Sustainable near UV-curable acrylates based on natural phenolics for stereolithography 3D printing

Keyphrases

• Near-UV 100%
• Acrylate 100%
• Natural Phenolic Compounds 100%
• UV-curable 100%
• Stereolithography 3D Printing 100%
• Methacrylate 66%
• Cross-linker 66%
• Device Engineering 33%
• 3D Printer 33%
• 3D Printing 33%
• High Performance 33%
• Violet Laser 33%
• Tissue Engineering 33%
• Viscosity 33%
• Synthetic Strategies 33%
• Glass Transition Temperature 33%
• Desktop 33%
• Thermal Properties 33%
• Scalable Methods 33%
• Environmentally Friendly 33%
• Bifunctional 33%
• Petroleum-derived 33%
• Terpolymer 33%
• Cure Rate 33%
• Tensile Strength 33%
• Storage Modulus 33%
• Laser Source 33%
• Tensile Behavior 33%
• Infrared Spectra 33%
• Thermosetting 33%
• Eugenol 33%
• Cohesive Energy Density 33%
• Breakage 33%
• Crosslinking Degree 33%
• Bioelectronic Medicine 33%
• Photoinitiator 33%
• Trimethylolpropane Trimethacrylate 33%
• Dimethacrylate 33%
• Aromaticity 33%
• Dental Tissues 33%
• Mechanical Robustness 33%
• Guaiacyl 33%
• Photocuring 33%
• Photo-initiated 33%
• Temperature Property 33%
• Additive Manufacturing 33%
• Phenolic Bioactives 33%
• Thiol-ene Chemistry 33%
• Bifunctionality 33%
• Reactive Diluent 33%
• Vanillyl Alcohol 33%
• 1,8-octanedithiol 33%
• Photo-rheology 33%
• Stereolithographic 33%
• Real-time Infrared 33%
• Dental Devices 33%
• High Efficiency 33%
• 3D-printable 33%
• Ternary Formulation 33%

Material Science

• Three Dimensional Printing 100%
• Stereolithography 100%
• Glass Transition Temperature 33%
• Thermal Property 33%
• Elastic Moduli 33%
• Tensile Loads 33%
• Ultimate Tensile Strength 33%
• Laser Source 33%
• Energy Density 33%
• Curing 33%

Chemical Engineering

• Acrylic Acid Derivative 100%
• Oligomer 33%
• Terpolymers 33%
• Acrylate 33%
• Acrylic Acid 33%
• Aromaticity 33%
• Additive Manufacturing 33%