang, and Changbo Wang (East China Normal University School of Co mputer Science and Technology) and Hong Qin (Stony Brook University)\n\nRe cent years have witnessed the rapid deployment of numerous physicsbased mo deling and simulation algorithms and techniques for fluids, solids, and th eir delicate coupling in computer animation. However, it still remains a c hallenging problem to model the complex elastic-viscoplastic behaviors dur ing fluid–solid phase transitions and facilitate their seamless interactio ns inside the same framework. In this article, we propose a practical meth od capable of simulating granular flows, viscoplastic liquids, elastic-pla stic solids, rigid bodies, and interacting with each other, to support nov el phenomena all heavily involving realistic phase transitions, including dissolution, melting, cooling, expansion, shrinking, and so on. At the phy sics level, we propose to combine and morph von Mises with Drucker–Prager and Cam–Clay yield models to establish a unified phasefield-driven EVP mod el, capable of describing the behaviors of granular, elastic, plastic, vis cous materials, liquid, non-Newtonian fluids, and their smooth evolution. At the numerical level, we derive the discretization form of Cahn–Hilliard and Allen–Cahn equations with the material point method to effectively tr ack the phase-field evolution, so as to avoid explicit handling of the bou ndary conditions at the interface. At the application level, we design a n ovel heuristic strategy to control specialized behaviors via user-defined schemes, including chemical potential, density curve, and so on. We exhibi t a set of numerous experimental results consisting of challenging scenari os to validate the effectiveness and versatility of the new unified approa ch. This flexible and highly stable framework, founded upon the unified tr eatment and seamless coupling among various phases, and effective numerica l discretization, has its unique advantage in animation creation toward no vel phenomena heavily involving phase transitions with artistic creativity and guidance.\n\nRegistration Category: Full Access, Full Access Supporte r\n\nLanguage Format: English Language\n\nSession Chair: Kui Wu (LightSpee d Studios) URL:https://asia.siggraph.org/2024/program/?id=tog_109&sess=sess144 END:VEVENT END:VCALENDAR