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http://dx.doi.org/10.3795/KSME-A.2017.41.5.361

An FSI Simulation of the Metal Panel Deflection in a Shock Tube Using Illinois Rocstar Simulation Suite  

Shin, Jung Hun (Computational Science & Engineering Center, Korea Institute of Science and Technology Information)
Sa, Jeong Hwan (Computational Science & Engineering Center, Korea Institute of Science and Technology Information)
Kim, Han Gi (Computational Science & Engineering Center, Korea Institute of Science and Technology Information)
Cho, Keum Won (Computational Science & Engineering Center, Korea Institute of Science and Technology Information)
Publication Information
Transactions of the Korean Society of Mechanical Engineers A / v.41, no.5, 2017 , pp. 361-366 More about this Journal
Abstract
As the recent development of computing architecture and application software technology, real world simulation, which is the ultimate destination of computer simulation, is emerging as a practical issue in several research sectors. In this paper, metal plate motion in a square shock tube for small time interval was calculated using a supercomputing-based fluid-structure-combustion multi-physics simulation tool called Illinois Rocstar, developed in a US national R amp; D program at the University of Illinois. Afterwards, the simulation results were compared with those from experiments. The coupled solvers for unsteady compressible fluid dynamics and for structural analysis were based on the finite volume structured grid system and the large deformation linear elastic model, respectively. In addition, a strong correlation between calculation and experiment was shown, probably because of the predictor-corrector time-integration scheme framework. In the future, additional validation studies and code improvements for higher accuracy will be conducted to obtain a reliable open-source software research tool.
Keywords
Illinois Rocstar Simulation Suite; Fluid-Structure Interaction; Multi-physics; Computer Simulation; High-Performance Computing;
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