Search Results - kaidong+song

3 Results Sort By:
Room Temperature Additive Manufacturing to 3D Print Precision Plastics
Produces Intricate Freeform Structures from a Wide Range of Materials, Including Engineering PolymersThis freeform additive manufacturing process prints parts from a variety of engineering polymers using a deposition solution that coagulates at room temperature. 3D printing is an excellent tool for rapid prototyping or creating complex parts for specialty...
Published: 6/27/2021   |   Inventor(s): Yong Huang, Ashley Compaan, Kaidong Song
Keywords(s): coagulation, Deposition modeling, Extrusion, room temperature printing, Yield-stress support bath
Category(s): Technology Classifications > Engineering > Materials
Fumed Silica Support Bath for 3D Printing Freeform Structures from Hydrophobic Materials
Facilitates Extrusion Printing of Hydrophobic Functional Inks That Have Varying Cross-linking MechanismsThis 3D printing support bath holds extruded material in a hydrophobic suspension that has strong thermal stability, enabling freeform fabrication of complex hydrophobic structures from inks with varying cross-linking or solidification requirements....
Published: 6/27/2021   |   Inventor(s): Yong Huang, Yifei Jin, Nevada Gellermann, Kaidong Song
Keywords(s): 3D printing, fumed silica suspension, hydrophobic liquid material, solid-liquid transition
Category(s): Technology Classifications > Engineering > Materials
Versatile Embedded 3D Bioprinting to Create Thick Biomedical Tissue Structures
Creates Complex Thick Tissues Using a Cellular Hydrogel Composite MatrixThis biocompatible matrix bath enables rapid 3D printing of thick tissue analogues with custom features. Tissue engineering is a rapidly growing field that requires advanced fabrication techniques to create permeable thick constructs with specific channels, cavities, and cell compositions...
Published: 6/27/2021   |   Inventor(s): Yong Huang, Ashley Compaan, Wenxuan Chai, Kaidong Song
Keywords(s): bioprinting, composite materials, Embedded printing, Hydrogel, in situ, Microgel, perfusion, thick tissue
Category(s): Technology Classifications > Engineering > Materials