Issue 46

A. Akhavan-Safar et alii, Frattura ed Integrità Strutturale, 46 (2018) 266-274; DOI: 10.3221/IGF-ESIS.46.24 274 [12]Sierra-Pérez, J., Boschmonart-Rives, J., Dias, A.C. and Gabarrell, X. (2016). Environmental implications of the use of agglomerated cork as thermal insulation in buildings, J. Cleaner Production. 126, pp. 97-107. [13]Hernández-Olivares, F., Bollati, M., Del Rio, M. and Parga-Landa, B. (1999), Development of cork–gypsum composites for building applications. Construction and Building Materials, 13(4), pp. 179-186. [14]Barbosa, A., da Silva, L.F.M. and Oechsner, A. (2014). Effect of the amount of cork particles on the strength and glass transition temperature of a structural adhesive, Proceedings of the Institution of Mechanical Engineers, Part L: Journal of Materials Design and Applications, 228(4), pp. 323-333. [15]Barbosa, A., da Silva, L.F.M., Abenojar, J., del Real, J., Paiva, R.M. and Öchsner, A. (2015). Kinetic analysis and characterization of an epoxy/cork adhesive, Thermochimica Acta. 604, pp. 52-60. [16]Barbosa, A., da Silva, L.F.M., Abenojar, J., Figueiredo, M. and Öchsner, A. (2017). Toughness of a brittle epoxy resin reinforced with micro cork particles: Effect of size, amount and surface treatment, Composites Part B: Engineering. 114, pp. 299-310.