Abstract
Abstract The incorporation of fibers in concrete produces an improvement in the characteristics of the material as observed in different studies. In order to obtain the same good results, fibers are added to rendering mortars to reduce some of their drawbacks. However, this type of mortar has some specific characteristics, such as hydrated-lime utilization or higher air, which is not usual in concrete. Thus, this study aims to evaluate the potential of polypropylene fibers to reduce early age cracking caused by restrained shrinkage in rendering mortars. Two types of mortars were used to verify possible differences in the way they responded to the introduction of fiber. The influence of the fiber content was also investigated. Mortars were evaluated in fresh state, and mechanical behaviors were measured at several ages. The restrained shrinkage cracking was followed for 21 days using the ring test method. The use of polypropylene fibers leads a smaller value of total crack width and a delay of the first crack. Also, the elastic modulus shows a higher correlation with the mortars crack width. Both parameters were successfully used to predict the mortars crack width. The ring test method may be a suitable test method to evaluate the capacity of fibers to control the crack formation in rendering mortars.
Highlights
Mineral binder mortars applied to external masonry walls are the most popular constructive solution for renderings in Brazil
Age shrinkage of cementitious matrices is the result of several complex physicochemical phenomena
In rendering mortars, a high mechanical strength does not ensure performance; (c) the use of polypropylene fibers leads to a smaller value of total crack width and a delay of the first crack
Summary
Mineral binder mortars applied to external masonry walls are the most popular constructive solution for renderings in Brazil. These renderings are used mainly to protect buildings from external actions. The main causes of cracking in renderings are thermal and shrinkage deformations. Age shrinkage of cementitious matrices is the result of several complex physicochemical phenomena. One solution that is being considered to reduce the effects of plastic shrinkage in cement-based materials is the use of small contents of synthetic fibers. Several studies have been carried out on this topic (SANJUAN; MORAGUES, 1997; MESBAH; BUYLE-BODIN, 1999; ALY; SANJAYAN; COLLINS, 2008; PEREIRA-DE-OLIVEIRA; CASTRO-GOMES; NEPOMUCENO, 2012)
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