Paper Number
GI4                         My Program 

Session
Gallery of Rheology - Images

Title
Luminous webs

Presentation Date and Time
October 22, 2025 (Wednesday) 6:30

Track / Room
Gallery of Rheology Session: Images / Sweeney Ballroom E+F

Authors (Click on name to view author profile)

1. Hossain, Mohammad Tanver (University Of Illinois Urbana-champaign, Mechanical Science and Engineering)
2. Ewoldt, Randy H. (University Of Illinois Urbana-champaign, Mechanical Science and Engineering)

Author and Affiliation Lines (in printed abstract book)
Mohammad Tanver Hossain and Randy H. Ewoldt
Mechanical Science and Engineering, University Of Illinois Urbana-champaign, Urbana, IL 61801

Speaker / Presenter 
Hossain, Mohammad Tanver

Keywords
None

Text of Abstract
Embedded 3D printing enables the fabrication of soft, intricate biological structures by extruding a liquid filament into a yield stress support matrix. This approach enables the creation of features that exceed the resolution limits of conventional 3D printing. Here, a soft fiber structure approximately 100 µm in diameter, illuminated under ultraviolet light, demonstrates the technique’s precision and stability. The aqueous microgel suspension supports both immobilizing the printed filament and permits in situ polymerization, producing mechanically stable architectures. This method facilitates the replication of complex biological forms such as spider webs and hagfish slime threads and informs the design of advanced biomimetic materials with improved structural fidelity and functional performance.