Animations List

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(Structural Scale Animations)
(Structural Scale Animations)
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A study on the effect of impacts to the head in a football helmet: <br> [[Image:HelmetHeadImpactv3.gif]] <br><br>
 
A study on the effect of impacts to the head in a football helmet: <br> [[Image:HelmetHeadImpactv3.gif]] <br><br>
  
NOCSAE drop test of Riddell 360 Football helmet with and without face mask attached: <br> [[Image:Rawlings-Combined_32Percent.gif|700px]] <br><br>
+
NOCSAE drop test of Riddell 360 Football helmet with and without face mask attached by Alston Rush (RPPS): <br> [[Image:Rawlings-Combined_32Percent.gif|700px]] <br><br>
  
NOCSAE drop test of Rawlings Quantum Plus Football helmet with and without face mask attached: <br> [[Image:Riddell-360-Combined_32Percent.gif|700px]] <br><br>
+
NOCSAE drop test of Rawlings Quantum Plus Football helmet with and without face mask attached by Alston Rush (RPPS): <br> [[Image:Riddell-360-Combined_32Percent.gif|700px]] <br><br>
  
 
Bat to ball impact:<ref name="unpublished"></ref> <br> [[Image:Bat_impact.gif|700px]] <br><br>
 
Bat to ball impact:<ref name="unpublished"></ref> <br> [[Image:Bat_impact.gif|700px]] <br><br>

Revision as of 10:54, 10 June 2014

Contents

Structural Scale Animations

A comparative study of design optimisation methodologies for side-impact crashworthiness, using injury-based versus energy-based criterion:[1] 110Rendummycrash.gif

Dodge Neon side impact:[1]
120neonsideimpact.gif

Dodge Neon front impact:[1]
Front impact.gif

Crash of an all steel vehicle[2]
PNGV.vehicle.gif

Finite element analysis of bus impact:
Finite element champion bus side impact.gif

A study on the effect of impacts to the head in a football helmet:
HelmetHeadImpactv3.gif

NOCSAE drop test of Riddell 360 Football helmet with and without face mask attached by Alston Rush (RPPS):
Rawlings-Combined 32Percent.gif

NOCSAE drop test of Rawlings Quantum Plus Football helmet with and without face mask attached by Alston Rush (RPPS):
Riddell-360-Combined 32Percent.gif

Bat to ball impact:[2]
Bat impact.gif

A study on the structure and mechanical behavior of the Terrapene carolina carapace:A pathway to design bio-inspired synthetic composites[3]:


120turtlepaper2009.gif


High strain rate deformation of polycarbonate. Shown as a difference image between successive frames, so movement triggers an intensity other than gray:
PC 2 difference.gif

High strain rate deformation of polycarbonate:
PC 2 lowres.gif

Tube forming process from sheet steel:
Animation ICME5.gif

Pressure wave propagation at hyoid bone:
Hyoid pressure.gif

A7 steel tension test performed on an Instron 5882:
A7 Tension.gif

A study on the effects of blast loading and failure of a building exterior cladding and its column collapse: [4]


      Femaframe g1.gif


Femaframe s1.gif



A simulation using Active Mesh Refinement to model spalling of metal from 2D penetrating fragment and 3D bullet impact:

Frag pen.gif

Bullet 1.gif


A simulation of high velocity bullet impacting a square composite plate:

Bullet-rate.gif

Internal State Variable Plasticity Damage Modeling of Copper Tee-Shaped Tube Hydroforming Process[5]
Hydroforming-Isdyna-profile.gif

A different viewpoint[5]
Hydroforming-Isydna-iso.gif


CTH simulation showing a bullet penetrating a metal armor[2]
Matsbullet.gif

Application of internal state variable plasticity and damage models to welding[6]
Welding.gif

Finite element simulation of Columbia Space Shuttle foam impact on the graphite-epoxy composite nose cone[2]
130ks.gif

Finite element simulation of Columbia Space Shuttle foam impact on the foam panels[2]
Columbiaedge.gif

CTH simulation of Chicxulub meteor strike[7]
Meteorimpact1.gif

A rock going through the groove of a tire simulation on a road[2]
TIRE.gif

Finite element simulation of the front edge of the Des Moines ice sheet showing surging[8]
IceSurfaceGliding.gif

Macroscale Animations

Notch Tensile Test[9]
Notchtensiletest.gif

Mesoscale Animations

Finite element shock wave progression showing decohesion at grain boundaries with an initial void.[10]:
10GBHOLE.gif

Microscale Animations

left‎ [11]


A Multiscale Model of Plasticity Based on Discrete Dislocation Dynamics[12]:
Dd.dipole.gif DDOneFrSmall.gif

Nanoscale Animations

A molecular dynamics study of void growth and void coalescence in single crystal nickel[13]
Voidtension.gif

Atomistic Simulations of Bauschinger Effects of Metals with High Angle and Low Angle Grain Boundaries[14]:
EAM.Free HiGB Dfgrd.gif

[14] EAM.centro.tension (1).gif

Multiscale Study of Dynamic Void Collapse in Single Crystals[15]
Cu1.gif

 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[16][17].

Electronic Scale Animations

References

  1. 1.0 1.1 1.2 Horstemeyer, M.F.; X.C. Ren; H. Fang; E. Acar; 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, 1754-2111, Vol. 14, No. 2, April 2009, 125–138. --link
  2. 2.0 2.1 2.2 2.3 2.4 2.5 Unpublished
  3. 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
  4. Wince, J. [1] and Vaughan, D., Development of High Fidelity Physics Based Fast Running Model for Progressive Collapse Assessment of Above Ground Fixed Structures, Proceedings of the AIAA Missile Science Conference, November 2006.
  5. 5.0 5.1 Crapps, J., Marin, EB, Horstemeyer, MF, Yassar, R, and Wang, PT, "Internal State Variable Plasticity Damage Modeling of Copper Tee-Shaped Tube Hydroforming Process," J. Matls. Proc. Tech, ASME, 1726-1737, 2010.
  6. Dike, J.J.; Ortega, A.R.; Bammann, D.J.; Lathrop, J.F., "Application of internal state variable plasticity and damage models to welding," June 1997.
  7. Mowry, J.L., "High Strain Rate Finite Element Simulations," Mississippi State University, August 2007.
  8. Sherburn, M. S., Horstemeyer, M. F., Solanki, K., "Simulation Analysis of Glacial Surging in the Des Moines Ice Lobe, 2008"
  9. Horstemeyer, M.F., Gall, K.A., Dolan, K., Haskins, J., Gokhale, A.M., and Dighe, M.D., "Numerical, Experimental, and Image Analyses of Damage Progression in Cast A356 Aluminum Notch Tensile Bars," Theoretical and Applied Fracture Mechanics. v 39, n 1, p 23-45, 2003.
  10. Unpublished
  11. Raabe, Dierk. Discrete Dislocation Dynamics Simulations (DDD)
  12. Zbib, H.M.; De La Rubia, T.D.; Bulatov, V, "A Multiscale Model of Plasticity Based on Discrete Dislocation Dynamics," January 2002.
  13. Potirniche, G.P., M. F. Horstemeyer, G. J. Wagner, P. M. Gullett. A molecular dynamics study of void growth and void coalescence in single crystal nickel. International Journal of Plasticity, Vol. 22, No.2, pp. 257-278, Feb, 2006.
  14. 14.0 14.1 H. Fang, M.F. Horstemeyer, M.I. Baskes, K. Solanki, “Atomistic Simulations of Bauschinger Effects of Metals with High Angle and Low Angle Grain Boundaries,” Computational Methods in Applied Mechanics and Engineering, Vol. 193, p. 1789-1802, 2004.
  15. K. Solanki, M.F. Horstemeyer, M.I. Baskes, H. Fang, “Multiscale Study of Dynamic Void Collapse in Single Crystals,” Mechanics of Materials, Vol. 37, pp. 317-330, 2005.
  16. 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.
  17. 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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