File
14.76. Not Documented
14.77. PLANE77 - 2-D 8-Node Thermal Solid
14.78. PLANE78 - Axisymmetric-Harmonic 8-Node Thermal Solid
14.79. FLUID79 - 2-D Contained Fluid
14.8. LINK8 - 3-D Spar (or Truss)
14.80. FLUID80 - 3-D Contained Fluid
14.81. FLUID81 - Axisymmetric-Harmonic Contained Fluid
14.82. PLANE82 - 2-D 8-Node Structural Solid
14.83. PLANE83 - Axisymmetric-Harmonic 8-Node Structural Solid
14.84. Not Documented
14.85. Not Documented
14.86. Not Documented
14.87. SOLID87 - 3-D 10-Node Tetrahedral Thermal Solid
14.88. VISCO88 - 2-D 8-Node Viscoelastic Solid
14.89. VISCO89 - 3-D 20-Node Viscoelastic Solid
14.9. INFIN9 - 2-D Infinite Boundary
14.90. SOLID90 - 3-D 20-Node Thermal Solid
14.91. SHELL91 - Nonlinear Layered Structural Shell
14.92. SOLID92 - 3-D 10-Node Tetrahedral Structural Solid
14.93. SHELL93 - 8-Node Structural Shell
14.94. CIRCU94 - Piezoelectric Circuit
14.95. SOLID95 - 3-D 20-Node Structural Solid
14.96. SOLID96 - 3-D Magnetic Scalar Solid
14.97. SOLID97 - 3-D Magnetic Solid
14.98. SOLID98 - Tetrahedral Coupled-Field Solid
14.99. SHELL99 - Linear Layered Structural Shell
15. Installation Troubleshooting - ANSYS ICEM CFD Products
15. Installation Troubleshooting - ANSYS ICEM CFD Products
15.1. Acceleration Effect
15.1. Benefits of the p-Method
15.1. Creating Animated Displays Within ANSYS
15.1. Parallel Processing Methods Available in ANSYS
15.1. Solving Acoustics Problems
15.1. Structural Implicit-to-Explicit Solution for Preload
15.1. Using the CIRCU124 Element
15.10. Mode Superposition Method
15.10. Where to Find Other Examples
15.11. Extraction of Modal Damping Parameter for Squeeze Film Problems
15.12. Reduced Order Modeling of Coupled Domains
15.13. Newton-Raphson Procedure
15.14. Constraint Equations
15.15. This section intentionally omitted
15.16. Eigenvalue and Eigenvector Extraction
15.17. Analysis of Cyclic Symmetric Structures
15.18. Mass Moments of Inertia
15.19. Energies
15.2. Activating Parallel Processing in a Shared-Memory Architecture
15.2. Building the Model
15.2. Inertia Relief
15.2. Thermal Implicit-to-Explicit Solution
15.2. Using the Basic Animation Commands
15.2. Using the CIRCU125 Element
15.2. Using the p-Method
15.20. ANSYS Workbench Product Adaptive Solutions
15.3. Damping Matrices
15.3. Meshing the Model
15.3. Sample p-Method Analysis (GUI Method)
15.3. Using One-Step Animation Macros
15.3. Using the Circuit Builder
15.4. Applying Loads and Obtaining the Solution
15.4. Avoiding Inconsistent Circuits
15.4. Capturing Animated Display Sequences Off-Line
15.4. Rotating Structures
15.4. Sample p-Method Analysis (Command or Batch Method)
15.5. Element Reordering
15.5. Reviewing Results
15.5. Static (DC) Electric Circuit Analysis
15.5. The Stand Alone ANIMATE Program
15.6. Animation in the Windows Environment
15.6. Automatic Master DOF Selection
15.6. Fluid-Structure Interaction
15.6. Harmonic (AC) Electric Circuit Analysis
15.7. Automatic Time Stepping
15.7. Sample Applications
15.7. Transient Electric Circuit Analysis
15.8. Doing an Example Harmonic Circuit Analysis (Command Method)
15.8. Example 1: Fluid-Structure Coupled Acoustic Analysis (Command Method)
15.8. Solving for Unknowns and Reactions
15.9. A Sample Diode Circuit (Command Method)
15.9. Equation Solvers
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