Add to ORKGGeckos possess a remarkable ability to run rapidly on both walls and ceilings and in recent years the mechanisms that underlie this facility have come under close scrutiny. It is now generally agreed that one of the principal mechanisms of adhesion relies on the action of van der Waal forces acting between the final extremely fine structure of the gecko toe and the underlying substrate. High speed video analysis shows that adhesive contact is both made and broken in intervals of less than 20 ms and this suggests that the mechanism of detachment is one of adhesive instability rather than steady-state peeling. By considering the gecko seta/spatula as a Euler-Bernoulli cantilever it is possible to model this instability in non-dimensional term...
Biomechanical models of the gecko adhesive system typically focus on setal mechanics from a single g...
The study of the adhesion of millions of setae on the toes of geckos has been advanced in recent yea...
In this paper, we report experimental measurements of normal adhesive force versus body displacement...
Geckos possess a remarkable ability to run rapidly on both walls and ceilings and in recent years th...
Graduation date: 2015Simulation models were developed to explore the reversible nature of gecko dry\...
SYNOPSIS. The extraordinary adhesive capabilities of geckos have challenged explanation for millenni...
SYNOPSIS. The extraordinary adhesive capabilities of geckos have challenged explanation for millenni...
This is the publisher’s final pdf. The published article is copyrighted by the American Institute of...
Gecko and many insects have evolved specialized adhesive tissues with hierarchical structures that a...
Geckos can freely climb on walls and ceilings against their body weight at speed of over 1ms-1. Swit...
Geckos can climb steadily and quickly on different surfaces under various environmental conditions. ...
AbstractGeckos can climb steadily and quickly on different surfaces under various environmental cond...
Gecko has remarkable ability to control its adhesion and friction during running to realize a swift ...
Abstract In this study, the adhesion‐detachment behaviour of a gecko‐inspired adhesive pad was inves...
Biomechanical models of the gecko adhesive system typically focus on setal mechanics from a single g...
Biomechanical models of the gecko adhesive system typically focus on setal mechanics from a single g...
The study of the adhesion of millions of setae on the toes of geckos has been advanced in recent yea...
In this paper, we report experimental measurements of normal adhesive force versus body displacement...
Geckos possess a remarkable ability to run rapidly on both walls and ceilings and in recent years th...
Graduation date: 2015Simulation models were developed to explore the reversible nature of gecko dry\...
SYNOPSIS. The extraordinary adhesive capabilities of geckos have challenged explanation for millenni...
SYNOPSIS. The extraordinary adhesive capabilities of geckos have challenged explanation for millenni...
This is the publisher’s final pdf. The published article is copyrighted by the American Institute of...
Gecko and many insects have evolved specialized adhesive tissues with hierarchical structures that a...
Geckos can freely climb on walls and ceilings against their body weight at speed of over 1ms-1. Swit...
Geckos can climb steadily and quickly on different surfaces under various environmental conditions. ...
AbstractGeckos can climb steadily and quickly on different surfaces under various environmental cond...
Gecko has remarkable ability to control its adhesion and friction during running to realize a swift ...
Abstract In this study, the adhesion‐detachment behaviour of a gecko‐inspired adhesive pad was inves...
Biomechanical models of the gecko adhesive system typically focus on setal mechanics from a single g...
Biomechanical models of the gecko adhesive system typically focus on setal mechanics from a single g...
The study of the adhesion of millions of setae on the toes of geckos has been advanced in recent yea...
In this paper, we report experimental measurements of normal adhesive force versus body displacement...