Soydan Ozcan Group Leader, Sustainable Manufacturing Technologies Contact OZCANS@ORNL.GOV All Publications Evacuated Spheres for Closed-Cell Vacuum Insulation Degradation of E-glass fiber mechanical properties during composite sheet molding compound production for automotive applications Poplar as Biofiber Reinforcement in Composites for Large-Scale 3D Printing Effect of surface treatment of microfiberlated cellulose fibers on biocomposite properties and additive manufacturing process Strong and Tough Cellulose Nanofibrils Composite Films: Mechanism of Synergetic Effect of Hydrogen Bonds and Ionic Interactions Recycling of Commercial E-glass Reinforced Thermoset Composites via Two Temperature Step Pyrolysis to Improve Recovered Fiber... High modulus biocomposites via additive manufacturing: Cellulose nanofibril networks as “microsponges” Sustainability Indicators for Biobased Product Manufacturing: A Systematic Review MICRO-CELLULOSE FIBER REINFORCED BIOCOMPOSITES FOR ADDITIVE MANUFACTURING MICRO-CELLULOSE FIBER REINFORCED BIOCOMPOSITES FOR ADDITIVE MANUFACTURING... Micro-cellulose Fiber Reinforced Biocomposites for Additive Manufacturing MICRO-CELLULOSE FIBER REINFORCED BIOCOMPOSITES FOR ADDITIVE MANUFACTURING MICRO-CELLULOSE FIBER REINFORCED BIOCOMPOSITES FOR ADDITIVE MANUFACTURING... MICRO-CELLULOSE FIBER REINFORCED BIOCOMPOSITES FOR ADDITIVE MANUFACTURING MICRO-CELLULOSE FIBER REINFORCED BIOCOMPOSITES FOR ADDITIVE MANUFACTURING Micro-cellulose Fiber Reinforced Biocomposites for Additive Manufacturing MICRO-CELLULOSE FIBER REINFORCED BIOCOMPOSITES FOR ADDITIVE MANUFACTURING Micro-cellulose Fiber Reinforced Biocomposites for Additive Manufacturing MICRO-CELLULOSE FIBER REINFORCED BIOCOMPOSITES FOR ADDITIVE MANUFACTURING MICRO-CELLULOSE FIBER REINFORCED BIOCOMPOSITES FOR ADDITIVE MANUFACTURING MICRO-CELLULOSE FIBER REINFORCED BIOCOMPOSITES FOR ADDITIVE MANUFACTURING MICRO-CELLULOSE FIBER REINFORCED BIOCOMPOSITES FOR ADDITIVE MANUFACTURING MICRO-CELLULOSE FIBER REINFORCED BIOCOMPOSITES FOR ADDITIVE MANUFACTURING Toughening of nanocelluose/PLA composites via bio-epoxy interaction: Mechanistic study Supertough PLA-Silane Nanohybrids by in Situ Condensation and Grafting Pagination First page « First Previous page ‹‹ … Page 3 Current page 4 Page 5 Next page ›› Last page Last » Key Links ORCID Organizations Energy Science and Technology Directorate Manufacturing Science Division Composite Science and Technology Section Sustainable Manufacturing Technologies Group User Facilities Manufacturing Demonstration Facility Carbon Fiber Technology Facility
News ORNL demonstrates affordable, energy efficient, low-carbon building technologies on National Mall during HUD Innovation Housing Showcase
