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Thermal |
Creates a thermal study to calculate the
temperature distribution in bodies due to conduction, convection,
and radiation. |
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Buckling |
Creates a buckling study to
calculate the buckling modes and critical buckling loads of
bodies. |
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Fatigue |
Creates a fatigue study to
calculate the total life, damage, and load factors due to cyclic
loading. |
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Constant amplitude events with defined
cycles |
Creates a fatigue study with a constant amplitude
load. |
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Variable amplitude history
data |
Creates a fatigue study with a variable amplitude
load. |
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Harmonic-fatigue of sinusoidal
loading |
Available for fatigue study. Creates a fatigue
study that is based on stress results as a function of frequency
from a Dynamic - Harmonic study. |
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Random vibration - fatigue of random
vibration |
Available for fatigue study. Creates a fatigue
study that is based on stress results as a function of frequency
from a Dynamic - Random vibration study. |
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Nonlinear |
Creates a nonlinear study to
calculate the nonlinear response of models due to applied
loads. |
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Nonlinear Static
|
Creates a nonlinear static study to solve models with
nonlinearity caused by material behavior, large displacements, and
contact conditions. |
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Nonlinear Dynamic |
Creates a nonlinear dynamic study for models with
inertial and damping forces. |
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Use 2D
Simplification |
Creates a 2D simplification study to simplify certain
3D models by simulating them in 2D and saving analysis time.
Available analysis types include plane stress, plane strain, and
axisymmetric. |
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Linear
Dynamic |
Creates a linear dynamic study
to calculate the response of models by accumulating the contribution
of each mode to the loading environment. The loads change with time
or frequency. |
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Modal Time History |
Available for linear dynamic study. Use modal time
history analysis when the variation of each load with time is known
explicitly, and you are interested in the response as a function of
time. |
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Harmonic |
Available for linear dynamic study. Creates a
study to calculate the peak steady state response of models due to
harmonic loads or base excitations. |
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Random Vibration |
Available for linear dynamic study. Creates a study to
calculate the response of models due to nondeterministic
loads. |
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Response Spectrum
Analysis |
Available for linear dynamic study. Creates a
study to estimate the response of structures to uniform and selected
base excitations defined as peak amplitudes over a frequency
spectrum. |