Development of parameterized unit cells for the elasticity modulation of 3D-printed midsoles

Thomas Friedrich; Lea Peuckert; Franziska Seidensticker; Lea Evers; Thorsten M. Buzug

doi:10.18416/AMMM.2026.26062743

Transactions on Additive Manufacturing Meets Medicine
Vol. 8 No. S1 (2026): Trans. AMMM Supplement
https://doi.org/10.18416/AMMM.2026.26062743

Material Properties, Structural Designs, and Printing Technologies, 2743

Development of parameterized unit cells for the elasticity modulation of 3D-printed midsoles

Thomas Friedrich (University of Lübeck), Lea Peuckert (Fraunhofer Research Institution for Individualized Medical Technology and Engineering IMTE, Lübeck, Germany), Franziska Seidensticker (1) Institute of Medical Engineering, University of Lübeck, Lübeck, Germany; 2) Fraunhofer Research Institution for Individualized Medical Technology and Engineering IMTE, Lübeck, Germany; 3) Technical University of Applied Sciences Lübeck, Lübeck, Germany), Lea Evers (1) Institute of Medical Engineering, University of Lübeck, Lübeck, Germany; 2) Fraunhofer Research Institution for Individualized Medical Technology and Engineering IMTE, Lübeck, Germany), Thorsten M. Buzug (1) Fraunhofer Research Institution for Individualized Medical Technology and Engineering IMTE, Lübeck, Germany; 2) 1 Institute of Medical Engineering, University of Lübeck, Lübeck, Germany)

This work is licensed under a Creative Commons Attribution 4.0 International License.

Abstract

Parameterized single-cell lattice structures were developed to enable localized elasticity control in 3D?printed shoe midsoles, addressing region-specific plantar pressure requirements for diabetic foot syndrome. Compression tests showed that geometric parameterization allows a wide, continuous range of mechanical properties, which can be mathematically interpolated.

How to Cite

Friedrich, T., Peuckert, L., Seidensticker, F., Evers, L., & Buzug, T. M. (2026). Development of parameterized unit cells for the elasticity modulation of 3D-printed midsoles. Transactions on Additive Manufacturing Meets Medicine, 8(S1), 2743. https://doi.org/10.18416/AMMM.2026.26062743

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