Home > Press > New composite advances lignin as a renewable 3D printing material
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| ORNL scientists have created a new composite material for additive manufacturing that makes use of lignin, a biofuels byproduct. CREDIT Oak Ridge National Laboratory. |
Abstract:
Scientists at the Department of Energy's Oak Ridge National Laboratory have created a recipe for a renewable 3D printing feedstock that could spur a profitable new use for an intractable biorefinery byproduct: lignin.
New composite advances lignin as a renewable 3D printing material
Oak Ridge, TN | Posted on December 28th, 2018The discovery, detailed in Science Advances, expands ORNL's achievements in lowering the cost of bioproducts by creating novel uses for lignin--the material left over from the processing of biomass. Lignin gives plants rigidity and also makes biomass resistant to being broken down into useful products.
"Finding new uses for lignin can improve the economics of the entire biorefining process," said ORNL project lead Amit Naskar.
Researchers combined a melt-stable hardwood lignin with conventional plastic, a low-melting nylon, and carbon fiber to create a composite with just the right characteristics for extrusion and weld strength between layers during the printing process, as well as excellent mechanical properties.
The work is tricky. Lignin chars easily; unlike workhorse composites like acrylonitrile-butadiene-styrene (ABS) that are made of petroleum-based thermoplastics, lignin can only be heated to a certain temperature for softening and extrusion from a 3D-printing nozzle. Prolonged exposure to heat dramatically increases its viscosity--it becomes too thick to be extruded easily.
But when researchers combined lignin with nylon, they found a surprising result: the composite's room temperature stiffness increased while its melt viscosity decreased. The lignin-nylon material had tensile strength similar to nylon alone and lower viscosity, in fact, than conventional ABS or high impact polystyrene.
The scientists conducted neutron scattering at the High Flux Isotope Reactor and used advanced microscopy at the Center for Nanophase Materials Science--both DOE Office of Science User Facilities at ORNL--to explore the composite's molecular structure. They found that the combination of lignin and nylon "appeared to have almost a lubrication or plasticizing effect on the composite," noted Naskar.
"Structural characteristics of lignin are critical to enhance 3D printability of the materials," said ORNL's Ngoc Nguyen who collaborated on the project.
Scientists were also able to mix in a higher percentage of lignin--40 to 50 percent by weight--a new achievement in the quest for a lignin-based printing material. ORNL scientists then added 4 to 16 percent carbon fiber into the mix. The new composite heats up more easily, flows faster for speedier printing, and results in a stronger product.
"ORNL's world-class capabilities in materials characterization and synthesis are essential to the challenge of transforming byproducts like lignin into coproducts, generating potential new revenue streams for industry and creating novel renewable composites for advanced manufacturing," said Moe Khaleel, associate laboratory director for Energy and Environmental Sciences.
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The lignin-nylon composite is patent-pending and work is ongoing to refine the material and find other ways to process it. The ORNL research team also included Sietske Barnes, Christopher Bowland, Kelly Meek, Kenneth Littrell and Jong Keum. The research was funded by DOE's Office of Energy Efficiency and Renewable Energy's Bioenergy Technologies Office.
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About Oak Ridge National Laboratory
ORNL is managed by UT-Battelle for the Department of Energy's Office of Science, the single largest supporter of basic research in the physical sciences in the United States. DOE's Office of Science is working to address some of the most pressing challenges of our time. For more information, please visit https://science.energy.gov.
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Contacts:
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