Litcius/Paper detail

Design Criteria for Architected Materials with Programmable Mechanical Properties Within Theoretical Limit Ranges

Peng Yin, Baotong Li, Baotong Li, Jun Hong, Hui Jing, Bang Li, Bang Li, Honglei Liu, Xiaoming Chen, Yang Lü, Jinyou Shao

2023Advanced Science18 citationsDOIOpen Access PDF

Abstract

Architected materials comprising periodic arrangements of cells have attracted considerable interest in various fields because of their unconventional properties and versatile functionality. Although some better properties may be exhibited when this homogeneous layout is broken, most such studies rely on a fixed material geometry, which limits the design space for material properties. Here, combining heterogeneous and homogeneous assembly of cells to generate tunable geometries, a hierarchically architected material (HAM) capable of significantly enhancing mechanical properties is proposed. Guided by the theoretical model and 745 752 simulation cases, generic design criteria are introduced, including dual screening for unique mechanical properties and careful assembly of specific spatial layouts, to identify the geometry of materials with extreme properties. Such criteria facilitate the potential for unprecedented properties such as Young's modulus at the theoretical limit and tunable positive and negative Poisson's ratios in an ultra-large range. Therefore, this study opens a new paradigm for materials with extreme mechanical properties.

Topics & Concepts

Limit (mathematics)HomogeneousMaterial propertiesRange (aeronautics)ModulusComputer scienceMaterials scienceMaterial DesignNanotechnologyComposite materialStatistical physicsMathematicsPhysicsMathematical analysisCellular and Composite StructuresAdvanced Materials and MechanicsModular Robots and Swarm Intelligence
Design Criteria for Architected Materials with Programmable Mechanical Properties Within Theoretical Limit Ranges | Litcius