Add to ORKGThis paper describes a technique for animating the behavior of viscoelastic fluids, such as mucus, liquid soap, pudding, toothpaste, or clay, that exhibit a combination of both fluid and solid characteristics. The technique builds upon prior Eulerian methods for animating incompressible fluids with free surfaces by including additional elastic terms in the basic Navier-Stokes equations. The elastic terms are computed by integrating and advecting strain-rate throughout the fluid. Transition from elastic resistance to viscous flow is controlled by von Mises's yield condition, and subsequent behavior is then governed by a quasi-linear plasticity model
Existing approaches to simulate the bubble growth/collapse in viscoelastic liquids use the integral ...
International audienceFoams, gels, emulsions, polymer solutions, pastes and even cell assemblies dis...
This work focuses on the dynamics of rubber-like elastic particles (e.g., microgel particles) in vis...
This paper describes a technique for animating the behavior of viscoelastic fluids, such as mucus, l...
In this thesis we describe a technique for animating the behavior of viscoelastic fluids such as muc...
International audienceThis paper proposes a practical technique for fast animation of materials such...
Applications ranging from commercial entertainment to surgical training demand efficient methods for...
Abstract—This paper proposes a practical technique for fast animation of materials such as viscoelas...
Free-surface flows are ubiquitous in our lives. Almost all flows we encounter as human beings are of...
Among non-Newtonian fluid models, purely viscous constitutive equations play an important role in in...
Four constitutive equations have been used to describe the behaviour of viscoelastic fluids viz., (i...
Can the deformation of a solid body during plastic flow be assumed to be similar to that of fluids? ...
International audienceFrom a thermodynamic theory, a new model for elastoviscoplastic fluid flow is ...
We propose and study methods to improve tactile intuition for linear viscoelastic fluids. This inclu...
Yield stress fluids, or as often referred to as viscoplastic fluids , combine the behavior of solid...
Existing approaches to simulate the bubble growth/collapse in viscoelastic liquids use the integral ...
International audienceFoams, gels, emulsions, polymer solutions, pastes and even cell assemblies dis...
This work focuses on the dynamics of rubber-like elastic particles (e.g., microgel particles) in vis...
This paper describes a technique for animating the behavior of viscoelastic fluids, such as mucus, l...
In this thesis we describe a technique for animating the behavior of viscoelastic fluids such as muc...
International audienceThis paper proposes a practical technique for fast animation of materials such...
Applications ranging from commercial entertainment to surgical training demand efficient methods for...
Abstract—This paper proposes a practical technique for fast animation of materials such as viscoelas...
Free-surface flows are ubiquitous in our lives. Almost all flows we encounter as human beings are of...
Among non-Newtonian fluid models, purely viscous constitutive equations play an important role in in...
Four constitutive equations have been used to describe the behaviour of viscoelastic fluids viz., (i...
Can the deformation of a solid body during plastic flow be assumed to be similar to that of fluids? ...
International audienceFrom a thermodynamic theory, a new model for elastoviscoplastic fluid flow is ...
We propose and study methods to improve tactile intuition for linear viscoelastic fluids. This inclu...
Yield stress fluids, or as often referred to as viscoplastic fluids , combine the behavior of solid...
Existing approaches to simulate the bubble growth/collapse in viscoelastic liquids use the integral ...
International audienceFoams, gels, emulsions, polymer solutions, pastes and even cell assemblies dis...
This work focuses on the dynamics of rubber-like elastic particles (e.g., microgel particles) in vis...