Journal of The European Ceramic Society | 2021
Mechanical properties of 3D printed ceramic cellular materials with triply periodic minimal surface architectures
Abstract
Abstract In this study, four types of triply periodic minimal surface (TPMS) were implemented to create cellular ceramics via digital light processing (DLP) technology, namely p-cell, gyroid, IWP and s14. The mechanical properties of these TPMS structures were investigated experimentally. Results showed that compressive strength of TPMS structures increases with relative density. IWP and s14 structures exhibit similar mechanical response under stress. In general, all TPMS structures can sustain >2% strain without failure and the compressive strength followed the order of s14 > IWP\u2009>\u2009gyroid\u2009>\u2009p-cell. The s14 structure can reach a high compressive strength of 105\u2009MPa at a structural density of 30.5 % while gyroid structure can provide a compressive strength of 5.6\u2009MPa at a very low structural density of 6.7 %. The porosity dependence of Young’s modulus of sintered zirconia TPMS demonstrated that the Pabst-Gregorova exponential relation can provide a better prediction than the classical Gibson-Ashby model.