Katie Copenhaver Contact 865.454.2270 | COPENHAVERKE@ORNL.GOV All Publications High-strength 3D printed poly(lactic acid) composites reinforced by shear-aligned polymer-grafted cellulose nanofibrils 2 Hybrid composite materials and their properties... Demonstration of the carbon capture with building make-up air unit Exploiting the Properties of Non-Wood Feedstocks to Produce Tailorable Lignin-Containing Cellulose Nanofibers Molecular-level design of alternative media for energy-saving pilot-scale fibrillation of nanocellulose A multifunctional rooftop unit for direct air capture Improving the Recyclability of Polymer Composites With Cellulose Nanofibrils Development of multifunctional nylon 6,6-based nanocomposites with high electrical and thermal conductivities by scalable melt and dry blending methods for automotive applications Development of multifunctional nylon 6,6-based nanocomposites with high electrical and thermal conductivities by scalable melt and dry blending methods for automotive applications Effect of Internal Structure on Warpage in a Large-Scale Additive Manufacturing Process With Bio-Derived Composites DEVELOPMENT OF HIGHLY FILLED BIO-BASED COMPOSITES FOR SUSTAINABLE, LOW-COST FEEDSTOCK: PROCESSING EFFECTS ON POROSITY AND FIBER ALIGNMENT Static Mixing Nozzles for Long and Short Fiber Additive Extrusion Processes Bioinspired design toward nanocellulose-based materials Recycling polymer composite granulate/regrind using big area additive manufacturing Polymer-Grafted Cellulose Nanofibrils with Enhanced Interfacial Compatibility for Stronger Poly(lactic acid) Composites Recyclability of additively manufactured bio-based composites Aqueous-Based Polyimine Functionalization of Cellulose Nanofibrils for Effective Drying and Polymer Composite Reinforcement... LARGE SCALE POLYMER ADDITIVE MANUFACTURING OF LIGHTWEIGHT FOAM STRUCTURES Pretreatment of lignocellulosic feedstocks for cellulose nanofibril production Turning Natural Herbaceous Fibers into Advanced Materials for Sustainability Exploiting chitosan to improve the interface of nanocellulose reinforced polymer composites Recycling of natural fiber composites: Challenges and opportunities Recycling of natural fiber composites: Challenges and opportunities Plastic waste upcycling toward a circular economy Recycled Cardboard Containers as a Low Energy Source for Cellulose Nanofibrils and Their Use in Poly(l-lactide) Nanocomposites Pagination Current page 1 Page 2 Next page ›â¶Äº Last page Last » Organizations Energy Science and Technology Directorate Manufacturing Science Division Composite Science and Technology Section Sustainable Manufacturing Technologies Group
