bc
Although called boundary condition, here we only deal with trivial Dirichlet boundary condition.
Syntax
There are currently several commands to define boundary conditions.
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To apply BCs to node groups, it is possible to use the following commands.
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Remark
- Both
fixandfix2serve the same purpose but with different approaches. Thefixcommand modifies the corresponding main diagonal term by multiplying a large number, for example \(10^8\). Thefix2command erase the column and row of target DoF and set the main diagonal to unity. In both case, the corresponding right hand side entry is erased. - The
fixandpenaltybccommands is computationally efficient but leads to an ill-conditioned matrix. This may not be a problem for direct solvers but will greatly affect the performance of iterative solvers. The penalty number can be controlled bysetcommand viaconstraint_multiplieroption. - The
fix2andmultiplierbccommands requires more operations but the final matrix is well conditioned. - The performance difference is almost negligible. Either one can be used with direct solvers. The error won't accumulate as there is a special mechanism to prevent it.
- The DoF identifier
(2)takes the following string input:1,2,3,4,5,6,pinned,encastre,xsymm,ysymm,zsymmand the corresponding initialsp,e,x,y,z. The names do not actually reflect their meaning, instead, following DoFs would be restrained when string input is given.pinned: 1 2 3encastre: 1 2 3 4 5 6xsymm: 1 5 6ysymm: 2 4 6zsymm: 3 4 5
- The nontrivial Dirichlet boundary condition is treated as displacement load.