English

Incremental equations in curvature-dependent surface elasticity

Mathematical Physics 2026-01-08 v1 math.MP

Abstract

We develop a general incremental framework for hyperelastic solids whose surfaces exhibit both stretch-dependent and curvature-dependent elastic behavior. Building upon a variational formulation of curvature-dependent surface elasticity, we derive compact governing equations expressed in a coordinate-free Lagrangian setting that remain valid for arbitrary geometries. Linearization about an arbitrarily large finite deformation yields incremental bulk and surface balance laws that closely resemble the classical small-on-large theory, but are now extended to include surface-curvatureinduced stresses. The applicability of the general theory is demonstrated by analyzing the onset of periodic beading in a soft cylindrical substrate coated with a surface layer exhibiting stretching- or curvature-dependent behavior, illustrating how surface stretching and bending effects influence instability thresholds for both compressible and incompressible bulk. This unified formulation thus provides a foundation for studying stability phenomena in elasto-capillary systems where surface curvature plays a critical mechanical role.

Keywords

Cite

@article{arxiv.2601.03814,
  title  = {Incremental equations in curvature-dependent surface elasticity},
  author = {Xiang Yu and Michal Šmejkal and Martin Horák},
  journal= {arXiv preprint arXiv:2601.03814},
  year   = {2026}
}
R2 v1 2026-07-01T08:54:09.198Z