TY - CHAP A1 - Sýkora, Miroslav A1 - Botte, Wouter A1 - Caspeele, Robby A1 - Diamantidis, Dimitris A1 - Muttoni, Aurelio A1 - Steenbergen, Raphaël D.J.M. T1 - Probabilistic models for resistance variables in fib Model Code 2020 for design and assessment T2 - Acta Polytechnica CTU Proceedings N2 - The fib Model Code offers pre-normative guidance based on the synthesis of international research, industry and engineering expertise. Its new edition (draft MC 2020) will bring together coherent knowledge and experience for both the design of new concrete structures and the assessment of existing concrete structures. This contribution presents an overview of the main developments related to the partial factors for materials. In the draft MC2020, the partial factors are presented in tables for clusters of cases depending on consequence classes and variability of basic variables. Furthermore, formulas and background information are provided to facilitate updating of the partial factors. This contribution discusses the different assumptions adopted in MC 2020 for design and assessment. Main changes with respect to the previous version are related to description of the difference between in-situ concrete strength and the material strength measured on control specimens, and to modelling of geometrical variables. The presented comparison of the requirements imposed by Eurocodes and MC 2020 for design reveals insignificant differences. The assessment requirements may be decreased by about 25% when the conditions specified in MC 2020 are satisfied. Hence, the revised MC 2020 will provide designers and code makers with wider possibilities to utilise actual data and long-term experience in assessments of existing structures. KW - assessment of existing concrete structures KW - fib Model Code 2020 KW - partial factors KW - probabilistic models Y1 - 2022 UR - https://ojs.cvut.cz/ojs/index.php/APP/article/view/8407 U6 - https://doi.org/10.14311/APP.2022.36.0206 VL - 36 SP - 206 EP - 215 PB - Czech Technical University in Prague ER - TY - JOUR A1 - Pandey, Mahesh A1 - Viljoen, Celeste A1 - Way, Andrew A1 - Katharina Fischer, Katharina A1 - Sýkora, Miroslav A1 - Diamantidis, Dimitris A1 - Steenbergen, Raphaël D.J.M. A1 - Lind, Niels A1 - Frangopol, Dan M. A1 - Yang, David Y. A1 - Retief, Johan Verster A1 - André, João A1 - Nathwani, Jatin A1 - Lenner, Roman T1 - Life safety in the Reliability-Based design and assessment of structures JF - Structural Safety N2 - We review the developments in life safety and the incorporation thereof in the design and assessment of structures over the last 50 years. Various measures of life safety are presented that have been developed according to the marginal life saving cost principle based on individual, societal and economic considerations. Target probabilities of failure, or target reliabilities, are central to modern structural design and assessment. These are derived either through back-calibration to existing practice or through life cycle cost minimisation, both of which yield comparable safety levels, and are underpinned by lower bounds from life safety. Life cycle cost minimisation is reviewed here, which considers all direct and indirect costs of failure including loss of life and limb, as well as the costs and efficiency of increasing reliability. We discuss the incorporation of life safety into reliability-based design and assessment through the concept of the Life Quality Index, which uses key societal indicators, namely, the GDP and life expectancy, and health economics as a basis for specifying minimum reliabilities for both new and existing structures. The current state of advancement of reliability- and risk-informed design, and recommendations for future developments in life safety are considered. KW - Life safety KW - Structural assessment KW - Standardization KW - Reliability-based design KW - Risk-informed design Y1 - 2024 U6 - https://doi.org/10.1016/j.strusafe.2024.102453 PB - Elsevier ER -