Recent changes to Examples

Examples modified by Jessica

Jessica — Fri, 02 Aug 2013 17:24:16 -0000

--- v53
+++ v54
@@ -36,7 +36,7 @@

 * Jaiman R., Geubelle P., Loth E., Jiao X., 2011. "Combined interface boundary condition method for unsteady fluid–structure interaction," *Computer Methods in Applied Mechanics and Engineering*, 200, pp. 27-39.

-* Jaiman R., Jiao X., Geubelle P., Loth E., 2005. *International Journal for Numerical Methods in Engineering*, Volume 64, issue 15, p. 2014 - 2038.
+* Jaiman R., Jiao X., Geubelle P., Loth E., 2005. *International Journal for Numerical Methods in Engineering*, Volume 64, Issue 15, pp. 2014 - 2038.

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@@ -51,14 +51,17 @@
 * Fluid material properties are modified to get a sound speed similar to the dilational wave speed
 * Deformation of the solid is due to high pressures behind the shock
 * Analytical similarity solution exists
-    * Arienti, M., Hung, P., Morano, E., and J.E. Shepherd, “A Level Set Approach to Eulerian–Lagrangian Coupling,” *Journal of Computational Physics*, Vol. 185, 2003, pp. 213-251. 
-    * Jaiman, R.K., Jiao, X., Geubelle, P.H., and E. Loth, 2004. “Assessment of Conservative Load Transfer for Fluid-Solid Interface with Nonmatching Meshes,” *International Journal for Numerical Methods in Engineering*, 0;1-40.

 [[img src=supershock1.png height=384 width=576 ]]

 ####Results####

 [[img src=supershock2.png height=256 width=384 ]]
+
+
+####References####
+* Arienti M., Hung P., Morano E., Shepherd J., 2003. “A Level Set Approach to Eulerian–Lagrangian Coupling,” *Journal of Computational Physics*, Vol. 185, pp. 213-251. 
+* Jaiman R., Jiao X., Geubelle P., Loth E., 2004. “Assessment of Conservative Load Transfer for Fluid-Solid Interface with Nonmatching Meshes,” *International Journal for Numerical Methods in Engineering*, 0; pp.1-40.

 ------
 ###Shock Panel###

Examples modified by Jessica

Jessica — Fri, 02 Aug 2013 17:21:14 -0000

--- v52
+++ v53
@@ -37,8 +37,6 @@
 * Jaiman R., Geubelle P., Loth E., Jiao X., 2011. "Combined interface boundary condition method for unsteady fluid–structure interaction," *Computer Methods in Applied Mechanics and Engineering*, 200, pp. 27-39.

 * Jaiman R., Jiao X., Geubelle P., Loth E., 2005. *International Journal for Numerical Methods in Engineering*, Volume 64, issue 15, p. 2014 - 2038.
-John Wiley & Sons, Ltd.
-

 --------
@@ -54,7 +52,7 @@
 * Deformation of the solid is due to high pressures behind the shock
 * Analytical similarity solution exists
     * Arienti, M., Hung, P., Morano, E., and J.E. Shepherd, “A Level Set Approach to Eulerian–Lagrangian Coupling,” *Journal of Computational Physics*, Vol. 185, 2003, pp. 213-251. 
-    * Jaiman, R.K., Jiao, X., Geubelle, P.H., and E. Loth, “Assessment of Conservative Load Transfer for Fluid-Solid Interface with Nonmatching Meshes,” *International Journal for Numerical Methods in Engineering*, 2004:0; 1-40.
+    * Jaiman, R.K., Jiao, X., Geubelle, P.H., and E. Loth, 2004. “Assessment of Conservative Load Transfer for Fluid-Solid Interface with Nonmatching Meshes,” *International Journal for Numerical Methods in Engineering*, 0;1-40.

 [[img src=supershock1.png height=384 width=576 ]]

@@ -96,6 +94,10 @@

 [[img src=shockpanel5.png height=256 width=384 ]]

+####Reference#####
+
+Giordano J., Jourdan G., Burtschell Y., Medale M., Zeitoun D., Houas L., 2005. "Shock wave impacts on deforming panel, an application of fluid-structure interaction," *Shock Waves*, Vol. 14, Issue 1, pp. 103-110.
+
 -----
 ####Navigation Links####

Examples modified by Jessica

Jessica — Fri, 02 Aug 2013 17:13:23 -0000

--- v51
+++ v52
@@ -36,8 +36,7 @@

 * Jaiman R., Geubelle P., Loth E., Jiao X., 2011. "Combined interface boundary condition method for unsteady fluid–structure interaction," *Computer Methods in Applied Mechanics and Engineering*, 200, pp. 27-39.

-* Jaiman R., Jiao X., Geubelle P., Loth E., International Journal for Numerical Methods in Engineering, Volume 64, issue 15 (21 December 2005), p. 2014 - 2038.
-ISSN: 0029-5981 DOI: 10.1002/nme.1434 
+* Jaiman R., Jiao X., Geubelle P., Loth E., 2005. *International Journal for Numerical Methods in Engineering*, Volume 64, issue 15, p. 2014 - 2038.
 John Wiley & Sons, Ltd.

Examples modified by Jessica

Jessica — Fri, 02 Aug 2013 17:10:25 -0000

--- v50
+++ v51
@@ -34,7 +34,11 @@

 ####References####

-* Jaiman R., Geubelle P., Loth E., Jiao X., 2011. "Combined interface boundary condition method for unsteady fluid–structure interaction," *Computer Methods in Applied Mechanics and Engineering*, 200, pp. 27-39
+* Jaiman R., Geubelle P., Loth E., Jiao X., 2011. "Combined interface boundary condition method for unsteady fluid–structure interaction," *Computer Methods in Applied Mechanics and Engineering*, 200, pp. 27-39.
+
+* Jaiman R., Jiao X., Geubelle P., Loth E., International Journal for Numerical Methods in Engineering, Volume 64, issue 15 (21 December 2005), p. 2014 - 2038.
+ISSN: 0029-5981 DOI: 10.1002/nme.1434 
+John Wiley & Sons, Ltd.

Examples modified by Jessica

Jessica — Fri, 02 Aug 2013 17:06:34 -0000

--- v49
+++ v50
@@ -35,6 +35,8 @@
 ####References####

 * Jaiman R., Geubelle P., Loth E., Jiao X., 2011. "Combined interface boundary condition method for unsteady fluid–structure interaction," *Computer Methods in Applied Mechanics and Engineering*, 200, pp. 27-39
+
+

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 ###Super Seismic Shock###

Examples modified by Jessica

Jessica — Fri, 02 Aug 2013 17:01:48 -0000

--- v48
+++ v49
@@ -90,3 +90,16 @@
 #####Coupled#####

 [[img src=shockpanel5.png height=256 width=384 ]]
+
+-----
+####Navigation Links####
+
+[Licensing](Licensing)
+[Mission](Mission)
+[Members](Members)
+[Technical](Technical Approach)
+[Implementation](Implementation)
+[Example Problems](Examples)
+[Related Work](Related Work)
+[Reading and References](Reading and References)
+[Consortium Funding](Funding)

Examples modified by Jessica

Jessica — Fri, 02 Aug 2013 16:57:37 -0000

--- v47
+++ v48
@@ -34,12 +34,7 @@

 ####References####

-* Jaiman R., Geubelle P., Loth E., Jiao X., 2011. "Combined interface boundary condition method for unsteady fluid–structure interaction
-
-Computer Methods in Applied Mechanics and Engineering, 200 (2011) pp 27-39
-
-
-Allen G., Dramlitsch T., Foster I., Karonis N., Ripeanu M., Seidel E., Toonen B., 2001. Supporting efficient execution in heterogeneous distributed computing environments with Cactus and Globus. In: Proceedings of Supercomputing ’01 (CDROM), Denver CO.
+* Jaiman R., Geubelle P., Loth E., Jiao X., 2011. "Combined interface boundary condition method for unsteady fluid–structure interaction," *Computer Methods in Applied Mechanics and Engineering*, 200, pp. 27-39

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 ###Super Seismic Shock###

Examples modified by Jessica

Jessica — Fri, 02 Aug 2013 16:53:55 -0000

--- v46
+++ v47
@@ -34,10 +34,12 @@

 ####References####

-* Combined interface boundary condition method for unsteady fluid–structure interaction
-R. Jaiman, P. Geubelle, E. Loth, X. Jiao
+* Jaiman R., Geubelle P., Loth E., Jiao X., 2011. "Combined interface boundary condition method for unsteady fluid–structure interaction
+
 Computer Methods in Applied Mechanics and Engineering, 200 (2011) pp 27-39

+
+Allen G., Dramlitsch T., Foster I., Karonis N., Ripeanu M., Seidel E., Toonen B., 2001. Supporting efficient execution in heterogeneous distributed computing environments with Cactus and Globus. In: Proceedings of Supercomputing ’01 (CDROM), Denver CO.

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 ###Super Seismic Shock###

Examples modified by Jessica

Jessica — Fri, 02 Aug 2013 16:51:33 -0000

--- v45
+++ v46
@@ -30,6 +30,13 @@
 #####Fluid Wave Propogation######

 [[img src=piston2.png height=256 width=384 ]]
+
+
+####References####
+
+* Combined interface boundary condition method for unsteady fluid–structure interaction
+R. Jaiman, P. Geubelle, E. Loth, X. Jiao
+Computer Methods in Applied Mechanics and Engineering, 200 (2011) pp 27-39

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Examples modified by Jessica

Jessica — Wed, 31 Jul 2013 21:11:35 -0000

--- v44
+++ v45
@@ -69,20 +69,20 @@
     * Max tip displacement
     * Panel frequency

-[[img src=shockpanel1.jpg height=256 width=384 ]]
+[[img src=shockpanel1.png height=256 width=384 ]]

 ####Results####

 #####Fluid#####

-[[img src=shockpanel2.jpg height=256 width=384 ]]
+[[img src=shockpanel2.png height=256 width=384 ]]

-[[img src=shockpanel3.jpg height=256 width=384 ]]
+[[img src=shockpanel3.png height=256 width=384 ]]

 #####Structures#####

-[[img src=shockpanel4.jpg height=256 width=384 ]]
+[[img src=shockpanel4.png height=256 width=384 ]]

 #####Coupled#####

-[[img src=shockpanel5.jpg height=256 width=384 ]]
+[[img src=shockpanel5.png height=256 width=384 ]]