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Online Articles by TrueGrid^® Users

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Fluids and Structures

• Underwater explosion testing of catamaran-likestructure vs. simulation and feasibility of usingscaling law
  by Park, Jong Wan.
• Performance Study of GasTurbnLab, an Agent-Based Multi-Physics Problem Solving Environment for the Gas Turbine Engine Simulation
  by Panagiota E. Tsompanopoulou.
• Investigation of Close Proximity Underwater Explosion Effects on a Ship-Like Structure Using the Multi-Material Arbitrary Lagrangian Eulerian Finite Element Method
  by Keith G. Webster
• Damping Modeling Strategy for Naval Ship System
  by Young S. Shin and Ilbae Ham
• Surface Ship Shock Modeling and Simulation: Extended Investigation
  by Philip E. Malone
• Applications of Arbitrary LaGrangian Eulerian (ALE) Analysis Approach to Underwater and Air Explosion Problems
  by Theodore Trevino
• Dynamic Response of a Catamaran-Hull Ship Subjected to Underwater Explosions
  by Hakan Ucar, Naval Postgraduate School, Monterey, CA
• Parametric Studies of DDG-81 Ship Shock Trial Simulations
  by Jarema M. Didoszak, Naval Postgraduate School, Monterey, CA
• 3-D Simulations of Ignition Transients in the RSRM
  by R. A. Fiedler, A. Haselbacher, M. S. Breitenfeld, P. Alexander, L. Massa, and W. C. Ross, 41st AIAA/ASME/SAE/ASEE Joint Propulsion Conference and Exhibit 10-13 July 2005, Tucson, AZ, AIAA 2005-3993
• Prediction of Surface Ship Response to Severe Underwater Explosion using a Virtual Underwater Shock Environment
  by Nathan A. Schneider
• Ship Shock Trial Simulation of USS Winston S. Churchill (DDG 81): Modeling and Simulation Strategy and Surrounding Fluid Volume Effects
  by Young S. Shin and Nathan A. Schneider
• Cavitation Effects on a Ship-Like Box Structure Subjected to an Underwater Explosion
  by Steven L. Wood
• Shock Trial Simulation for Naval Ships
  by Lt. Jarema M. Didoszak, USN, Dr. Young S. Shin, and Capt. David H. Lewis, USN
• Ship Shock Modelling and Simulation for Far-Field Underwater Explosion
  by Y. S. Shin
• LPD-17 Pretrial Ship Shock Response Predictions: Coupled Ship-Fluid Model Generation
  by Jarema Didoszak, LCDR Laura Bollock, Jose Lepe, Dr. Young Shin, Naval Postgraduate School
• Structures and Materials
  by CSAR project, University of Illinois
• Coupled Fluid-Structure 3-D Solid Rocket Motor Simulations
  by R. Fiedler, X. Jiao, A. Namazifard, A. Haselbacher, F. Najjar, and I. D. Parsons (Illinois, University, Urbana) in AIAA/ASME/SAE/ASEE Joint Propulsion Conference and Exhibit, 37th, Salt Lake City, UT, July 8-11, 2001
• Coupled Simulations of Solid Rocket Motors
  by I. D. Parsons, P. Alavilli, A. Namazifard, A. Acharya, X. Jiao, and R. Fiedler, AIAA/ASME/SAE/ASEE Joint Propulsion Conference and Exhibit, 36th, Huntsville, AL, July 16-19, 2000.
• Fluid-Structure Interaction through a Non-Material Interface: Simulations of Solid Rocket Motors
  by I. D. Parsons, P. Alavilli, A. Namazifard, X. Jiao, A. Acharya
• Coupled Fluid-Structure 3-D Solid Rocket Motor Simulations
  by R. Fiedler, X. Jiao, A. Namazifard, A. Haselbacher, F. Najjar, and I. D. Parsons
• Simulating Solid Propellant Rockets at CSAR
  by M. Heath, R. Fiedler,and W. Dick
• Integrated Simulation of Solid Propellant Rockets
  by William A. Dickà, Robert A. Fiedler, and Michael T. Heath
• Coupled Simulations of Solid Rocket Motors
  by I. D. Parsons, P. Alavilli, A. Namazifard, A. Acharya, X. Jiao and R. Fiedler
• Structures and Materials FY98
  by Center for Simulation of Advanced Rockets