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Durability of Portland Cement Blends Including Calcined Clay and Limestone: Interactions with Sulfate, Chloride and Carbonate Ions
Shi, Z., Geiker, M. R., De Weerdt, K., Lothenbach, B., Kaufmann, J., Kunther, W., … Skibsted, D. (2015). Durability of Portland Cement Blends Including Calcined Clay and Limestone: Interactions with Sulfate, Chloride and Carbonate Ions. In K. Scrivener & A. Favier (Eds.), Rilem Bookseries: Vol. 10. Calcined clays for sustainable concrete (pp. 133-141). https://doi.org/10.1007/978-94-017-9939-3_17
Moisture storage and transport properties of preservative treated and untreated southern pine wood
Zelinka, S. L., Glass, S. V., Boardman, C. R., & Derome, D. (2016). Moisture storage and transport properties of preservative treated and untreated southern pine wood. Wood Material Science and Engineering, 11(4), 228-238. https://doi.org/10.1080/17480272.2014.973443
Pore connectivity characterization of shale using integrated wood's metal impregnation, microscopy, tomography, tracer mapping and porosimetry
Zhao, J., Hu, Q., Liu, K., Jin, Z., Dultz, S., Kaufmann, J., & Fan, Y. (2020). Pore connectivity characterization of shale using integrated wood's metal impregnation, microscopy, tomography, tracer mapping and porosimetry. Fuel, 259, 116248 (10 pp.). https://doi.org/10.1016/j.fuel.2019.116248
Pore structure of mortars with cellulose ether additions – Mercury intrusion porosimetry study
Wyrzykowski, M., Kiesewetter, R., Kaufmann, J., Baumann, R., & Lura, P. (2014). Pore structure of mortars with cellulose ether additions – Mercury intrusion porosimetry study. Cement and Concrete Composites, 53, 25-34. https://doi.org/10.1016/j.cemconcomp.2014.06.005
Porosity and pore size distribution of native and delignified beech wood determined by mercury intrusion porosimetry
Vitas, S., Segmehl, J. S., Burgert, I., & Cabane, E. (2019). Porosity and pore size distribution of native and delignified beech wood determined by mercury intrusion porosimetry. Materials, 12(3), 416 (13 pp.). https://doi.org/10.3390/ma12030416
Solvent-based ethyl silicate for stone consolidation: influence of the application technique on penetration depth, efficacy and pore occlusion
Franzoni, E., Graziani, G., Sassoni, E., Bacilieri, G., Griffa, M., & Lura, P. (2015). Solvent-based ethyl silicate for stone consolidation: influence of the application technique on penetration depth, efficacy and pore occlusion. Materials and Structures, 48, 3503-3515. https://doi.org/10.1617/s11527-014-0417-1