This paper investigates swelling-induced eversion and flattening in curved bilayer gel beams. An explicit formula is produced to evaluate the change in curvature induced by large swelling deformations. The validity is tested against a fully coupled nonlinear three–dimensional stress-diffusion model. Limit situations for nearly-homogeneous and slightly curved beams are discussed
This paper investigates swelling-induced shaping in bilayer thin plates. Sphere-like and nearly deve...
The purpose of the research is to describe the swelling-induced large deformations in polymer gels: ...
The purpose of the research is to describe the swelling-induced large deformations in polymer gels: ...
This paper investigates swelling-induced eversion and flattening in curved bilayer gel beams. An exp...
We describe swelling-driven curving in originally straight and non-homogeneous beams. We present and...
A classical problem in structural mechanics is the evaluation of beam stretching and curvature in sl...
We investigate the swelling-induced bending of a gel bilayer beam with homogeneous beam-like compone...
The purpose of the paper is to present a class of reduced models borrowed from structural mechanics ...
Gels are widely employed in smart mechanical devices and biomedical applications. Swelling-induced b...
AbstractThe purpose of the paper is to present a class of reduced models borrowed from structural me...
A network of polymers can imbibe a large quantity of a solvent and swell, resulting in a gel. The sw...
The patterns arising from the differential swelling of gels are investigated experimentally and theo...
Strain-driven swelling and the accompanying stress reduction in polymer gels are investigated experi...
A hybrid beam containing a gel layer attached on the top of an elastic non-swellable substrate has b...
AbstractA network of polymers can imbibe a large quantity of a solvent and swell, resulting in a gel...
This paper investigates swelling-induced shaping in bilayer thin plates. Sphere-like and nearly deve...
The purpose of the research is to describe the swelling-induced large deformations in polymer gels: ...
The purpose of the research is to describe the swelling-induced large deformations in polymer gels: ...
This paper investigates swelling-induced eversion and flattening in curved bilayer gel beams. An exp...
We describe swelling-driven curving in originally straight and non-homogeneous beams. We present and...
A classical problem in structural mechanics is the evaluation of beam stretching and curvature in sl...
We investigate the swelling-induced bending of a gel bilayer beam with homogeneous beam-like compone...
The purpose of the paper is to present a class of reduced models borrowed from structural mechanics ...
Gels are widely employed in smart mechanical devices and biomedical applications. Swelling-induced b...
AbstractThe purpose of the paper is to present a class of reduced models borrowed from structural me...
A network of polymers can imbibe a large quantity of a solvent and swell, resulting in a gel. The sw...
The patterns arising from the differential swelling of gels are investigated experimentally and theo...
Strain-driven swelling and the accompanying stress reduction in polymer gels are investigated experi...
A hybrid beam containing a gel layer attached on the top of an elastic non-swellable substrate has b...
AbstractA network of polymers can imbibe a large quantity of a solvent and swell, resulting in a gel...
This paper investigates swelling-induced shaping in bilayer thin plates. Sphere-like and nearly deve...
The purpose of the research is to describe the swelling-induced large deformations in polymer gels: ...
The purpose of the research is to describe the swelling-induced large deformations in polymer gels: ...
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