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Effect of porosity on shock propagation behaviour of single crystal aluminium: A molecular dynamics investigation

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dc.contributor.author Sharma, Anuj
dc.date.accessioned 2023-11-09T06:52:04Z
dc.date.available 2023-11-09T06:52:04Z
dc.date.issued 2023-02
dc.identifier.uri https://www.sciencedirect.com/science/article/abs/pii/S016766362200299X
dc.identifier.uri http://dspace.bits-pilani.ac.in:8080/xmlui/handle/123456789/12950
dc.description.abstract Materials' response to shock waves is largely affected not only by their inherent atomic structure but also by their physical structure. Current study involves analysis of shock propagation behaviour of single crystal aluminium (Al) specimens with different levels of porosities at nanoscale under a compressive shock loading using three dimensional molecular dynamics (MD) simulations. Solid, two dimensional array of pores, and three dimensional array of pores in the single crystal Al specimen were considered for detailed analysis of the shock response. It is observed that the porosity causes time delay in the travel of shock wave from front end of the surface to the rear end. The computational results indicate that the porosity results into increase in time of shock wave travel and it is found that the maximum porosity (47% in this simulation) causes 4 times the time of travel taken in solid Al specimen. The shock wave causes various sequential phenomenon in the Al specimen from compression to rarefaction which further leads to spalling of the material. The study also reveals that the pore walls act as a reflecting wall to the shock wave which causes secondary rarefactions and spalling phenomenon. Analyses show that the deformation in the material during shock loading is largely dominated by Shockley partial dislocations. en_US
dc.language.iso en en_US
dc.publisher Elsevier en_US
dc.subject Mechanical Engineering en_US
dc.subject Crystal aluminium en_US
dc.subject Molecular dynamics (MD) en_US
dc.title Effect of porosity on shock propagation behaviour of single crystal aluminium: A molecular dynamics investigation en_US
dc.type Article en_US


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