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Dynamic Design Analysis Method Extender


The Dynamic Design Analysis Method (DDAM) extender enables engineers to analyze models using U.S. Navy procedures for shock design. All mission-essential equipment onboard surface ships and submarines must be qualified for shock loads, such as from depth charges, mines, missiles and torpedoes.

This extender can determine the characteristics of underwater explosion phenomena including the effects of shock waves, surface ship or submarine body response to shock loading and application of shock spectra to component design. Engineers can use DDAM to analyze the shock response at the mountings of shipboard equipment such as masts, propulsion shafts, rudders, exhaust uptakes and other critical structures.

TYPICAL APPLICATIONS

  • Depth charge analysis
  • Military ship component design
  • Propulsion shaft design
  • Torpedo detonation analysis
  • Exhaust uptake design
  • Mine detonation analysis
  • Rudder optimization
  • Mast analysis
  • Missile detonation analysis
  • Shock design

ANALYSIS CAPABILITIES

  • Dynamic Design Analysis Method (DDAM)
  • Shock analysis
  • Capability for user-specified input coefficients for the design value formulas that maintains the confidentiality of input

LOADING AND CONSTRAINTS

  • Directional shock load

RESULTS PRESENTATION

  • Output in industry-standard format

RESULTS EVALUATION

Your core package capabilities, plus:

  • Result contours of:
    • Life
    • Safety factor

USER INTERFACE

  • Effective mass listing
  • Calculation and reporting of the effective modal mass and participation factors

For more information please visit Algor Dynamic Design Analysis Method Extender

 
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