This is the same as TPV27, withĪdditional off-fault stations and a longer running time. There are Drucker-Prager viscoplastic material Off-fault stations and a longer running time. This is the same as TPV26, with additional This is the linear elastic version of TPV27. There are linear elastic material properties in a Right-lateral, vertical, strike-slip fault with a leftward stepover Right-lateral, vertical, strike-slip fault with a rightward stepover There are Drucker-Prager plastic material properties in There are randomly-generatedĪ 30 degree angle. Strike-slip fault in a homogeneous halfspace. Left-lateral, vertical, strike-slip fault with a rightward branch forming Material properties and initial stresses are Right-lateral, vertical, strike-slip fault with a rightward branch formingĪ 30 degree angle. Initial stress conditions are dependent on depth. Properties are non-associative Drucker-Prager plastic with yielding in Initial stress conditions are dependent onĭepth. Supershear ruptureĭipping dip-slip fault (normal fault) in a homogeneous halfspace. Stress conditions are linearly dependent on depth. Subshear rupture conditions.ĭipping dip-slip fault (normal fault) in a homogeneous halfspace. Subshear rupture conditions.ĭip-slip fault in a homogeneous halfspace. Initial stress conditionsĪre linearly dependent on depth. Strike-slip fault in a bimaterial halfspace, with low shear modulus Strike-slip fault in a bimaterial halfspace, with high shear modulusĬontrast across the fault (a "well-posed" problem). There are slightly heterogeneous initial stress conditions. Spontaneous rupture on a vertical strike-slip fault Strike-slip fault in a homogeneous fullspace. Click on the benchmark name for a detailed description and instructions to modelers.
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