Difference between revisions of "Quantification of the Modulus of Elasticity and Dynamic Properties of Sylgard for Various Mixing Ratios, 2003-2006"

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*Steven Cespedes     
 
*Steven Cespedes     
  
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==Abstract==
 
Sylgard is a clear silicone based material that is commonly used in research laboratories for creating various experimental flow geometries. In many cases it is desirable to create the models with properties similar to that of human tissue. By mixing Sylgard at different ratios one can vary stiffness. The goal of this study was to determine what mixing ratio of Sylgard best simulates human tissues elastic properties.
 
Sylgard is a clear silicone based material that is commonly used in research laboratories for creating various experimental flow geometries. In many cases it is desirable to create the models with properties similar to that of human tissue. By mixing Sylgard at different ratios one can vary stiffness. The goal of this study was to determine what mixing ratio of Sylgard best simulates human tissues elastic properties.
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==Results==
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[[Image:sylgard.gif|thumb|right|300px|Young's modulus Vs. Ratio Sylgard 184, Dow Corning]]

Revision as of 09:09, 19 October 2009

Personell

  • Bryn A. Martin
  • Tom Kotsakos
  • Justin Stevens
  • Sebastien Nicolaon
  • Steven Cespedes

Abstract

Sylgard is a clear silicone based material that is commonly used in research laboratories for creating various experimental flow geometries. In many cases it is desirable to create the models with properties similar to that of human tissue. By mixing Sylgard at different ratios one can vary stiffness. The goal of this study was to determine what mixing ratio of Sylgard best simulates human tissues elastic properties.

Results

Young's modulus Vs. Ratio Sylgard 184, Dow Corning