PSI - Issue 64

Irene Palomar et al. / Procedia Structural Integrity 64 (2024) 1435–1443 Irene Palomar et al. / Structural Integrity Procedia 00 (2024) 000 – 000

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Guardia, C., Schicchi, D.S., Caggiano, A., Barluenga, G., Koenders, E., 2020. On the capillary water absorption of cement - lime mortars containing phase change materials: Experiments and simulations. Building Simulation 13, 19–31. Guardia, C.; Barluenga, G.; Palomar, I., 2020. PCM Cement - Lime Mortars for Enhanced Energy Efficiency of Multilayered Building Enclosures under Different Climatic Conditions. Materials 13, 4043. He, Z., Shen, A., Guo, Y., Lyu, Z., L,i D., Qin, X., Zhao, M., Wang, Z., 2019. Cement - based materials modified with superabsorbent polymers: A review, Construction and Building Materials 225, 569 - 590. Magendran, S. S., Ahmed Khan , F. S., Mubarak N.M., Vaka, M., Walvekar, R., Khalid, M., Abdullah E.C., Nizamuddin, S., Karri , R. R., 2019. Synthesis of organic phase change materials (PCM) for energy storage applications: A review. Nano - Structures & Nano - Objects 20, 100399. Palomar, I., Barluenga, G., Puentes, J., 2015. Lime–cement mortars for coating with improved thermal and acoustic performance, Construction and Building Materials 75, 306 - 314. Palomar I., Barluenga G., 2017. Assessment of lime - cement mortar microstructure and properties by P - and S - ultrasonic waves. Construction and Building Materials 139, 334 - 341. Palomar, I.; Barluenga, G., 2018. A multiscale model for pervious lime - cement mortar with perlite and cellulose fibers. Construction and Building Materials 160, 136–144. Palomar, I., Barluenga, G., 2023. Acoustic Assessment of Multiscale Porous Lime - Cement Mortars. Materials 16 (1), 322. Pokorný, J.; Ševˇcík, R.; Šál, J.; Fiala, L.; Zárybnická, L.; Podolka, L. , 2022. Bio - based aggregate in the production of advanced thermal insulating concrete with improved acoustic performance. Construction and Building Materials 358, 129436. Puentes, J., Palomar, I., Barluenga, G., Guardia, C. 2023. Adaptative and Bioinspired Materials: Cement - Based Materials with Self - Modulating and Self - Sensing Pro perties. In: Cervera Sardá, M.R., Dușoiu, EC., Lascu, T.N. (eds) Architecture Inspired by Nature. Springer, Cham. Rode, C. (Ed.), Peuhkuri, R., Lone, H., Time, B., Gustavsen, A., Ojanen, T., Ahonen, J., Svennberg, K., Harderup, L - E., & Arfvidsson, J., 2006. Moisture Buffering of Building Materials. Technical University of Denmark DTU. DTU BYG - rapporter No. R - 126