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A platform for research: civil engineering, architecture and urbanism
Probabilistic Design and Management of Sustainable Concrete Infrastructure Using Multi-Physics Service Life Models
This paper looks to address the grand challenge of integrating construction materials engineering research within a multi-scale, inter-disciplinary research and management framework for sustainable concrete infrastructure. The ultimate goal is to drive sustainability-focused innovation and adoption cycles in the broader architecture, engineering, construction (AEC) industry. Specifically, a probabilistic design framework for sustainable concrete infrastructure and a multi-physics service life model for reinforced concrete are presented as important points of integration for innovation between construction materials engineers and the broader AEC industry. First, the paper details a probabilistic framework for design of reinforced concrete infrastructure to achieve targeted improvements in sustainability indicators. The framework, compliant with the 2010 fib Model Code requirements for environmental design, consists of concrete service life models and life cycle assessment (LCA) models. Both types of models (service life and LCA) are formulated stochastically so that the service life and time(s) to repair, as well as total sustainability impact, are described by a probability distribution. A central component of this framework is a newly developed multi-physics service life model of reinforced concrete members subjected to chloride-induced corrosion. The corrosion model is based on stringent physical laws describing thermodynamics and kinetics of electrochemical processes including various reinforcement corrosion phenomena, such as activation, resistance, and concentration polarization as well as the impact of temperature, relative humidity, and oxygen. To describe corrosion-induced damage, a thermal analogy is used to model the expansive nature of solid corrosion products. A mechanical model further accounts for the penetration of solid corrosion products into the available pore space of the surrounding cementitious materials as well as nonuniform distribution of corrosion products along the circumference of the ...
Probabilistic Design and Management of Sustainable Concrete Infrastructure Using Multi-Physics Service Life Models
This paper looks to address the grand challenge of integrating construction materials engineering research within a multi-scale, inter-disciplinary research and management framework for sustainable concrete infrastructure. The ultimate goal is to drive sustainability-focused innovation and adoption cycles in the broader architecture, engineering, construction (AEC) industry. Specifically, a probabilistic design framework for sustainable concrete infrastructure and a multi-physics service life model for reinforced concrete are presented as important points of integration for innovation between construction materials engineers and the broader AEC industry. First, the paper details a probabilistic framework for design of reinforced concrete infrastructure to achieve targeted improvements in sustainability indicators. The framework, compliant with the 2010 fib Model Code requirements for environmental design, consists of concrete service life models and life cycle assessment (LCA) models. Both types of models (service life and LCA) are formulated stochastically so that the service life and time(s) to repair, as well as total sustainability impact, are described by a probability distribution. A central component of this framework is a newly developed multi-physics service life model of reinforced concrete members subjected to chloride-induced corrosion. The corrosion model is based on stringent physical laws describing thermodynamics and kinetics of electrochemical processes including various reinforcement corrosion phenomena, such as activation, resistance, and concentration polarization as well as the impact of temperature, relative humidity, and oxygen. To describe corrosion-induced damage, a thermal analogy is used to model the expansive nature of solid corrosion products. A mechanical model further accounts for the penetration of solid corrosion products into the available pore space of the surrounding cementitious materials as well as nonuniform distribution of corrosion products along the circumference of the ...
Probabilistic Design and Management of Sustainable Concrete Infrastructure Using Multi-Physics Service Life Models
Lepech, Michael (author) / Geiker, Mette (author) / Michel, Alexander (author) / Stang, Henrik (author)
2016-01-01
Lepech , M , Geiker , M , Michel , A & Stang , H 2016 , ' Probabilistic Design and Management of Sustainable Concrete Infrastructure Using Multi-Physics Service Life Models ' , Paper presented at 1st International Conference on Grand Challenges in Construction Materials , Los Angeles, CA , United States , 17/03/2017 - 18/03/2017 .
Conference paper
Electronic Resource
English
Probabilistic Design of Sustainable Reinforced Concrete Infrastructure Repairs Using SIPmath
| BASE | 2020
Probabilistic Design of Sustainable Reinforced Concrete Infrastructure Repairs Using SIPmath
| BASE | 2020
Probabilistic Design of Sustainable Reinforced Concrete Infrastructure Repairs Using SIPmath
| DOAJ | 2020