Cheng, T., Thielen, M., Poppinga, S., Tahouni, Y., Wood, D., Steinberg, T., Menges, A., & Speck, T. [ca. 2021]. Bio‐inspired motion mechanisms: computational design and material programming of self‐adjusting 4 D‐printed wearable systems [Cd]. Freiburg: Universität. https://doi.org/10.1002/advs.202100411

CHENG, Tiffany, THIELEN, Marc, POPPINGA, Simon, TAHOUNI, Yasaman, WOOD, Dylan, STEINBERG, Thorsten, MENGES, Achim und SPECK, Thomas, 2021. Bio‐inspired motion mechanisms: computational design and material programming of self‐adjusting 4 D‐printed wearable systems. Freiburg: Universität.

Cheng, T., M. Thielen, S. Poppinga, Y. Tahouni, D. Wood, T. Steinberg, A. Menges, und T. Speck. Bio‐inspired motion mechanisms: computational design and material programming of self‐adjusting 4 D‐printed wearable systems. cd, Universität, 2021, https://doi.org/10.1002/advs.202100411.

Cheng, Tiffany/Thielen, Marc/Poppinga, Simon/Tahouni, Yasaman/Wood, Dylan/Steinberg, Thorsten u. a.: Bio‐inspired motion mechanisms: computational design and material programming of self‐adjusting 4 D‐printed wearable systems, Freiburg 2021.

Cheng, T., Thielen, M., Poppinga, S., Tahouni, Y., Wood, D., Steinberg, T., Menges, A. und Speck, T. (2021), Bio‐inspired motion mechanisms: computational design and material programming of self‐adjusting 4 D‐printed wearable systems, Bd. , Universität, Freiburg, verfügbar unter:https://doi.org/10.1002/advs.202100411.