High-Throughput Screening of 3D-Printed Architected Materials Inspired by Crystal Lattices: Procedure, Challenges, and Mechanical Properties

Abstract: The search for load-bearing, impact-resistant, and energy-absorbing cellular materials is of central interest in many fields including aerospace, automotive, civil, sports, packaging, and biomedical. In order to achieve the desired characteristic geometry and/or topology, a perspective approach may be used, such as utilization of atomic models as input data for 3D printing of macroscopic objects. In this paper, we suggest a new approach for the development of advanced cellular materials�crystallomorphic design… Show more

“…New high-throughput approaches are being developed to automatically find cells with the greatest strength, based on correlations of structural properties with the strength of a 3D-printed object, using databases of crystal compounds, as in our recently published work [99]. The Atlas of Prospective Zeolite Structures (ATLAS) database was used as an input [113].…”

Crystal-Inspired Cellular Metamaterials and Triply Periodic Minimal Surfaces

“…New high-throughput approaches are being developed to automatically find cells with the greatest strength, based on correlations of structural properties with the strength of a 3D-printed object, using databases of crystal compounds, as in our recently published work [99]. The Atlas of Prospective Zeolite Structures (ATLAS) database was used as an input [113].…”

Crystal-Inspired Cellular Metamaterials and Triply Periodic Minimal Surfaces

Mechanical Properties of 3D-Printed Lattice Cylindrical Structure with Recyclable Elastomeric and Thermoplastic Polymers

Mechanical properties of porous materials based on new triply periodic and minimal surfaces