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Araya-Letelier, G., Antico, F. C., Carrasco, M., Rojas, P., & Garcia-Herrera, C. M. (2017). Effectiveness of new natural fibers on damage-mechanical performance of mortar. Constr. Build. Mater., 152, 672–682.
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Araya-Letelier, G., Concha-Riedel, J., Antico, F. C., Valdes, C., & Caceres, G. (2018). Influence of natural fiber dosage and length on adobe mixes damage-mechanical behavior. Constr. Build. Mater., 174, 645–655.
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Baier, R. V., Raggio, J. I. C., Arancibia, C. T., Bustamante, M., Perez, L., Burda, I., et al. (2021). Structure-function assessment of 3D-printed porous scaffolds by a low-cost/ open source fused filament fabrication printer. Mater. Sci. Eng. C-Mater. Biol. Appl., 123, 111945.
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Collins, C. J., Vivanco, J. F., Sokn, S. A., Williams, B. O., Burgers, T. A., & Ploeg, H. L. (2015). Fracture healing in mice lacking Pten in osteoblasts: a micro-computed tomography image-based analysis of the mechanical properties of the femur. J. Biomech., 48(2), 310–317.
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Contreras-Raggio, J. I., Arancibia, C. T., Millan, C., Ploeg, H. L., Aiyangar, A., & Vivanco, J. F. (2022). Height-to-Diameter Ratio and Porosity Strongly Influence Bulk Compressive Mechanical Properties of 3D-Printed Polymer Scaffolds. Polymers, 14(22), 5017.
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Norambuena-Contreras, J., Gonzalez-Torre, I., Vivanco, J. F., & Gacitua, W. (2016). Nanomechanical properties of polymeric fibres used in geosynthetics. Polym. Test, 54, 67–77.
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Slane, J., Vivanco, J., Ebenstein, D., Squire, M., & Ploeg, H. L. (2014). Multiscale characterization of acrylic bone cement modified with functionalized mesoporous silica nanoparticles. J. Mech. Behav. Biomed. Mater., 37, 141–152.
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Slane, J., Vivanco, J., Rose, W., Ploeg, H. L., & Squire, M. (2015). Mechanical, material, and antimicrobial properties of acrylic bone cement impregnated with silver nanoparticles. Mater. Sci. Eng. C-Mater. Biol. Appl., 48, 188–196.
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Slane, J. A., Vivanco, J. F., Rose, W. E., Squire, M. W., & Ploeg, H. L. (2014). The influence of low concentrations of a water soluble poragen on the material properties, antibiotic release, and biofilm inhibition of an acrylic bone cement. Mater. Sci. Eng. C-Mater. Biol. Appl., 42, 168–176.
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