| Title | Publication
Date | Publication
Name | Author(s) | Research
Area(s) | Keywords |
|---|
| Exfoliated graphite nanoplatelet-filled impact modified polypropylene nanocomposites: influence of particle diameter, filler loading, and coupling agent on the mechanical properties | 2024 | Applied Nanoscience | Duguay, A.
Nader, J. W.
Kiziltas, A.
Gardner, D. J.
Dagher H. J. | Material Development & Characterization | exfoliated graphite nanoplatelets
Fiber-reinforced polymer (FRP)
impact modified polypropylene
polymer composites
R&D
research and development
XGnP |
| A Critical Review on Modification Methods of CementComposites with Nanocellulose and Reaction Conditionsduring Nanocellulose Production (1) | 2022 | materials MDPI | Szadraniec, M.
Grabias-Blicharz, E.
Barnat-Hunek, D.
Landis, E. N. | Nanocellulose | Cement Composites
Fiber-reinforced polymer (FRP)
Nanocellulose |
| Computational model for predicting the low-velocity impact resistance and tolerance of composite laminates | 2022 | Composites Part B: Engineering | Alabbada, M.
Velb, S.
Lopez-Anido, R. | Composite Testing | energies
Fiber-reinforced polymer (FRP)
velocity |
| High-Strength Polylactic Acid (PLA) Biocomposites Reinforced by Epoxy-Modified Pine Fibers | 2020 | ACS Sustainable Chemistry & Engineering | Zhao, X.
Li, K.
Wang, Y.
Tekinalp, H.
Larsen, G.
Rasmussen, D.
Ozcan, S. | Material Development & Characterization | biocomposite
Fiber-reinforced polymer (FRP)
polylactic acid |
| The synergy between cellulose nanofibrils and calcium carbonate in a hybrid composite system | 2020 | Cellulose Journal | Hafez, I.
Ezatollah, A.
Tajvidi, M. | Material Development & Characterization | calcium carbonate
Fiber-reinforced polymer (FRP)
Nanocellulose |
| Flexural Creep Behavior of HDPE Lumber and WPC Lumber made from Thermally Modified Wood | 2020 | Construction & Building Materials | Alrubaie, M.
Lopez-Anido, R.
Gardner, D. J. | Wood Composites | Fiber-reinforced polymer (FRP)
Nanocellulose
Wood Composites |
| Experimental and Numerical Investigation of Splicing of Concrete-filled Fiber-reinforced Polymer Tubes | 2018 | Construction and Building Materials | Majeed, H.
Davids, W. G.
Lopez-Anido, R.
Burns, J.
Rushing, T. | Material Development & Characterization | Concrete
Fiber-reinforced polymer (FRP) |
| Cellulose Nanofibrils-reinforced Polypropylene Composites for Material Extrusion: Rheological Properties | 2017 | Polymer Engineering & Science | Wang, L.
Gardner, D.J .
Bousfield, D. | Wood Composites | Composite Materials
Fiber-reinforced polymer (FRP)
Nanocellulose
Wood Composites |
| In-situ modification of cellulose nanofibrils by organosilanes during spray
drying. | 2016 | Industrial Crops and Products | Wang, L.
Sanders, J.
Gardner, D. J.
Han, Y. | Wood Composites | Fiber-reinforced polymer (FRP)
Nanocellulose
Wood Composites |
| Design, construction and load testing of a composite FRP-glulam-concretegirder bridge | 2015 | Transportation Research Record: Journal of the Transportation Research Board, CD 11-S, TRB, National ResearchCouncil; | Davids, W. G.
Dagher, H.
Sanchez, O.
Weaver, C. | Transportation Infrastrucutre Durability | Bridge
Fiber-reinforced polymer (FRP)
Glulam |
Advanced Structures & Composites Center