Animations List

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(Microscale Animations)
(Microscale Animations)
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== Microscale Animations ==
 
== Microscale Animations ==
[[Image: DDD_simulation_of_FR_Source_in_Iron.gif|left‎]]
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[[Image: DDD_simulation_of_FR_Source_in_Iron.gif|left‎]]<ref> Raabe, Dierk. [http://www.dierk-raabe.com/movies-and-animations/discrete-dislocation-dynamics-ddd/] </ref>
  
 
== Nanoscale Animations ==
 
== Nanoscale Animations ==

Revision as of 18:58, 2 December 2013

Contents

Structural Scale Animations

A comparative study of design optimisation methodologies for side-impact crashworthiness,using injury-based versus energy-based criterion. [1].

A study on the structure and mechanical behavior of the Terrapene carolina carapace:A pathway to design bio-inspired synthetic composites

[2]


Movie capturing high strain rate deformation of polycarbonate.  Shown as a difference image between successive frames, so movement triggers an intensity other than gray.

Movie capturing high strain rate deformation of polycarbonate.

Macroscale Animations

Mesoscale Animations

Microscale Animations

left‎[3]

Nanoscale Animations

 Tensile Loading of an Aluminum Single Crystal.  Movie showing deformation of single crystal aluminum loaded in the <100> direction at a strain rate of 1010 s-1 and a temperature of 300 K.

 Polymer Atomistic Research.  Movie showing deformation of an amorphous polyethylene structure with 20 chains of 1000 monomers length.  The strain rate is 1010 s-1 and the temperature is 100 K[4][5].

Electronic Scale Animations

References

  1. M.F. Horstemeyer, X.C. Ren,H. Fang, E. Acar,and P.T. Wang, "A comparative study of design optimisation methodologies for side-impact crashworthiness,using injury-based versus energy-based criterion," International Journal of Crashworthiness,Vol. 14, No. 2, April 2009, 125–138. --link
  2. H. Rhee, M.F. Horstemeyer,Y. Hwang,H. Lim,H. El Kadiri, W. Trim "A study on the structure and mechanical behavior of the Terrapene carolina carapace:A pathway to design bio-inspired synthetic composites," Materials Science and Engineering,29 (2009) 2333–2339--link
  3. Raabe, Dierk. [1]
  4. Hossain, D., Tschopp, M.A., Ward, D.K., Bouvard, J.L., Wang, P., Horstemeyer, M.F.,"Molecular dynamics simulations of deformation mechanisms of amorphous polyethylene," Polymer, 51 (2010) 6071-6083.
  5. Tschopp, M.A., Ward, D.K., Bouvard, J.L., Horstemeyer, M.F., "Atomic Scale Deformation Mechanisms of Amorphous Polyethylene under Tensile Loading," TMS 2011 Conference Proceedings, accepted.
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