Input Data
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| − | The current input data consist of five archives with | + | The current input data consist of five archives with following extensions: |
* <tt>.node</tt> for the nodal coordinates | * <tt>.node</tt> for the nodal coordinates | ||
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]) | ]) | ||
| − | The <tt>NodeId</tt>s can be | + | The <tt>NodeId</tt>s can be noconsecutive and also not in order, however the ordered input can improve the reading time. |
Revision as of 14:49, 5 May 2008
The current input data consist of five archives with following extensions:
- .node for the nodal coordinates
- .prop which containes the elemental properties
- .elem for elemental connectivities
- .cond containing conditions connectivities and node's fixed dofs
- .init for nodal initial values
All files are free format and the reading is not depend to the spaces, tabs, endlines etc.
Contents |
Nodal Coordinates File
This file must have the .node extension with following format:
NODES = NodesList([ [NodeId, X, Y, Z], [NodeId, X, Y, Z], ... ... ... [NodeId, X, Y, Z], ])
for example:
NODES = NodesList([ [1, 0.05000, 0.00000, 0.00000], [2, 0.05000, 0.01000, 0.00000], ... ... ... [1000, 0.00000, 1.00000, 0.00000] ])
The NodeIds can be noconsecutive and also not in order, however the ordered input can improve the reading time.
Properties File
This file must have the .prop extension with following format:
PROPERTIES[PropertiesId][ScalarVariableName] = Value
PROPERTIES[PropertiesId][VectorialVariableName] = [Value1, Value2, Value3]
PROPERTIES[PropertiesId][MatricialVariableName] = [[Value11, Value12, Value13],
[Value21, Value22, Value23],
[Value31, Value32, Value33]]
For example:
PROPERTIES[1][END_TIME] = 0.1; PROPERTIES[1][DELTA_TIME] = 0.001;
PROPERTIES[2][DENSITY] = 2700.000000; PROPERTIES[2][YOUNG_MODULUS] = 7000000.000000; PROPERTIES[2][GRAVITY] = [-39.5, 0.00, 0.00];
Elemental Connectivities File
This file must have the .elem extension and defines the elements with following format:
ELEMENTS[ElementId] = ElementName([NodeId1,NodeId2, ..,NodeIdn],PropertiesId);
For example:
ELEMENTS[1] = TotalLagrangian2D3N([1,2,3],1); ELEMENTS[2] = TotalLagrangian2D3N([2,6,4],1); ELEMENTS[3] = TotalLagrangian2D3N([6,11,8],1); ELEMENTS[4] = TotalLagrangian2D3N([11,18,17],2); ELEMENTS[5] = TotalLagrangian2D3N([18,26,24],2); ELEMENTS[6] = TotalLagrangian2D3N([26,36,33],2);
Conditions File
This file must have the .cond extension and defines the fixed dofs in each node and boundary conditions. The fixed dofs can be define in following form:
NODES[NodeId].Fix(VariableName);
For example:
NODES[27].Fix(DISPLACEMENT_X); NODES[27].Fix(DISPLACEMENT_T); NODES[29].Fix(PRESSURE);
The boundary conditions can be defined similar to the elements by their connectivity as follow:
CONDITIONS[ConditionId] = ConditionName([NodeId1,NodeId2, ..,NodeIdn],PropertiesId);
For example:
CONDITIONS[1176] = Face2D([684,678],1); CONDITIONS[1175] = Face2D([693,684],1); CONDITIONS[1176] = Face2D([684,678],1);
Initial Values File
This file must have the .init extension and can be used to give intial values to the nodal historical data using following format:
NODES[NodeId](VariableName,0) = Value;
For example:
NODES[29](PRESSURE,0) = 100.000000;
