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oapen-20.500.12657-555172022-06-01T03:38:51Z Serviceability and post-failure behaviour of laminated glass structural elements PISCITELLI, LORENZO RUGGERO bic Book Industry Communication::T Technology, engineering, agriculture::TN Civil engineering, surveying & building::TNK Building construction & materials bic Book Industry Communication::T Technology, engineering, agriculture::TN Civil engineering, surveying & building::TNT Building skills & trades Glass structures are being built ever more frequently all over the world, in a growing architectural trend towards light, transparency and sustainability. The engineering design of laminated glass elements being profoundly influenced by properties of interlayers, this multi-scale research highlights some among the key elements on the hyperelastic and viscoplastic response of such synthetic materials. Results and new discoveries are interpreted to better model and predict the response of laminated glass structures: examples are provided for design applications to post-failure safety assessments, structural design and cold-bending techniques. Still, in a vastly unknown field, a growing market and foggy regulatory framework, many challenges and research opportunities remain to be dealt with. 2022-05-31T10:32:22Z 2022-05-31T10:32:22Z 2019 book ONIX_20220531_9788864539850_801 2612-8020 9788864539850 9788864539843 9788892730144 https://library.oapen.org/handle/20.500.12657/55517 eng Premio Tesi di Dottorato application/pdf Attribution 4.0 International 9788864539850.pdf https://books.fupress.com/isbn/9788864539850 Firenze University Press 10.36253/978-88-6453-985-0 10.36253/978-88-6453-985-0 bf65d21a-78e5-4ba2-983a-dbfa90962870 9788864539850 9788864539843 9788892730144 80 298 Florence open access
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Glass structures are being built ever more frequently all over the world, in a growing architectural trend towards light, transparency and sustainability. The engineering design of laminated glass elements being profoundly influenced by properties of interlayers, this multi-scale research highlights some among the key elements on the hyperelastic and viscoplastic response of such synthetic materials. Results and new discoveries are interpreted to better model and predict the response of laminated glass structures: examples are provided for design applications to post-failure safety assessments, structural design and cold-bending techniques. Still, in a vastly unknown field, a growing market and foggy regulatory framework, many challenges and research opportunities remain to be dealt with.
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