OpenSees.exe User Requirements: Difference between revisions
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<h3>Element</h3> | <h3>Element</h3> | ||
{{Element Command}} | |||
*Beam-Column Elements | *Beam-Column Elements | ||
*Truss Elements | *Truss Elements | ||
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<h3>Section</h3> | <h3>Section</h3> | ||
*Elastic Section | *[[Elastic Section]] | ||
*Fiber Section | *[[Uniaxial Section]] | ||
*Section Aggregator | *[[Fiber Section]] | ||
*Elastic Membrane Plate Section | *[[Section Aggregator]] | ||
*Plate Fiber Section | *[[Elastic Membrane Plate Section]] | ||
*Bidirectional Section | *[[Plate Fiber Section]] | ||
*Isolator2spring Section: Model to include buckling behavior of an elastomeric bearing | *[[Bidirectional Section]] | ||
*[[Isolator2spring Section]]: Model to include buckling behavior of an elastomeric bearing | |||
<h3>uniaxialMaterial</h3> | <h3>uniaxialMaterial</h3> | ||
*Steel & Reinforcing-Steel Materials | *Steel & Reinforcing-Steel Materials | ||
**Steel01 Material | **[[Steel01 Material]] | ||
**Steel02 Material -- Giuffré-Menegotto-Pinto Model with Isotropic Strain Hardening | **[[Steel02 Material -- Giuffré-Menegotto-Pinto Model with Isotropic Strain Hardening]] | ||
**Hysteretic Material | **[[Hysteretic Material]] | ||
*Concrete Materials | *Concrete Materials | ||
**Concrete01 Material -- Zero Tensile Strength | **[[Concrete01 Material -- Zero Tensile Strength]] | ||
**Concrete02 Material -- Linear Tension Softening | **[[Concrete02 Material -- Linear Tension Softening]] | ||
*Multi-Purpose Materials | *Multi-Purpose Materials | ||
**Elastic Material | **[[Elastic Uniaxial Material]] | ||
**Elastic-Perfectly Plastic Material | **[[Elastic-Perfectly Plastic Material]] | ||
**Elastic-Perfectly Plastic Gap Material | **[[Elastic-Perfectly Plastic Gap Material]] | ||
**Elastic-No Tension Material | **[[Elastic-No Tension Material]] | ||
**Parallel Material | **[[Parallel Material]] | ||
**Series Material | **[[Series Material]] | ||
**Hardening Material | **[[Hardening Material]] | ||
**[[Viscous Material]] | |||
*Contributed uniaxialMaterial | *Contributed uniaxialMaterial | ||
**BARSLIP Material | **[[BARSLIP Material]] | ||
**Bond_SP01 - - Strain Penetration Model for Fully Anchored Steel Reinforcing Bars | **[[Bond_SP01 - - Strain Penetration Model for Fully Anchored Steel Reinforcing Bars]] | ||
**Concrete04 Material -- Popovics Concrete Material | **[[Concrete04 Material -- Popovics Concrete Material]] | ||
**Concrete07 – Chang & | **[[Concrete07 – Chang & Mander’s 1994 Concrete Model]] | ||
**Fatigue Material | **[[Fatigue Material]] | ||
**Hyperbolic Gap Material | **[[Hyperbolic Gap Material]] | ||
**Limit State Material | **[[Limit State Material]] | ||
**PINCHING4 Material | **[[PINCHING4 Material]] | ||
**[[Reinforcing Steel Material]] | |||
**[[SelfCentering Material]] | |||
**PyTzQz uniaxialMaterials | **PyTzQz uniaxialMaterials | ||
** | ***[[PySimple1 Material]] | ||
** | ***[[TzSimple1 Material]] | ||
*Elastic Isotropic Material | ***[[QzSimple1 Material]] | ||
*J2 Plasticity Material | ***[[PyLiq1 Material]] | ||
*Plane Stress Material | ***[[TzLiq1 Material]] | ||
*Plate Fiber Material | |||
<h3>nDMaterial</h3> | |||
*[[Elastic Isotropic Material]] | |||
*[[J2 Plasticity Material]] | |||
*[[Plane Stress Material]] | |||
*[[Plane Strain Material]] | |||
*[[Plate Fiber Material]] | |||
*UCDavis Soil Models | *UCDavis Soil Models | ||
**Template Elasto-Plastic Material | **Template Elasto-Plastic Material | ||
* | *Nonlinear, drained/undrained soil response under general 3D cyclic loading conditions | ||
**FluidSolidPorousMaterial | **[[FluidSolidPorousMaterial]] | ||
**PressureDependMultiYield Material | **[[PressureDependMultiYield Material]] | ||
**PressureDependMultiYield02 Material | **[[PressureDependMultiYield02 Material]] | ||
**PressureIndependMultiYield Material | **[[PressureIndependMultiYield Material]] | ||
<h3>Recorder</h3> | <h3>Recorder</h3> | ||
Revision as of 16:58, 19 November 2009
Implemented Requirements
Element
- Beam-Column Elements
- Truss Elements
- 2D Wall Elements
Section
- Elastic Section
- Uniaxial Section
- Fiber Section
- Section Aggregator
- Elastic Membrane Plate Section
- Plate Fiber Section
- Bidirectional Section
- Isolator2spring Section: Model to include buckling behavior of an elastomeric bearing
uniaxialMaterial
- Steel & Reinforcing-Steel Materials
- Concrete Materials
- Multi-Purpose Materials
- Contributed uniaxialMaterial
- BARSLIP Material
- Bond_SP01 - - Strain Penetration Model for Fully Anchored Steel Reinforcing Bars
- Concrete04 Material -- Popovics Concrete Material
- Concrete07 – Chang & Mander’s 1994 Concrete Model
- Fatigue Material
- Hyperbolic Gap Material
- Limit State Material
- PINCHING4 Material
- Reinforcing Steel Material
- SelfCentering Material
- PyTzQz uniaxialMaterials
nDMaterial
- Elastic Isotropic Material
- J2 Plasticity Material
- Plane Stress Material
- Plane Strain Material
- Plate Fiber Material
- UCDavis Soil Models
- Template Elasto-Plastic Material
- Nonlinear, drained/undrained soil response under general 3D cyclic loading conditions
Recorder
- Node
- Node
- EnvelopeNode
- Drift
- Element
- Element
- EnvelopeElement
- Section
- Element
- EnvelopeElement
- Fiber
- Element
- EnvelopeElement
- Basic Visualization recorders
- Display
- Plot
- playback Command
Other
- Input Motion
- Input displacement history in UniformExcitation Pattern Command
- Input acceleration history in MultipleSupport Pattern Command
Under-Development Requirements
Element
- 2D/3D Wall Elements
- 3d nonlinear frame element with full interaction
- axial
- flexure
- torsion
- shear
Section
Material
- Improved concrete materials
- Improved reinforcing-steel materials
Recorder
Other
To-Be-Developed Requirements
Element
- Buckling-Brace Elements
- Flexible Diaphragm
- 2D & 3D Isolators
- 2d Timoshenko beam element
- 3d frame element with bond-slip of reinforcing steel
- 3d frame element with slip between components, e.g. composite beam, composite column
- 3d concentrated plasticity element with return map algorithm
- 2d SIZE (spreading inelastic zone) beam element
- Nonlinear geometry developments
- Extension of corotational theory to membranes and shells
- Reformulation of 3d frame nonlinear geometry such that any element can take advantage of nonlinear transformation (currently not the case); quaternions vs. rotation nodal variables require either a change in global solution strategy or the mapping back and forth between quaternions and node rotations.
- The following elements include linear or corotational geometry for membranes and shells under large displacements
- 3 to 6 node triangle
- 4 to 9 node quad
- 4 node quad with incompatible modes
- 4 to 9 node RC panel (quad)
- 4 to 9 node Mindlin layer plate/shell
- 4 to 9 node Mindlin RC layer plate/shell
- Discrete Kirchoff triangle plate/shell element
Section
- 2d normal and shear stress interaction
Material
- 3d J2 plasticity with kinematic and isotropic hardening
- 3d plastic-damage concrete constitutive model Lee-Fenves
Recorder
- Specify recorder to save only every Nth timestep (specifying dT only works for time-history analyses)
- EnvelopeDrift Node recorder
Other
- improved domain-data output
Continual-Development Requirements
Documentation
- Validation with experimental data
- Materials
- Graphical demonstration of input-arguments
- Examples manual
- Practical Examples
- Theoretical Background
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