Additive Manufacturing of Topology-Optimized Graded Porous Structures: An Experimental Study

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Abstract

Graded porous structures, combining the high stiffness of bulk designs and the robustness of porous structures, have received increasing attention in the fields of topology optimization and additive manufacturing. This study aims to experimentally investigate the properties of topology-optimized and additively manufactured graded porous structures, with comparisons to conventional bulk designs and one-level porous structures. Examples with graded porosity are designed through a unique multiporosity topology optimization framework. This multiporosity framework generalizes the concept of multiple materials; i.e., each material field has a different level of local porosity, thus realizing the automatic distribution of multilevel porosity. The optimized designs are fabricated via the mask stereolithography process using photosensitive resins. Based on three-point bending tests, we study the failure processes and the influences of material deficiency on elastic stiffness for the three types of optimized designs: bulk, one-level porous, and graded porous designs. Experimental results demonstrate that the additively manufactured optimized graded porous structures not only have relatively high structural stiffness and load-carrying capacities but also show a ductile failure mode and certain robustness against material deficiency. The presented work contributes to experimental studies on demonstrating the combined advantages of topology-optimized graded porous structures by comparing the structural performances of graded porous structures with bulk designs and one-level porous structures.

Original languageEnglish (US)
Pages (from-to)2022-2030
Number of pages9
JournalJOM
Volume73
Issue number7
DOIs
StatePublished - Jul 2021

ASJC Scopus subject areas

  • General Materials Science
  • General Engineering

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