Zero-thickness interface constitutive theory for concrete self-healing effects-Reference-Cited by-同舟云学术

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Zero-thickness interface constitutive theory for concrete self-healing effects

Published:2017-07 Issue: Volume:186 Page:22-34
ISSN:0045-7949
Container-title:Computers & Structures
language:en
Short-container-title:Computers & Structures

Author:

Caggiano Antonio,Etse Guillermo,Ferrara Liberato,Krelani Visar

Funder

CONICET

CIUNT

University of Buenos Aires

Publisher

Elsevier BV

Subject

Computer Science Applications,Mechanical Engineering,General Materials Science,Modelling and Simulation,Civil and Structural Engineering

Reference48 articles.

1. Carbon dioxide emissions and climate change: policy implications for the cement industry;Rehan;Environ Sci Pol,2005

2. Physical properties and mechanical behaviour of concrete made with recycled aggregates and fly ash;Lima;Construct Build Mater,2013

3. Application of bacteria as self-healing agent for the development of sustainable concrete;Jonkers;Ecol Eng,2010

4. Bacterial concrete: new era for construction industry;Vekariya;Int J Eng Trends Technol,2013

5. De Rooij M, Schlangen E. Self-healing phenomena in cement-based materials. Draft of State-of-the-Art report of RILEM Technical Committee; 2011.

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1. Theoretical estimation of the elastic moduli of self-healing concrete relevant to the evolution of cracks closing due to crystallization- and precipitation-based mechanism;Journal of Building Engineering;2022-10

2. Evaluation of the effect of Waste steel Shaving, damage severity and strain level on the healing behavior of asphalt mixtures at different damaging-healing cycles;Construction and Building Materials;2022-09

3. A crack-opening-dependent numerical model for self-healing cementitious materials;International Journal of Solids and Structures;2022-06

4. A discrete numerical model for the effects of crack healing on the behaviour of ordinary plain concrete: Implementation, calibration, and validation;Engineering Fracture Mechanics;2022-03

5. Numerical Simulation of Self-Healing Cementitious Materials;Engineering Materials and Processes;2021-12-09

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