论文信息 - A fluid structure interactions partitioned approach for simulations of explosive impacts on deformable structures

A fluid structure interactions partitioned approach for simulations of explosive impacts on deformable structures

Abstract Fluid structure interactions (FSI) has played an important role in many engineering applications ranging from aeroelasticity in aerospace engineering, wind turbines, civil engineering, bioengineering, etc. This paper focuses on FSI simulations of high speed compressible flows and its applications in studying blast impacts on flexible structures. Under the strong and high speed shock waves generated from blasts, engineering structures are deformed and possibly destructed causing damages to its surroundings. In this work, high speed compressible flows are simulated using a second order finite volume approach with HLLC flux scheme for strong shock capturing. High pressure loading from blast wave deforms structures and potentially causes severe damages. The structure responses are computed using dynamic finite element analysis. The interaction between flows and structures are coupled via exchange of information on loading conditions and structural deformations by a partitioned coupling scheme. The proposed FSI framework is applied for simulations of flat plate under explosive charge and explosion in a confined flexible cylinder. The results are well compared with literature and experimental data.

Vinh-Tan Nguyen | Bernhard Gatzhammer | V. Nguyen | Bernhard Gatzhammer

[1] Michael Ortiz,et al. Fully C1‐conforming subdivision elements for finite deformation thin‐shell analysis , 2001, International Journal for Numerical Methods in Engineering.

[2] C. Farhat,et al. Torsional springs for two-dimensional dynamic unstructured fluid meshes , 1998 .

[3] Vinh-Tan Nguyen,et al. An arbitrary Lagrangian–Eulerian discontinuous Galerkin method for simulations of flows over variable geometries , 2010 .

[4] G. Dhondt. The Finite Element Method for Three-Dimensional Thermomechanical Applications , 2004 .

[5] N. Weatherill,et al. Efficient three‐dimensional Delaunay triangulation with automatic point creation and imposed boundary constraints , 1994 .

[6] Daniel Rittel,et al. Scaling the response of circular plates subjected to large and close-range spherical explosions. Part I: Air-blast loading , 2007 .

[7] Michael Ortiz,et al. A cohesive approach to thin-shell fracture and fragmentation , 2005 .

[8] Chi-Wang Shu. Total-variation-diminishing time discretizations , 1988 .

[9] V. Nguyen,et al. Shock capturing schemes with local mesh adaptation for high speed compressible flows on three dimensional unstructured grids , 2012 .

[10] Deformation measurements of blast loaded plates using digital image correlation and high-speed photography , 2010 .