PSI - Issue 55

Giovanna Bartels et al. / Procedia Structural Integrity 55 (2024) 88–95 Giovanna Bartels et al./ Structural Integrity Procedia 00 (2023) 000 – 000

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ready, its efficacy depends on real-time observations of the roof's condition, specially to compare with the suggested maintenance and anticipated anomalies. Given that there is not a historical background yet, the plan is predominantly derived from literature reviews, collaborative research with the development team, and on-site observations during the solution's application on the roof. This approach can have necessary adaptations, ensuring the maintenance strategy aligns with the real-world scenarios, making proactive maintenance efforts agile, adaptive, and effective. This methodology should be followed when a new constructive solution is designed and contributes to enhance long-term performance with minor environmental impacts over time. Acknowledgements This work is part of the research activity carried out at Civil Engineering Research and Innovation for Sustainability (CERIS) and has been funded by Fundação para a Ciência e a Tecnologia (FCT) in the framework of project UIDB/04625/2020. A special acknowledgment is awarded to the Smart Roofs System promoters and companies that made available the data needed to conclude this work: CeNTI, Citeve, Itecons, Saint-Gobain - Weber and Têxteis Amorim Isolamentos, S.A. 2016. DAPHabitat , Declaration number: DAP 002:2016 Expanded Insulation Corckboard (ICB). 2016. Botejara-Antúnez, M.; González-Domínguez, J.; García-Sanz-Calcedo, J. 2022. Comparative analysis of flat roof systems using life cycle assessment methodology: Application to healthcare buildings. Journal of Case Studies in Construction Materials, v. 17, ISSN 2214-5095. CEN. 2019. EN 15804+A2: Sustainability of construction works – Environmental product declarations – Core rules for the product category of construction products. Flores-Colen, I.; Gomide, T. L. F.; Flora, S. M. D. 2022. Manual de Manutenção em Edificações: Estudos, Técnicas e Aplicações. Leud. Lisboa, Portugal. Gomes, R. 2014. Life cycle assessment “from cradle to cradle” of constructive solutions in buildings – Application to flat roofs. Ph.D. thesis, Instituto Superior Técnico, Universidade Técnica de Lisboa, Lisboa, Portugal. Gonçalves, M., Silvestre, J. D., De Brito, J., Gomes, R. 2019. Environmental and economic comparison of the life cycle of waterproofing solutions for flat roofs. Journal of Building Engineering. ISO, 2006. EN ISO 14040: 2006. Environmental management – Life cycle assessment – Principles and framework. ISO. Jo, J.H.; Carlson, J.D.; Golden, J.S.; Bryan, H. 2010. An integrated empirical and modeling methodology for analyzing solar reflective roof technologies on commercial buildings, Journal of Building and Environment, v. 45, p 453-460, ISSN 0360-1323. Maris Saint-Gobain. 2023. Program EPD . Environmental Product Declaration – MARIS Solvent-based Products. https://api.environdec.com/api/v1/EPDLibrary/Files/770d2445-1ae1-4819-a8b6-08db1289e542/Data Marrana, T., Silvestre, J., De Brito, J., Gomes, R. 2017. Life cycle cost analysis of flat roofs of buildings, In Journal of Construction Engineering and Management. Monteiro, N. 2022. Anomalies in Facades and Roofs. Development of Inspection Sheets. MSc. Thesis, Faculdade de Engenharia, Universidade do Porto. Pargana, N., Pinheiro, M., Silvestre, J., De Brito, J. 2014. Comparative environmental life cycle assessment of thermal insulation materials of buildings. Pedroso, M.; Silvestre, J. D.; Flores-Colen, I. 2019. Life Cycle Assessment Study Report: Exterior review system for apparent deaths in Saint Gobain Weber, Instituto da Construção - FEUP e CERIS – IST. Perret, J. 2019. Guide to Building Maintenance. Êditions Le Moniteur. Silvestre, J. D. 2012. Life Cycle Assessment “from cradle to cradle” of building assemblies – Application to External Walls. Ph.D. thesis, Instituto Superior Técnico, Universidade Técnica de Lisboa, Lisboa, Portugal. Silvestre, J. D.; Pargana, N.; De Brito, J.; Pinheiro, M. D.; Durão, V. 2016. Insulation Cork Boards – Environmental Life Cycle Assessment of an Organic Construction Material. Tecnopol. 2023. Program DAPConstrucción . Environmental Product Declaration: Desmopol System – Polyurethane Waterproofing Membrane. https://csosteniblev4.s3.eu-west-1.amazonaws.com/dapcons/DAPcons_100_132-ENG.pdf Penedo S.A. References

Volcalis, Isolamentos Minerais S.A. 2022. DAPHabitat , Declaration number: DAP 007:2022 Mineral Wool. Weber Saint-Gobain. 2023. Program EPD. – Environmental Product Declaration – Weber Solvent-Based Products.