MechE Colloquium: Friction: from building the pyramids to the anatomy of individual contacts at the nanoscale

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Event details

Date 13.03.2018
Hour 12:1513:15
Speaker Prof. Daniel Bonn, Director of van der Waals-Zeeman Institute, University of Amsterdam
Location
Category Conferences - Seminars
Abstract:
I will discuss the rheology and mechanical properties of wet granular materials, and show why the behavior can be very subtle. Once one understands the mechanical properties, I will show that one can use this knowledge to construct the perfect sandcastle or to understand why the ancient Egyptians wetted the desert sand with water before sliding heavy stones over it (Figure).

I will then go on to show some new results on friction at the microscopic scale, between 2 grains. Amonton’s famous friction law states that the friction force is proportional to the normal force since both are proportional to the area of contact. However, for spherical grains, the contact area is not proportional to the normal force, as shown by Hertz long ago. We use a new fluorescence technique that allows us to probe the real area of contact between 2 rough surfaces. In our case, we conclude that important deviations from Amonton’s law are observed.

Bio:
Daniel Bonn is director of the van der Waals-Zeeman Institute of the University of Amsterdam. He is also group leader of the Soft Matter Group, which  totals about 30 people. Before coming to Amsterdam recently, he was a CNRS research director at the Ecole Normale Supérieure in Paris, where he led the ‘complex fluids’ group. He published more than 250 papers on wetting, complex fluids, hydrodynamics and mechanics. In the past few years, he developed a large amount of industrial collaborations such as with Michelin, SKF and Unilever, Shell,  DSM, Akzo Nobel, ASML etc. Bonn is also co-founder of the startup company GreenA that just received a Round A investment from a venture capital firm.

Practical information

  • General public
  • Free

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MechE Colloquium: Friction: from building the pyramids to the anatomy of individual contacts at the nanoscale

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