Save the Date

These are some upcoming events that you may want to watch out for.

• December 2 at 1:00pm
  AIDS Quilt on Display
• December 2 at 5:00pm
  Open Forum on the European Union - A Two Part Series
• December 3 at 9:00am
  Witnesses to Hunger Exhibit
• December 3 at 7:30pm
  Public Observing at the Strawbridge Observatory
• December 3 at 7:30pm
  Witnesses to Hunger
• December 4 at 4:30pm
  Talk by Fine Arts Visitor, Don Kimes
• December 5 at 4:30pm
  Opening Reception & Artist Talk with Pato Hebert
• December 6 at 12:00pm
  Photo Movements: Works by Pato Hebert
• December 7 at 3:00pm
  Fall Concert by the Haverford-Bryn Mawr Chorale
• February 7 at 8:00pm
  Guest Artist Series: Lyric Fest
• February 21 at 3:00pm
  Music from China
• February 27 at 8:00pm
  Guest Artist Series: William Appling, piano

Philips Visit: Robin Selinger - Modeling Liquid Crystal Elastomers: Actuators, Pumps, and Robots

Philips Visit: Robin Selinger - Modeling Liquid Crystal Elastomers: Actuators, Pumps, and Robotshttp://www.haverford.edu/calendar/details/68832KINSC Hilles 109 2008-10-28T16:30:002008-10-28T18:00:00

October 28, 4:30PM

KINSC Hilles 109

Talk by Robin Selinger, Liquid Crystal Institute, Kent State University. Physics Colloquium speaker.

Description

Liquid crystal elastomers, sometimes called "artificial muscles," combine the elastic properties of rubber with the molecular order properties of liquid crystals. These soft actuators undergo strains of several hundred percent in response to changes in temperature, illumination, or applied fields. We model the shape-change dynamics of these fascinating materials and explore designs for devices such as peristaltic pumps and self-propelled soft robots. We also present simulation studies of soft elastic response and microstructural evolution under applied strain. The long-term goal of this work is to build a bridge between basic soft matter theory and practical materials engineering/device design. Work supported by the US National Science Foundation DMR-0605889.Liquid crystal elastomers, sometimes called "artificial muscles," combine the elastic properties of rubber with the molecular order properties of liquid crystals. These soft actuators undergo strains of several hundred percent in response to changes in temperature, illumination, or applied fields. We model the shape-change dynamics of these fascinating materials and explore designs for devices such as peristaltic pumps and self-propelled soft robots. We also present simulation studies of soft elastic response and microstructural evolution under applied strain. The long-term goal of this work is to build a bridge between basic soft matter theory and practical materials engineering/device design. Work supported by the US National Science Foundation DMR-0605889.

Physics Colloquium Talk. Tea at 4:15 P.M.

For More Info

Suzanne Amador Kane
610-896-1198
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