Snail slime substitutes


22 March 2007

A team of engineers have set a small robot climbing walls in order to compare how natural and artificial snail slimes work.

The news is reported in the latest edition of the Royal Society of Chemistry journal Soft Matter.

A snail's slime acts as both a glue and a lubricant, allowing the snail to crawl up walls and across ceilings without falling off.

The snail pushes until the structure of the glue breaks, at which point it glides forward. When the snail stops, the glue structure reforms - sticking the snail safely to the ceiling.

The team, from the Massachusetts Institute of Technology (MIT), US, and the Catholic University of Leuven (CUL), Belgium, looked at how the cycle of glue breakdown and repair works in natural snail slime.

A snail

Snail slime acts as both a glue and a lubricant

They also studied synthetic slimes based on clay and polymers, and calculated the ideal slime properties that climbing robots would need - and found a wide range of likely candidates, including hair gel and peanut butter.

Christian Clasen, of CUL, who worked on the study, said: "Who would have thought that snails could use other soft solids such as mayonnaise or axle grease as an adhesive lubricant to climb up vertical walls?"

Co-worker Randy Ewoldt, of MIT, said: "An important result is that snail mucus per se is not required for robots to climb walls. We can make our own adhesive locomotion material with commercial products of harvesting slime from a snail farm."

Dr Ewoldt has first hand knowledge of the challenges involved in collecting snail slime.

He said: "I would entice a slug or snail with a piece of lettuce to crawl across a glass plate, and on the good days it would co-operate and leave enough of a slime trail for me to collect and test."

with thanks to Clare Boothby for the original article

Link to journal article

Rheological fingerprinting of gastropod pedal mucus and synthetic complex fluids for biomimicking adhesive locomotion
Randy H. Ewoldt, Christian Clasen, A. E. Hosoi and Gareth H. McKinley, Soft Matter, 2007, 3, 634
DOI: 10.1039/b615546d

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