Recent changes to Examples

Examples modified by Samantha Horvath

Samantha Horvath — Mon, 23 Mar 2015 21:19:55 -0000

Examples modified by Samantha Horvath

Samantha Horvath — Mon, 23 Mar 2015 20:17:10 -0000

--- v17
+++ v18
@@ -37,11 +37,13 @@
 Navigation links
 ---

+[Rocstar components](Components)
 [Licensing](Licensing)
 [Goals](Goals)
 [Members](Members)
 [Technical](Technical Approach)
 [Implementation](Software Integration Implementation)
 [Example Problems](Examples)
+[Related Work](Related Work)
 [Reading and References](Reading and References)
 [Rocstar Funding](Funding)

Examples modified by Samantha Horvath

Samantha Horvath — Mon, 23 Mar 2015 19:25:47 -0000

--- v16
+++ v17
@@ -1,7 +1,7 @@
 ***Rocstar*** Multiphysics Application
 ====

-Example Problems
+Example problems
 ----

 **1. Attitude motor control**

Examples modified by Samantha Horvath

Samantha Horvath — Mon, 23 Mar 2015 19:11:06 -0000

--- v15
+++ v16
@@ -29,7 +29,7 @@

 The goal of this example is to assemble and run a fully coupled fluid--solid interaction problem that serves as a lightweight verification and validation case. This problem has a Mach 1.2 shock in air impacting a deforming panel. *Rocflo* is used as the solver in the fluid domain and uses a 10-block hexahedral mesh with 38 000 cells. The structures domain is solved by *Rocfrac* using a mesh with 138 000 quadratic tetrahedral elements.

-[[img src=sss_pa.png height=256 width=384 ]]
+[[img src=problem3.png height=256 width=384 ]]
 *Shock panel model showing pressure*

 ***

Examples modified by Samantha Horvath

Samantha Horvath — Mon, 23 Mar 2015 19:10:32 -0000

--- v14
+++ v15
@@ -23,11 +23,14 @@
 The goal of this example is to assemble and run a fully coupled fluid--solid interaction problem with significant solid deformation. This problem deals with shock wave propagation causing solid deformation. *Rocflo* and *Rocfrac* are used to solve this problem, both using a block-structured, hexahedral grid.

 [[img src=sss_pa.png height=256 width=384 ]]
-*Super seismic shock showing pressure*
+*Super seismic shock model showing pressure*

 **4. Shock panel**

-Coming soon!
+The goal of this example is to assemble and run a fully coupled fluid--solid interaction problem that serves as a lightweight verification and validation case. This problem has a Mach 1.2 shock in air impacting a deforming panel. *Rocflo* is used as the solver in the fluid domain and uses a 10-block hexahedral mesh with 38 000 cells. The structures domain is solved by *Rocfrac* using a mesh with 138 000 quadratic tetrahedral elements.
+
+[[img src=sss_pa.png height=256 width=384 ]]
+*Shock panel model showing pressure*

 ***

Examples modified by Samantha Horvath

Samantha Horvath — Mon, 23 Mar 2015 19:07:23 -0000

--- v13
+++ v14
@@ -22,7 +22,7 @@

 The goal of this example is to assemble and run a fully coupled fluid--solid interaction problem with significant solid deformation. This problem deals with shock wave propagation causing solid deformation. *Rocflo* and *Rocfrac* are used to solve this problem, both using a block-structured, hexahedral grid.

-[[img src=elastic_piston_pa.png height=256 width=384 ]]
+[[img src=sss_pa.png height=256 width=384 ]]
 *Super seismic shock showing pressure*

 **4. Shock panel**

Examples modified by Samantha Horvath

Samantha Horvath — Mon, 23 Mar 2015 19:05:49 -0000

--- v12
+++ v13
@@ -20,7 +20,10 @@

 **3. Super seismic shock**

-Coming soon!
+The goal of this example is to assemble and run a fully coupled fluid--solid interaction problem with significant solid deformation. This problem deals with shock wave propagation causing solid deformation. *Rocflo* and *Rocfrac* are used to solve this problem, both using a block-structured, hexahedral grid.
+
+[[img src=elastic_piston_pa.png height=256 width=384 ]]
+*Super seismic shock showing pressure*

 **4. Shock panel**

Examples modified by Samantha Horvath

Samantha Horvath — Mon, 23 Mar 2015 19:04:13 -0000

--- v11
+++ v12
@@ -15,8 +15,8 @@

 The goal of this example is to assemble and run a fully coupled fluid--solid interaction problem. It consists of an impulsive acceleration of a fluid--solid interface. This example uses the *Rocstar* packages *Rocflo* and *Rocfrac*. For this problem, *Rocflo* uses a block-structured, hexahedral grid to represent a 1 m cube that is pressurized to 150 kPa. *Rocfrac* uses an unstructured, 10-node, tetrahedral grid to represent a 1 m cube that is initially stress free.

-[[img src=acm_mesh_pa.png height=256 width=384 ]]
-*Attitude motor control model with pressure*
+[[img src=elastic_piston_pa.png height=256 width=384 ]]
+*Elastic piston model with pressure*

 **3. Super seismic shock**

Examples modified by Samantha Horvath

Samantha Horvath — Mon, 23 Mar 2015 19:02:26 -0000

--- v10
+++ v11
@@ -6,14 +6,17 @@

 **1. Attitude motor control**

-The goal of this example is to assemble and run a moving-boundary, fluid-combustion coupled problem using *Rocflo* and *Rocflu*. The problem consists of a small (2 inch) attitude control motor, which is represented using a block-structured hexahedral mesh. A key aspect of this simulation is the regressing burning surface.
+The goal of this example is to assemble and run a moving-boundary, fluid--combustion coupled problem using *Rocflo* and *Rocflu*. The problem consists of a small (2 inch) attitude control motor, which is represented using a block-structured hexahedral mesh. A key aspect of this simulation is the regressing burning surface.

 [[img src=acm_mesh_pa.png height=256 width=384 ]]
 *Attitude motor control model with pressure*

 **2. Elastic piston**

-Coming soon!
+The goal of this example is to assemble and run a fully coupled fluid--solid interaction problem. It consists of an impulsive acceleration of a fluid--solid interface. This example uses the *Rocstar* packages *Rocflo* and *Rocfrac*. For this problem, *Rocflo* uses a block-structured, hexahedral grid to represent a 1 m cube that is pressurized to 150 kPa. *Rocfrac* uses an unstructured, 10-node, tetrahedral grid to represent a 1 m cube that is initially stress free.
+
+[[img src=acm_mesh_pa.png height=256 width=384 ]]
+*Attitude motor control model with pressure*

 **3. Super seismic shock**

Examples modified by Samantha Horvath

Samantha Horvath — Mon, 23 Mar 2015 19:00:59 -0000

--- v9
+++ v10
@@ -9,13 +9,7 @@
 The goal of this example is to assemble and run a moving-boundary, fluid-combustion coupled problem using *Rocflo* and *Rocflu*. The problem consists of a small (2 inch) attitude control motor, which is represented using a block-structured hexahedral mesh. A key aspect of this simulation is the regressing burning surface.

 [[img src=acm_mesh_pa.png height=256 width=384 ]]
-Attitude motor control model with pressure
-
-***Rocflo***
-
-***Rocflu***
-
-Coming soon!
+*Attitude motor control model with pressure*

 **2. Elastic piston**