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How STEM Teachers Can Immerse Themselves in the Three Rs Over the Summer: Rejuvenate, Replenish, and Reenergize.
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- Science Scope, 2020, v. 43, n. 7, p. 8, doi. 10.1080/08872376.2020.12291325
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Melt compounding of spray-dried cellulose nanofibrils/polypropylene and their application in 3D printing.
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- Cellulose, 2024, v. 31, n. 12, p. 7531, doi. 10.1007/s10570-024-06038-w
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Characterization of spray dried cellulose nanofibrils produced by a disk refining process at different fineness levels.
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- Cellulose, 2024, v. 31, n. 1, p. 263, doi. 10.1007/s10570-023-05613-x
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Production of nano-scale cellulose nanocrystal powder via electrospray drying (ESD) for sustainable composites.
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- Cellulose, 2023, v. 30, n. 10, p. 6303, doi. 10.1007/s10570-023-05217-5
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Recyclable grease-proof cellulose nanocomposites with enhanced water resistance for food serving applications.
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- Cellulose, 2022, v. 29, n. 10, p. 5623, doi. 10.1007/s10570-022-04608-4
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- Article
Pretreatment of lignocellulosic feedstocks for cellulose nanofibril production.
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- Cellulose, 2022, v. 29, n. 9, p. 4835, doi. 10.1007/s10570-022-04580-z
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Surface characterization of weathered and heat‐treated wood‐based composites reinforced by styrene maleic anhydride.
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- Color Research & Application, 2019, v. 44, n. 6, p. 1017, doi. 10.1002/col.22417
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Transportation Cost Analysis on Alternative Wood Feedstocks for Manufacturing Wood-Plastic Composites.
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- BioResources, 2022, v. 17, n. 1, p. 634, doi. 10.15376/biores.17.1.634-651
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Characterization of Ultrafine Cellulose-filled High-Density Polyethylene Composites Prepared using Different Compounding Methods.
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- BioResources, 2016, v. 11, n. 4, p. 8178, doi. 10.15376/biores.11.4.8178-8199
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Characterization of Ultrafine Cellulose-filled High- Density Polyethylene Composites Prepared using Different Compounding Methods.
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- BioResources, 2016, v. 11, n. 4, p. 8178, doi. 10.15376/biores.11.4.8178-8199
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Rheological and Mechanical Properties of Ultra-fine Cellulose-Filled Thermoplastic Epoxy Composites.
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- BioResources, 2016, v. 11, n. 2, p. 4770, doi. 10.15376/biores.11.2.4770-4780
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- Article
Thermal Analysis of Polyamide 6 Composites Filled by Natural Fiber Blend.
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- BioResources, 2016, v. 11, n. 2, p. 4758, doi. 10.15376/biores.11.2.4758-4769
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- Article
Contact Angles and Wettability of Cellulosic Surfaces: A Review of Proposed Mechanisms and Test Strategies.
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- BioResources, 2015, v. 10, n. 4, p. 8657, doi. 10.15376/biores.10.4.Hubbe_Gardner_Shen
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- Article
Elasto-Plastic Finite Element Modeling of Short Carbon Fiber Reinforced 3D Printed Acrylonitrile Butadiene Styrene Composites.
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- JOM: The Journal of The Minerals, Metals & Materials Society (TMS), 2020, v. 72, n. 1, p. 475, doi. 10.1007/s11837-019-03895-w
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Towards a cellulose-based society: opportunities and challenges.
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- Cellulose, 2021, v. 28, n. 8, p. 4511, doi. 10.1007/s10570-021-03771-4
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Effect of wettability and surface free energy of collection substrates on the structure and morphology of dry-spun cellulose nanofibril filaments.
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- Cellulose, 2018, v. 25, n. 11, p. 6305, doi. 10.1007/s10570-018-2029-3
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Mechanisms contributing to mechanical property changes in composites of polypropylene reinforced with spray-dried cellulose nanofibrils.
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- Cellulose, 2018, v. 25, n. 1, p. 439, doi. 10.1007/s10570-017-1556-7
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A Critical Evaluation and Modification of the Padé–Laplace Method for Deconvolution of Viscoelastic Spectra.
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- Molecules, 2021, v. 26, n. 16, p. 4838, doi. 10.3390/molecules26164838
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Fully Bio-Based Hybrid Composites Made of Wood, Fungal Mycelium and Cellulose Nanofibrils.
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- Scientific Reports, 2019, v. 9, n. 1, p. 1, doi. 10.1038/s41598-019-40442-8
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Morphological properties of impact fracture surfaces and essential work of fracture analysis of cellulose nanofibril-filled polypropylene composites.
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- Journal of Applied Polymer Science, 2013, v. 128, n. 5, p. 3064, doi. 10.1002/app.38513
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Inverse gas chromatography for determining the dispersive surface free energy and acid-base interactions of sheet molding compound-Part II 14 Ligno-cellulosic fiber types for possible composite reinforcement.
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- Journal of Applied Polymer Science, 2008, v. 110, n. 6, p. 3880, doi. 10.1002/app.28956
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Inverse gas chromatography for the determination of the dispersive surface free energy and acid-base interactions of a sheet molding compound. I. Matrix material and glass.
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- Journal of Applied Polymer Science, 2008, v. 109, n. 6, p. 3519, doi. 10.1002/app.28389
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Glass-transition temperature based on dynamic mechanical thermal analysis techniques as an indicator of the adhesive performance of vinyl ester resinThis is paper 2809 of the Maine Agricultural and Forest Experiment Station.
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- Journal of Applied Polymer Science, 2005, v. 97, n. 6, p. 2221
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Understanding the viscoelastic properties of extruded polypropylene wood plastic composites.
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- Journal of Applied Polymer Science, 2003, v. 89, n. 6, p. 1638
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Viscoelastic and thermal analysis of lignocellulosic material filled polypropylene bio-composites.
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- Journal of Thermal Analysis & Calorimetry, 2009, v. 98, n. 2, p. 553, doi. 10.1007/s10973-009-0324-9
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Cellulose NANOFIBER-polyethylene nanocomposites modified by polyvinyl alcohol.
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- Journal of Applied Polymer Science, 2016, v. 133, n. 6, p. n/a, doi. 10.1002/app.42933
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- Article
A Comparison of the Treatability of Southern Yellow Pine to Five Appalachian Hardwoods.
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- Forest Products Journal, 1999, v. 49, n. 2, p. 89
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Effect of the Addition of Polymer Fluff to Wood Furnish on the Mechanical and Physical Properties of Wood Fiberboard.
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- Forest Products Journal, 1999, v. 49, n. 2, p. 32
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Preservative treatment evaluation of five appalachian hardwoods at two moisture contents.
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- Forest Products Journal, 1998, v. 48, n. 7, p. 37
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Aqueous Polymer Modification of Cellulose Nanofibrils by Grafting‐Through a Reactive Methacrylate Group.
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- Macromolecular Rapid Communications, 2021, v. 42, n. 3, p. 1, doi. 10.1002/marc.202000531
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A process for coupling wood to thermoplastic using graft copolymers.
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- Advances in Polymer Technology, 1995, v. 14, n. 2, p. 97, doi. 10.1002/adv.1995.060140202
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Modeling the Long-Term Deformation of a Geodesic Spherical Frame Structure Made from Wood Plastic Composite Lumber.
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- Applied Sciences (2076-3417), 2020, v. 10, n. 14, p. 5017, doi. 10.3390/app10145017
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Surface Characterization of Heat-Treated Wood Filled Styrene Maleic Anhydride (SMA) Composites.
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- Karaelmas Science & Engineering Journal / Karaelmas Fen ve Mühendislik Dergisi, 2018, v. 8, n. 1, p. 299, doi. 10.7212%2Fzkufbd.v8i1.1066
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Finite Element Analysis of Heat Treated Wood Filled Styrene Maleic Anhydride (SMA) Copolymer Composites.
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- Wood Industry / Drvna Industrija, 2019, v. 70, n. 1, p. 43, doi. 10.5552/drvind.2019.1808
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Feasibility of Using Foamed Styrene Maleic Anhydride (SMA) Co-polymer in Wood Based Composites.
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- Wood Industry / Drvna Industrija, 2016, v. 67, n. 4, p. 399, doi. 10.5552/drind.2016.1624
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Cellulose nanofibril‐reinforced polypropylene composites for material extrusion: Rheological properties.
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- Polymer Engineering & Science, 2018, v. 58, n. 5, p. 793, doi. 10.1002/pen.24615
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Nanoclay reinforced polyethylene composites: Effect of different melt compounding methods.
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- Polymer Engineering & Science, 2017, v. 57, n. 3, p. 324, doi. 10.1002/pen.24428
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Polyamide 6-Cellulose Composites: Effect of Cellulose Composition on Melt Rheology and Crystallization Behavior.
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- Polymer Engineering & Science, 2014, v. 54, n. 4, p. 739, doi. 10.1002/pen.23603
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Dewatering Behavior of a Wood-Cellulose Nanofibril Particulate System.
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- Scientific Reports, 2019, v. 9, n. 1, p. N.PAG, doi. 10.1038/s41598-019-51177-x
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Glycerine Treated Nanofibrillated Cellulose Composites.
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- Journal of Nanomaterials, 2016, p. 1, doi. 10.1155/2016/7851308
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Fundamental aspects of wood as a component of thermoplastic composites.
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- Journal of Vinyl & Additive Technology, 2003, v. 9, n. 2, p. 96, doi. 10.1002/vnl.10069
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The effects of cellulosic fillers on the mechanical, morphological, thermal, viscoelastic, and rheological properties of polyhydroxybutyrate biopolymers.
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- Polymer Composites, 2020, v. 41, n. 9, p. 3842, doi. 10.1002/pc.25681
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- Article
Rheological and thermal properties of exfoliated graphite nanoplatelets‐filled impact modified polypropylene nanocomposites.
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- Polymer Composites, 2018, v. 39, p. E1512, doi. 10.1002/pc.24400
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Maleic anhydride polypropylene modified cellulose nanofibril polypropylene nanocomposites with enhanced impact strength.
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- Polymer Composites, 2016, v. 37, n. 3, p. 782, doi. 10.1002/pc.23235
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Natural fiber blend-nylon 6 composites.
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- Polymer Composites, 2013, v. 34, n. 4, p. 544, doi. 10.1002/pc.22463
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Dynamic mechanical properties of extruded nylon-wood composites.
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- Polymer Composites, 2008, v. 29, n. 4, p. 372, doi. 10.1002/pc.20400
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TEN-YEAR FIELD STUDY OF WOOD PLASTIC COMPOSITES IN SANTIAGO, CHILE: BIOLOGICAL, MECHANICAL AND PHYSICAL PROPERTY PERFORMANCE.
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- Maderas: Ciencia y Tecnología, 2018, v. 20, n. 2, p. 257, doi. 10.4067/S0718-221X2018005002901
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Thermal properties of spray-dried cellulose nanofibril-reinforced polypropylene composites from extrusion-based additive manufacturing.
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- Journal of Thermal Analysis & Calorimetry, 2019, v. 136, n. 3, p. 1069, doi. 10.1007/s10973-018-7759-9
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Surface Preparation and Treatment for Large-Scale 3D-Printed Composite Tooling Coating Adhesion.
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- Coatings (2079-6412), 2018, v. 8, n. 12, p. 457, doi. 10.3390/coatings8120457
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Identification of percolation threshold of spray‐dried cellulose nanocrystals in homopolymer polypropylene composites.
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- Journal of Applied Polymer Science, 2024, v. 141, n. 28, p. 1, doi. 10.1002/app.55627
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