Search Results - yong+huang

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Polymer 3D Printing at Room Temperature
Reduces Waste, Allows for the Creation of Complex Polymeric Structures at Low Cost, and Enables Customization This solvent-assisted 3D-printing process directly prints polymer structures at room temperature, enabling a customization not achievable with traditional manufacturing. Available polymer 3D-printing systems require elevated temperatures to...
Published: 9/7/2022   |   Inventor(s): Yong Huang, Marc Sole Gras, Bing Ren
Keywords(s):  
Category(s): Technology Classifications > Engineering > Materials
3D Printing to Fabricate Metal and Advanced Structures at Room Temperature
Operates at Normal Environmental Conditions to Print Metallic, Ceramic, and Composite Parts More Efficiently This binder-based 3D printing process allows the production of metallic, ceramic, and composite structures at room temperature and normal atmospheric conditions. 3D printing, also known as additive manufacturing, creates structures by successively...
Published: 1/24/2023   |   Inventor(s): Yong Huang, Marc Sole Gras, Bing Ren
Keywords(s):  
Category(s): Technology Classifications > Engineering > Chemical
Processing Technique for Ceramic- based Energy Conversion and Storage Devices
Due to rising carbon emissions, extreme weather events and other environmental threats, the demand for alternative energy sources is greater than ever. Therefore, businesses and communities are asking for three things: more affordable electricity, more resilient power, and cleaner energy. Fuel cells, electrolysis cells, membrane reactors, and solid-state...
Published: 1/11/2024   |   Inventor(s): Hai Xiao, Jianhua Tong, Fei Peng, Kyle Brinkman, Jincheng Lei, Yuzhe Hong, Hua Huang, Shenglong Mu, Rajendra Bordia
Keywords(s):  
Category(s): Manufacturing
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
Coaxial Nozzle Assembly to Fabricate Capsules and Provide Double Layers of Protection
Dispenses Liquid Materials and Encapsulates Them at the Same Time to Build Double-Layered CapsulesThis encapsulation nozzle uses a coaxial configuration with three channels to fabricate materials into capsules with two layers of protective coatings. Encapsulation is a manufacturing procedure that aims to atomize, immobilize, protect, and control the...
Published: 6/27/2021   |   Inventor(s): Yong Huang, Yifei Jin
Keywords(s): Double-layered capsule, Encapsulation, three-layered coaxial nozzle, vibration
Category(s): Technology Classifications > Engineering > Mechanical
Nanoclay Colloid for Improved Extrusion 3D Printing of Hydrogels
Nanoclay Particles Form an Internal Scaffolding to Maintain the Integrity of 3D Structures During Printing This nanoclay colloid combines with hydrogel ink as a self-supporting internal scaffolding material, providing 3D-printed hydrogel precursor structures with the mechanical strength to maintain integrity without the need for rapid solidification...
Published: 6/27/2021   |   Inventor(s): Yong Huang, Yifei Jin, Ashley Compaan, Wenxuan Chai, Chengcheng Liu
Keywords(s): 3D printing, Nanoclay, Self-Supported
Category(s): Technology Classifications > Engineering > Materials
Nanoclay Support Bath for Liquid Build Material Extrusion 3D Printing Without Rapid Phase Change
Nanoclay Bath Supports Printed Structures During Fabrication, Allowing for Liquid Phase Build Material PrintingThis nanoclay support bath stabilizes 3D-printed liquid build material (including hydrogel) structures during fabrication, eliminating the need for the structure to undergo a rapid phase change (usually solidification, but sometimes curing...
Published: 6/27/2021   |   Inventor(s): Yong Huang, Yifei Jin, Ashley Compaan, Wenxuan Chai
Keywords(s): 3D printing, Embedded printing, Laponite nanoclay, Yield stress support material
Category(s): Technology Classifications > Engineering > Mechanical
3D Printer that Uses Intersecting Inkjets to Fabricate Biological Structures
Simultaneously Prints then Mixes Reactive Materials for Precise 3D BioprintsThis 3D printer uses intersecting inkjets that print then mix reactive materials to create functional biological structures successfully. Bioprinting, or using 3D printing to assemble biological structures, benefits healthcare fields, such as tissue engineering and regenerative...
Published: 6/27/2021   |   Inventor(s): Yong Huang, Kyle Christensen
Keywords(s): 3D printing, Intersecting Tets, Post Print Mixing, Printing-then-mixing, Reactive Materials
Category(s): Technology Classifications > Engineering, Technology Classifications > Engineering > Materials
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