2015
DOI: 10.1590/1516-1439.305314
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On the Strengthening of Cement Mortar by Natural Fibers

Abstract: The purpose of this work is to evaluate mechanical behavior of sisal fiber reinforced cement mortar. The composite material was produced from a mixture of sand, cement and water. Sisal fibers were added to the mixture in two different lengths. Mechanical characterization of the composite and the plain mortar was carried out using three point bend, compression and impact tests. Specimens containing parallel sided notches of different root radii were loaded in three point bending in order to determine the effect… Show more

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Cited by 56 publications
(31 citation statements)
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“…However, some researches show similar results as in this study (e.g. Pereira et al (2015), Puertas et al (2003), Kruszka et al (2015), Chan and Bindiganavile (2010)). Lower compressive strength of the tested fiber reinforced mortars can be explained by their reduced workability and compaction due to greater amount of fibers and small dimensions of specimens.…”
Section: Ultrasonic Pulse Velocity Testsupporting
confidence: 87%
“…However, some researches show similar results as in this study (e.g. Pereira et al (2015), Puertas et al (2003), Kruszka et al (2015), Chan and Bindiganavile (2010)). Lower compressive strength of the tested fiber reinforced mortars can be explained by their reduced workability and compaction due to greater amount of fibers and small dimensions of specimens.…”
Section: Ultrasonic Pulse Velocity Testsupporting
confidence: 87%
“…A variety of specimen sizes have been employed for Charpy impact testing of cementitious composites, as listed in Table 1. The most common specimen sizes are equivalent or very close to 10 by 10 by 50 mm [35][36][37][38], which is consistent with standardized methods for metals or 25.4 by 25.4 by 50.8 mm with 40 mm span [42][43][44]51,52]. The largest specimens were used by Al-Oraimi and Seibi [39], measured 100 by 100 by 500 mm, and required extensive modification to the Charpy testing apparatus.…”
Section: Specimen Size and Geometrysupporting
confidence: 57%
“…Impact velocities for typical Charpy apparatus are in the range 3 ≤ v ≤ 6 m/s [31]. The low end of this range corresponds with [35][36][37][38] to 100 by 100 by 500 mm [39]. Most included loading spans of 40 mm, but several reported much longer spans [39][40][41].…”
Section: The Charpy Testmentioning
confidence: 99%
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