Abstract
In this work a coupled mechanical and transport lattice model based on Delaunay and Voronoi tessellations is used to model the penetration of corrosion products into the vicinity of the steel in a concrete specimen. The penetration of the corrosion products into the concrete is described by constitutive laws developed for volume transport through porous materials and the cracking resulting from this is modelled by the mechanical lattice using a damage mechanics constitutive law. The effect of penetration of the corrosion products into the pores and cracks on the time to cracking is investigated as part of this work. The numerical results are compared to experimental results reported in the literature.
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Acknowledgement
The numerical analyses were performed with the nonlinear analyses program OOFEM (Patzak and Bittnar 2001) extended by the present authors.
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© 2015 Springer International Publishing Switzerland
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Fahy, C., Grassl, P., Gallipoli, D. (2015). Corrosion Induced Cracking of Reinforced Concrete. In: Andrade, C., Gulikers, J., Polder, R. (eds) Durability of Reinforced Concrete from Composition to Protection. Springer, Cham. https://doi.org/10.1007/978-3-319-09921-7_8
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DOI: https://doi.org/10.1007/978-3-319-09921-7_8
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