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Design Approach for Tuning the Hybrid Region of 3D-Printed Heterogeneous Structures: Modulating Mechanics and Energy Absorption Capacity

Zhitong Li, Runchao Zhao, Daniel Chen, Yinghou Jiao, Zhaobo Chen

2023ACS Applied Materials & Interfaces22 citationsDOI

Abstract

The functional hierarchical structures of the triply periodic minimal surface are receiving much attention in tissue engineering applications due to their lightweight and multifunctionality. However, current functionally graded structure design methods are not friendly to heterogeneous structures containing different orientations and different unit types and often face the problems of insufficient connection in the hybrid regions and low local stiffness. In this paper, an improved gradient structure design method was proposed, which solves the problem of insufficient connection between substructures by constructing hybrid region transition functions. Three improved heterogeneous structures were constructed using Primitive and Gyroid lattices and compared with the unimproved heterogeneous structure. Their mechanical properties, deformation mechanism, and energy absorption capacity were examined by finite element analysis and experiments. The results showed that the proposed design method can effectively solve the problems of insufficient connection and poor bearing capacity in the hybrid region between substructures. This method can not only ensure the full connection of the hybrid regions but also flexibly adjust the mechanical properties and energy absorption capacity as well as effectively expand the application range of the energy absorption. Overall, these findings provide valuable guidelines for designing gradient structures with disordered and hybrid features.

Topics & Concepts

StiffnessFinite element methodMaterials scienceConnection (principal bundle)Absorption (acoustics)Range (aeronautics)Deformation (meteorology)Absorption capacityFace (sociological concept)Energy (signal processing)GyroidComputer scienceMechanical engineeringStructural engineeringComposite materialMathematicsEngineeringChemical engineeringCopolymerPolymerSociologyStatisticsSocial scienceCellular and Composite StructuresAdvanced Materials and MechanicsAdditive Manufacturing and 3D Printing Technologies
Design Approach for Tuning the Hybrid Region of 3D-Printed Heterogeneous Structures: Modulating Mechanics and Energy Absorption Capacity | Litcius