MODE I MICRO CRACK PROPAGATION SIMULATION IN TWO-DIMENSIONAL MATERIAL
In this thesis we made uniaxial tension model for silicene. We use the molecular dynamic method to made this model. Because of silicene have low-buckled honeycomb structure, so the model we created is three-dimensional (3D) model. But to make it easy to observe, we still generate the result in tw...
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id-itb.:373662019-03-21T09:43:35ZMODE I MICRO CRACK PROPAGATION SIMULATION IN TWO-DIMENSIONAL MATERIAL Ikhsan, Armanda Ilmu alam dan matematika Indonesia Theses Silicene, Elasticity, Molecular Dynamic INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/37366 In this thesis we made uniaxial tension model for silicene. We use the molecular dynamic method to made this model. Because of silicene have low-buckled honeycomb structure, so the model we created is three-dimensional (3D) model. But to make it easy to observe, we still generate the result in two dimensions (2D).We use a spring to model the bond between silicene atoms based on Hooke’s law. For uniaxial tension test, we fixed a left boundary of the model, loading force on the right boundary of the model, and free at the upper and lower boundary of the model. We validate our program by make two comparison with Comsol and experiment. At the last, we will show some results from our simulations. text |
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Institut Teknologi Bandung |
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Indonesia Indonesia |
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Indonesia |
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Ilmu alam dan matematika |
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Ilmu alam dan matematika Ikhsan, Armanda MODE I MICRO CRACK PROPAGATION SIMULATION IN TWO-DIMENSIONAL MATERIAL |
| description |
In this thesis we made uniaxial tension model for silicene. We use the molecular
dynamic method to made this model. Because of silicene have low-buckled honeycomb
structure, so the model we created is three-dimensional (3D) model. But to
make it easy to observe, we still generate the result in two dimensions (2D).We use
a spring to model the bond between silicene atoms based on Hooke’s law. For uniaxial
tension test, we fixed a left boundary of the model, loading force on the right
boundary of the model, and free at the upper and lower boundary of the model. We
validate our program by make two comparison with Comsol and experiment. At the
last, we will show some results from our simulations. |
| format |
Theses |
| author |
Ikhsan, Armanda |
| author_facet |
Ikhsan, Armanda |
| author_sort |
Ikhsan, Armanda |
| title |
MODE I MICRO CRACK PROPAGATION SIMULATION IN TWO-DIMENSIONAL MATERIAL |
| title_short |
MODE I MICRO CRACK PROPAGATION SIMULATION IN TWO-DIMENSIONAL MATERIAL |
| title_full |
MODE I MICRO CRACK PROPAGATION SIMULATION IN TWO-DIMENSIONAL MATERIAL |
| title_fullStr |
MODE I MICRO CRACK PROPAGATION SIMULATION IN TWO-DIMENSIONAL MATERIAL |
| title_full_unstemmed |
MODE I MICRO CRACK PROPAGATION SIMULATION IN TWO-DIMENSIONAL MATERIAL |
| title_sort |
mode i micro crack propagation simulation in two-dimensional material |
| url |
https://digilib.itb.ac.id/gdl/view/37366 |
| _version_ |
1821997369249497088 |