Energy absorption characteristics of additively manufactured sea sponge-inspired lattice structures under low-velocity impact loadingOA
Energy absorption characteristics of additively manufactured sea sponge-inspired lattice structures under low-velocity impact loading
J Jefferson Andrew;Jabir Ubaid;Mohammed Ayaz Uddin;Omar Waqas Saadi;Kamran Ahmed Khan;Rehan Umer;Andreas Schiffer
Department of Aerospace Engineering,Khalifa University of Science & Technology,Abu Dhabi,127788,United Arab EmiratesResearch and Innovation Center for Graphene and 2D Materials(RIC2D),Khalifa University of Science & Technology,Abu Dhabi,127788,United Arab EmiratesDepartment of Aerospace Engineering,Khalifa University of Science & Technology,Abu Dhabi,127788,United Arab EmiratesResearch and Innovation Center for Graphene and 2D Materials(RIC2D),Khalifa University of Science & Technology,Abu Dhabi,127788,United Arab EmiratesDepartment of Mechanical and Nuclear Engineering,Khalifa University of Science & Technology,Abu Dhabi,127788,United Arab EmiratesDepartment of Mechanical and Nuclear Engineering,Khalifa University of Science & Technology,Abu Dhabi,127788,United Arab EmiratesDepartment of Aerospace Engineering,Khalifa University of Science & Technology,Abu Dhabi,127788,United Arab Emirates
Sea sponge-inspired lattice structuresAdditive manufacturingEnergy absorptionLow-velocity impactLattice structureNanocomposite
Sea sponge-inspired lattice structuresAdditive manufacturingEnergy absorptionLow-velocity impactLattice structureNanocomposite
《防务技术》 2026 (1)
118-129,12
This publication is based on work supported by the Khalifa University of Science and Technology internal grants(Nos.2021-CIRA-109,2020-CIRA-007,and 2020-CIRA-024).
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