This paper presents a comprehensive review of modeling of alkali-silica reaction (ASR) in
concrete. Such modeling is essential for investigating the chemical expansion mechanism …

The assessment of concrete structures affected by alkali–silica reaction (ASR) is a complex
problem due to the multiscale nature of this long-term phenomenon. The reaction starts …

A large number of structures especially in high humidity environments are endangered by
Alkali–Silica Reaction (ASR). ASR leads to the formation of an expansive gel that imbibes …

A new constitutive model for alkali-aggregate reaction (AAR) expansion is presented. This
thermo-chemo-mechanical model is rooted in the chemistry, physics, and mechanics of …

Written to meet the requirements of engineers working in construction and concrete
manufacturing, Mineral Admixtures in Cement and Concrete focuses on how to make more …

A chemo-thermo-damage model is proposed to simulate the swelling and the deterioration
of local stiffness and strength in concrete due to the alkali-aggregate reaction (AAR) …

The effects of expansion on concrete structures induced by alkali–silica reaction (ASR) are
complex. Numerous attempts have been made to model them. Some of these models …

Alkali Silica Reaction (ASR) is known to be a serious problem for concrete worldwide,
especially in high humidity and high temperature regions. ASR is a slow process that …

The process of ASR (Alkali-Silica Reaction) induced expansion and damage in pavement
concrete specimens is investigated using laboratory experiments and computational …

Modeling the behavior of alkali aggregate reaction (AAR)-damaged concrete is made
complex by the large number of elementary physical phenomena to be taken into account …