The surface tension of compliant materials such as gels provides resistance to deformation in addition to and sometimes surpassing that due to elasticity. This article studies how surface tension changes the contact mechanics of a small hard sphere indenting a soft elastic substrate. Previous studies have examined the special case where the external load is zero, so contact is driven by adhesion alone. Here we tackle the much more complicated problem where, in addition to adhesion, deformation is driven by an indentation force. We present an exact solution based on small strain theory. The relation between indentation force (displacement) and contact radius is found to depend on a single dimensionless parameter
Using a thermodynamical approach, we calculate the deformation of a spherical elastic particle place...
When a soft hydrogel sphere is placed on a rigid hydrophilic substrate, it undergoes arrested spread...
Solid contacts involving soft materials are important in mechanical engineering or biomechanics. Exp...
Surface stresses have recently emerged as a key player in the mechanics of highly compliant solids. ...
Classical continuum mechanics often neglects the contribution of interfaces to the deformation of so...
AbstractThis paper examines the frictionless adhesive elastic contact problem of a rigid sphere inde...
Indentation has been intensively used to characterize mechanical properties of soft materials such a...
This paper examines the frictionless adhesive elastic contact problem of a rigid sphere indenting a ...
152 pagesThis dissertation presents part of my recent effort to understand complex surface mechanica...
Surface effect in three different axisymmetric Hertzian contact models is investigated in this paper...
The elastic and adhesive properties of a solid surface can be quantified by indenting it with a rigi...
In the last decade; instrumented macro- and nano-indentation tests have become useful tools for prob...
In the present paper we investigate indentation of a power-law axisymmetric rigid probe in adhesive ...
Tissue cells can sense mechanical properties of their surroundings, which, in vitro, generally refer...
The present work proposes an extension of Oliver-Pharr analysis [J. Mater. Res. 7, 1564 (1992)] of u...
Using a thermodynamical approach, we calculate the deformation of a spherical elastic particle place...
When a soft hydrogel sphere is placed on a rigid hydrophilic substrate, it undergoes arrested spread...
Solid contacts involving soft materials are important in mechanical engineering or biomechanics. Exp...
Surface stresses have recently emerged as a key player in the mechanics of highly compliant solids. ...
Classical continuum mechanics often neglects the contribution of interfaces to the deformation of so...
AbstractThis paper examines the frictionless adhesive elastic contact problem of a rigid sphere inde...
Indentation has been intensively used to characterize mechanical properties of soft materials such a...
This paper examines the frictionless adhesive elastic contact problem of a rigid sphere indenting a ...
152 pagesThis dissertation presents part of my recent effort to understand complex surface mechanica...
Surface effect in three different axisymmetric Hertzian contact models is investigated in this paper...
The elastic and adhesive properties of a solid surface can be quantified by indenting it with a rigi...
In the last decade; instrumented macro- and nano-indentation tests have become useful tools for prob...
In the present paper we investigate indentation of a power-law axisymmetric rigid probe in adhesive ...
Tissue cells can sense mechanical properties of their surroundings, which, in vitro, generally refer...
The present work proposes an extension of Oliver-Pharr analysis [J. Mater. Res. 7, 1564 (1992)] of u...
Using a thermodynamical approach, we calculate the deformation of a spherical elastic particle place...
When a soft hydrogel sphere is placed on a rigid hydrophilic substrate, it undergoes arrested spread...
Solid contacts involving soft materials are important in mechanical engineering or biomechanics. Exp...