Shock Response Analysis of Blast Hardened Bulkhead in Reduced and Partial Chamber Models of Naval Ship under Internal Blast
It is necessary to restrict the damage area for the enhancement of ship survivability under the internal blast of a Semi-Armor Piecing (SAP) warhead inside a ship’s compartment, and to develop design guidance and performance verification technique of Blast Hardened Bulkhead (BHB) for the protection of its damage diffusion to adjoining compartment and continuous flooding. The objective of this study is to develop shock response analysis technique of BHB under the internal blast using MMALE (Multi-Material Arbitrary Lagrangian Eulerian) formulation and FSI (Fluid-Structure Interaction) analysis technique of LS-DYNA code through the verifications of internal blast tests of reduced and partila chamber models.
https://www.dynamore.de/de/download/papers/2015-ls-dyna-europ/documents/sessions-h-1-4/shock-response-analysis-of-blast-hardened-bulkhead-in-reduced-and-partial-chamber-models-of-naval-ship-under-internal-blast/view
https://www.dynamore.de/@@site-logo/DYNAmore_Logo_Ansys.svg
Shock Response Analysis of Blast Hardened Bulkhead in Reduced and Partial Chamber Models of Naval Ship under Internal Blast
It is necessary to restrict the damage area for the enhancement of ship survivability under the internal blast of a Semi-Armor Piecing (SAP) warhead inside a ship’s compartment, and to develop design guidance and performance verification technique of Blast Hardened Bulkhead (BHB) for the protection of its damage diffusion to adjoining compartment and continuous flooding. The objective of this study is to develop shock response analysis technique of BHB under the internal blast using MMALE (Multi-Material Arbitrary Lagrangian Eulerian) formulation and FSI (Fluid-Structure Interaction) analysis technique of LS-DYNA code through the verifications of internal blast tests of reduced and partila chamber models.