Well-posedness of a bulk-surface convective Cahn–Hilliard system with dynamic boundary conditions

Patrik Knopf, Jonas Stange
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Abstract

We consider a general class of bulk-surface convective Cahn–Hilliard systems with dynamic boundary conditions. In contrast to classical Neumann boundary conditions, the dynamic boundary conditions of Cahn–Hilliard type allow for dynamic changes of the contact angle between the diffuse interface and the boundary, a convection-induced motion of the contact line as well as absorption of material by the boundary. The coupling conditions for bulk and surface quantities involve parameters \(K,L\in [0,\infty ]\), whose choice declares whether these conditions are of Dirichlet, Robin or Neumann type. We first prove the existence of a weak solution to our model in the case \(K,L\in (0,\infty )\) by means of a Faedo–Galerkin approach. For all other cases, the existence of a weak solution is then shown by means of the asymptotic limits, where K and L are sent to zero or to infinity, respectively. Eventually, we establish higher regularity for the phase-fields, and we prove the uniqueness of weak solutions given that the mobility functions are constant.

具有动态边界条件的体表对流卡恩-希利亚德系统的良好拟合性
我们考虑了一类具有动态边界条件的体表对流卡恩-希利亚德系统。与经典的诺伊曼边界条件不同,Cahn-Hilliard 类型的动态边界条件允许扩散界面与边界之间接触角的动态变化、接触线的对流运动以及边界对物质的吸收。体量和表面量的耦合条件涉及参数(K,L,in [0,\infty]\),参数的选择决定了这些条件是狄利克特、罗宾还是诺依曼类型的。我们首先通过 Faedo-Galerkin 方法证明了在 \(K,L\in (0,\infty )\) 情况下模型弱解的存在性。对于所有其他情况,我们通过渐近极限来证明弱解的存在,其中 K 和 L 分别被置零或置无穷大。最后,我们为相场建立了更高的正则性,并证明了在流动函数恒定的情况下弱解的唯一性。
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