![UF engineers create viable artificial blood vessels by stretching the science of silicone 3D printing - Powering the New Engineer UF engineers create viable artificial blood vessels by stretching the science of silicone 3D printing - Powering the New Engineer](https://www.eng.ufl.edu/newengineer/wp-content/uploads/sites/76/2023/04/26-013-Tommy-Angelini-3D-soft-silicone-printing.jpg)
UF engineers create viable artificial blood vessels by stretching the science of silicone 3D printing - Powering the New Engineer
![UF MAE on Twitter: "Professor Thomas Angelini and his lab recently had an article published in Science Magazine highlighting their newly developed silicone 3-D printing technique. Check it out here: https://t.co/VfkrpkUIOD https://t.co/FixGaojHcX" / UF MAE on Twitter: "Professor Thomas Angelini and his lab recently had an article published in Science Magazine highlighting their newly developed silicone 3-D printing technique. Check it out here: https://t.co/VfkrpkUIOD https://t.co/FixGaojHcX" /](https://pbs.twimg.com/media/Fs4SlOMaQAAi-kw.jpg)
UF MAE on Twitter: "Professor Thomas Angelini and his lab recently had an article published in Science Magazine highlighting their newly developed silicone 3-D printing technique. Check it out here: https://t.co/VfkrpkUIOD https://t.co/FixGaojHcX" /
![Tommy Angelini, Univ. of Florida & KITP, Biofilms Suck and Epithelial Cells Blow: Forces in Multicellular Systems Tommy Angelini, Univ. of Florida & KITP, Biofilms Suck and Epithelial Cells Blow: Forces in Multicellular Systems](https://online.kitp.ucsb.edu/online/multicell13/angelini/tv/play_thumb.jpg)