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Bitumen surface microstructure evolution in subzero environments
Tarpoudi Baheri, F., Schutzius, T. M., Poulikakos, D., & Poulikakos, L. D. (2020). Bitumen surface microstructure evolution in subzero environments. Journal of Microscopy, 279(1), 3-15. https://doi.org/10.1111/jmi.12890
Multiscale imaging and characterization of the effect of mixing temperature on asphalt concrete containing recycled components
Cavalli, M. C., Griffa, M., Bressi, S., Partl, M. N., Tebaldi, G., & Poulikakos, L. D. (2016). Multiscale imaging and characterization of the effect of mixing temperature on asphalt concrete containing recycled components. Journal of Microscopy, 264(1), 22-33. https://doi.org/10.1111/jmi.12412
Characterizing microcrack orientation distribution functions in osteonal bone samples
Wolfram, U., Schwiedrzik, J. J., Mirzaali, M. J., Bürki, A., Varga, P., Olivier, C., … Zysset, P. K. (2016). Characterizing microcrack orientation distribution functions in osteonal bone samples. Journal of Microscopy, 264(3), 268-281. https://doi.org/10.1111/jmi.12440
Visualization of water drying in porous materials by X-ray phase contrast imaging
Yang, F., Griffa, M., Bonnin, A., Mokso, R., Di Bella, C., Münch, B., … Lura, P. (2016). Visualization of water drying in porous materials by X-ray phase contrast imaging. Journal of Microscopy, 261(1), 88-104. https://doi.org/10.1111/jmi.12319
Segmentation of elemental EDS maps by means of multiple clustering combined with phase identification
Münch, B., Martin, L. H. J., & Leemann, A. (2015). Segmentation of elemental EDS maps by means of multiple clustering combined with phase identification. Journal of Microscopy, 260(3), 411-426. https://doi.org/10.1111/jmi.12309
Quantification of fly ash in hydrated, blended Portland cement pastes by backscattered electron imaging
Deschner, F., Münch, B., Winnefeld, F., & Lothenbach, B. (2013). Quantification of fly ash in hydrated, blended Portland cement pastes by backscattered electron imaging. Journal of Microscopy, 251(2), 188-204. https://doi.org/10.1111/jmi.12061
Focussed ion beam nanotomography reveals the 3D morphology of different solid phases in hardened cement pastes
Trtik, P., Münch, B., Gasser, P., Leemann, A., Loser, R., Wepf, R., & Lura, P. (2011). Focussed ion beam nanotomography reveals the 3D morphology of different solid phases in hardened cement pastes. Journal of Microscopy, 241(3), 234-242. https://doi.org/10.1111/j.1365-2818.2010.03433.x
Investigation of porous asphalt microstructure using optical and electron microscopy
Poulikakos, L. D., & Partl, M. N. (2010). Investigation of porous asphalt microstructure using optical and electron microscopy. Journal of Microscopy, 240(2), 145-154. https://doi.org/10.1111/j.1365-2818.2010.03388.x
EBSD: a powerful microstructure analysis technique in the field of solidification
Boehm-Courjault, E., Gonzales, F., Jacot, A., Kohler, F., Mariaux, A., Niederberger, C., … Rappaz, M. (2009). EBSD: a powerful microstructure analysis technique in the field of solidification. Journal of Microscopy, 233(1), 160-169. https://doi.org/10.1111/j.1365-2818.2008.03107.x
Limitation in obtainable surface roughness of hardened cement paste: 'virtual' topographic experiment based on focussed ion beam nanotomography datasets
Trtik, P., Dual, J., Muench, B., & Holzer, L. (2008). Limitation in obtainable surface roughness of hardened cement paste: 'virtual' topographic experiment based on focussed ion beam nanotomography datasets. Journal of Microscopy, 232(2), 200-206. https://doi.org/10.1111/j.1365-2818.2008.02090.x
Cryo-FIB-nanotomography for quantitative analysis of particle structures in cement suspensions
Holzer, L., Gasser, P., Kaech, A., Wegmann, M., Zingg, A., Wepf, R., & Münch, B. (2007). Cryo-FIB-nanotomography for quantitative analysis of particle structures in cement suspensions. Journal of Microscopy, 227(3), 216-228. https://doi.org/10.1111/j.1365-2818.2007.01804.x
Preparation of TEM samples of metal-oxide interface by the focused ion beam technique
Abolhassani, S., & Gasser, P. (2006). Preparation of TEM samples of metal-oxide interface by the focused ion beam technique. Journal of Microscopy, 223(1), 73-82. https://doi.org/10.1111/j.1365-2818.2006.01599.x
Application of the focused ion beam technique in aerosol science: detailed investigation of selected, airborne particles
Kaegi, R., & Gasser, P. (2006). Application of the focused ion beam technique in aerosol science: detailed investigation of selected, airborne particles. Journal of Microscopy, 224(2), 140-145. https://doi.org/10.1111/j.1365-2818.2006.01669.x
Three-dimensional analysis of porous BaTiO<sub>3</sub> ceramics using FIB nanotomography
Holzer, L., Indutnyi, F., Gasser, P., Münch, B., & Wegmann, M. (2004). Three-dimensional analysis of porous BaTiO3 ceramics using FIB nanotomography. Journal of Microscopy, 216(1), 84-95. https://doi.org/10.1111/j.0022-2720.2004.01397.x
Quantitative microstructure analysis of polymer-modified mortars
Jenni, A., Herwegh, M., Zurbriggen, R., Aberle, T., & Holzer, L. (2003). Quantitative microstructure analysis of polymer-modified mortars. Journal of Microscopy, 212(2), 186-196. https://doi.org/10.1046/j.1365-2818.2003.01230.x
Transmitted light microscopy of a fibre reinforced metal
Moser, B., Rossoll, A., Weber, L., Beffort, O., & Mortensen, A. (2003). Transmitted light microscopy of a fibre reinforced metal. Journal of Microscopy, 209(1), 8-12. https://doi.org/10.1046/j.1365-2818.2003.01097.x