Limit states for sustainable reinforced concrete structures

Limit states for sustainable reinforced concrete structures

Probability-based limit state design is a hallmark of modern civil engineering practice. Code requirements to meet both ultimate limit states (ULS) and serviceability limit states (SLS) have vastly improved the safety and usefulness of concrete structures. To meet increasing challenges of triple bot...

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Bibliographic Details
Published in:Cement and concrete research Vol. 122; pp. 189 - 195
Main Authors: Geiker, Mette R., Michel, Alexander, Stang, Henrik, Lepech, Michel D.
Format: Journal Article
Language:English
Published: Elmsford Elsevier Ltd 01-08-2019
Elsevier BV
Subjects:
Civil engineering
Concrete
Concrete (E)
Concrete structures
Corrosion
Corrosion (C)
Design engineering
Design optimization
Deterioration
Durability (C)
Environmental impact
Environmental management
Global warming
Limit state design
Marine environment
Modeling (E)
Offshore structures
Reinforced concrete
Sustainability
Modeling (E)
Corrosion (C)
Concrete (E)
Durability (C)
Sustainability
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Summary:Probability-based limit state design is a hallmark of modern civil engineering practice. Code requirements to meet both ultimate limit states (ULS) and serviceability limit states (SLS) have vastly improved the safety and usefulness of concrete structures. To meet increasing challenges of triple bottom line sustainability (covering social, environmental and economic aspects), a new class of design limit states are needed within code-based engineering design practice. A framework for sustainable design and management considering environmental impacts was earlier developed, and a multi-physics and multi-scale deterioration model for reinforced concrete affected by chloride-induced corrosion was established. A simplified case study is presented in which a reinforced concrete panel is exposed to a marine environment. The multi-physics deterioration model is used to determine the time until an engineering limit state (cracking due to reinforcement corrosion) is reached, and a design and maintenance optimization is performed with regard to sustainability (global warming potential footprint).
ISSN:0008-8846
1873-3948
DOI:10.1016/j.cemconres.2019.04.013