Modal Analysis - PowerPoint PPT Presentation

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Modal Analysis

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Appendix Five Modal Analysis – PowerPoint PPT presentation

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Title: Modal Analysis


1
Modal Analysis
  • Appendix Five

2
Basics of Free Vibration Analysis
  • A free vibration analysis (a.k.a. modal or normal
    modes analysis) is performed to obtain the
    natural frequencies and mode shapes of a
    structure
  • Free Vibration analysis does not consider the
    response of the structure under dynamic loads but
    just solves for the natural frequencies. A free
    vibration analysis is usually the first step
    before solving more complicated dynamic problems.
  • A free vibration analysis is a subset of the
    general equation of motion

3
Basics of Free Vibration Analysis
  • In free vibration analysis, the structure is
    assumed to be linear, so the response is assumed
    to be harmonic
  • where fi is the mode shape (eigenvector) and wi
    is the natural circular frequency for mode i.
  • By substituting this value in the earlier
    equation, the following is obtained
  • Noting that the solution fi 0 is trivial, wi is
    solved for

4
Requesting Results
  • The corresponding ANSYS commands for the
    Frequency Finder branch are as follows
  • If Frequency Finder branch is present,
    ANTYPE,MODAL is set
  • The number of modes is set with the nmodes
    argument, and the beginning and ending search
    frequencies are specified with freqb and freqe of
    the MODOPT,,nmodes,freqb,freqe command
  • All modes are expanded via the MXPAND command.
    To save disk space and calculation times, the
    element solution option of MXPAND is not turned
    on unless stress or strain results are requested.

5
Solution Options
  • For a regular modal analysis, none of the
    solution options except for Solver Type have
    much effect
  • Large Deflection and Weak Springs are meant
    for static analysis cases and should not be
    changed.
  • Solver Type can be set to Direct or
    Iterative
  • Program Controlled or Direct result in the
    Block Lanczos eigenvalue extraction method with
    the sparse direct equation solver (MODOPT,LANB
    and EQSLV,SPARSE). This is the most robust
    eigensolver, as it handles small large models
    and beam, shell, or solid meshes, so it is the
    default option.
  • Iterative results in the PowerDynamics solution
    method, which is a combination of the subspace
    eigenvalue extraction method with the PCG
    equation solver (MODOPT,SUBSP and EQSLV,PCG).
    The PowerDynamics eigensolver can be efficient
    for large models of solid elements, when
    requesting only a few modes.

6
Prestressed Modal Analysis
  • For prestressed modal analysis, Simulation
    performs the two necessary iterations internally
  • A linear static analysis with PSTRES,ON is run
  • A modal analysis is then run right afterwards
    with PSTRES,ON to consider prestress effects

7
Prestressed Modal Analysis
  • Other items useful for ANSYS users to keep in
    mind
  • No large-deflection prestress effects are
    currently supported in Simulation, so enabling
    the Large Deflection On in the Solution branch
    is not permitted.
  • The equation solver for the static analysis and
    the eigensolver for the modal analysis currently
    cannot be independently set. Both will be
    affected by the Solver Type setting in the
    Solution branch.
  • If a Point Mass is present, rigid-body modes may
    be introduced in a prestressed modal analysis.
    This is due to the fact that the RBE3-type of
    surface constraint defined with CONTA174 and
    TARGE170 introduce 6 DOF but the MASS21 element
    has no rotary inertial terms (3 DOF).
  • The user can usually ignore these rigid-body
    modes, as they are associated with the MASS21
    elements (verify by checking displacement scale
    of these mode shapes).
  • No such problems exist for a regular modal with
    Point Masses.

8
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