International audienceMindlin [22] wrote a milestone paper claiming that a second strain gradient theory is required for a continuum description of volume cohesion and surface tension in isotropic elastic media. The objective of the present work is to compare Mindlin's approach to more standard capillarity models based on a first strain gradient theory and Korteweg's equation. A general micromorphic model is then proposed as a numerical method to implement Mindlin's theory in a finite element code
In this paper, Mindlin’s second strain gradient theory is formulated and presented in an arbitrary o...
Second-gradient theories represent a frequently used subset of theories of continua with microstruct...
The paper elaborates on the statistical interpretation of a class of gradient models by resorting to...
Local dilatancy and solid-fluid surface tension are two of the driving micro-phenomena which charact...
The fundamental equations for Form II of Mindlin's second strain gradient elasticity theory for isot...
International audienceA stress gradient continuum theory is presented that fundamentally differs fro...
Second gradient theories have been developed in mechanics for treating different phenomena as capill...
In this paper a stationary action principle is proved to hold for capillary fluids, i.e. fluids for ...
AbstractSecond gradient theories have been developed in mechanics for treating different phenomena a...
9 pagesInternational audienceThe classical theory of Laplace is not suitable for describing the beha...
International audienceIn this paper a stationary action principle is proven to hold for capillary fl...
AbstractMindlin, in his celebrated papers of Arch. Rat. Mech. Anal. 16, 51–78, 1964 and Int. J. Soli...
A gradient theory of grade two based on an axiomatic conception of a nonlocal continuum theory for m...
As Piola would have surely conjectured, the stationary action principle holds also for capillary uid...
A class of phenomenological strain gradient plasticity theories is formulated to accommodate more th...
In this paper, Mindlin’s second strain gradient theory is formulated and presented in an arbitrary o...
Second-gradient theories represent a frequently used subset of theories of continua with microstruct...
The paper elaborates on the statistical interpretation of a class of gradient models by resorting to...
Local dilatancy and solid-fluid surface tension are two of the driving micro-phenomena which charact...
The fundamental equations for Form II of Mindlin's second strain gradient elasticity theory for isot...
International audienceA stress gradient continuum theory is presented that fundamentally differs fro...
Second gradient theories have been developed in mechanics for treating different phenomena as capill...
In this paper a stationary action principle is proved to hold for capillary fluids, i.e. fluids for ...
AbstractSecond gradient theories have been developed in mechanics for treating different phenomena a...
9 pagesInternational audienceThe classical theory of Laplace is not suitable for describing the beha...
International audienceIn this paper a stationary action principle is proven to hold for capillary fl...
AbstractMindlin, in his celebrated papers of Arch. Rat. Mech. Anal. 16, 51–78, 1964 and Int. J. Soli...
A gradient theory of grade two based on an axiomatic conception of a nonlocal continuum theory for m...
As Piola would have surely conjectured, the stationary action principle holds also for capillary uid...
A class of phenomenological strain gradient plasticity theories is formulated to accommodate more th...
In this paper, Mindlin’s second strain gradient theory is formulated and presented in an arbitrary o...
Second-gradient theories represent a frequently used subset of theories of continua with microstruct...
The paper elaborates on the statistical interpretation of a class of gradient models by resorting to...