Geometric characterization of polymeric macrofibers

Geometric characterization of polymeric macrofibers

ABSTRACTThe geometric characteristics of synthetic macrofibers are important because they affect the behavior of fiber-reinforced concrete (FRC). Because there is a lack of specific, relevant publications in Brazil, the European standard EN14889-2:2006 was adopted as a reference to perform the characterization. Thus, an experimental plan was developed to assess the adequacy of testing procedures for the qualification of synthetic macrofibers for use in FRC. Two types of macrofibers were evaluated. The length measurement was performed using two methods: the caliper method, which is a manual measurement, and the digital image analysis method using the ImageJ software for image processing. These aforementioned methods were used to determine the diameter together with the density method, which is an indirect method that uses the developed length obtained by one of the previous methods. The statistical analyses revealed that the length results are similar regardless of the method used. However, the macrofibers must be pre-stretched to maximize the accuracy of caliper measurements. The caliper method for diameter determination has the disadvantage of underestimating the macrofiber cross-section because of the pressure applied by the load claws. In contrast, the digital image analysis method obtains the projected diameter in a single plane, which overestimate the diameter because the macrofibers are oriented with the pressure of the scanner cover. Thus, these techniques may result in false projections of the diameters that will depend on the level of torsion in the macrofibers. It was concluded that both the caliper method using previously stretched macrofibers and the digital imaging method can be used to measure length. The density method presented the best results for the diameter determination because these results were not affected by the method chosen to determine the length.

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Main Authors: Cáceres,A. R. E., Galobardes,I., Rebmann,M. S., Monte,R., Figueiredo,A. D. de
Format: Digital revista
Language:English
Published: IBRACON - Instituto Brasileiro do Concreto 2015
Online Access:http://old.scielo.br/scielo.php?script=sci_arttext&pid=S1983-41952015000500006
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spelling oai:scielo:S1983-419520150005000062015-11-11Geometric characterization of polymeric macrofibersCáceres,A. R. E.Galobardes,I.Rebmann,M. S.Monte,R.Figueiredo,A. D. de fiber-reinforced concrete synthetic macrofibers geometric characterization length measurement diameter measurement test method ABSTRACTThe geometric characteristics of synthetic macrofibers are important because they affect the behavior of fiber-reinforced concrete (FRC). Because there is a lack of specific, relevant publications in Brazil, the European standard EN14889-2:2006 was adopted as a reference to perform the characterization. Thus, an experimental plan was developed to assess the adequacy of testing procedures for the qualification of synthetic macrofibers for use in FRC. Two types of macrofibers were evaluated. The length measurement was performed using two methods: the caliper method, which is a manual measurement, and the digital image analysis method using the ImageJ software for image processing. These aforementioned methods were used to determine the diameter together with the density method, which is an indirect method that uses the developed length obtained by one of the previous methods. The statistical analyses revealed that the length results are similar regardless of the method used. However, the macrofibers must be pre-stretched to maximize the accuracy of caliper measurements. The caliper method for diameter determination has the disadvantage of underestimating the macrofiber cross-section because of the pressure applied by the load claws. In contrast, the digital image analysis method obtains the projected diameter in a single plane, which overestimate the diameter because the macrofibers are oriented with the pressure of the scanner cover. Thus, these techniques may result in false projections of the diameters that will depend on the level of torsion in the macrofibers. It was concluded that both the caliper method using previously stretched macrofibers and the digital imaging method can be used to measure length. The density method presented the best results for the diameter determination because these results were not affected by the method chosen to determine the length.info:eu-repo/semantics/openAccessIBRACON - Instituto Brasileiro do ConcretoRevista IBRACON de Estruturas e Materiais v.8 n.5 20152015-10-01info:eu-repo/semantics/articletext/htmlhttp://old.scielo.br/scielo.php?script=sci_arttext&pid=S1983-41952015000500006en10.1590/S1983-41952015000500006
institution SCIELO
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country Brasil
countrycode BR
component Revista
access En linea
databasecode rev-scielo-br
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region America del Sur
libraryname SciELO
language English
format Digital
author Cáceres,A. R. E.
Galobardes,I.
Rebmann,M. S.
Monte,R.
Figueiredo,A. D. de
spellingShingle Cáceres,A. R. E.
Galobardes,I.
Rebmann,M. S.
Monte,R.
Figueiredo,A. D. de
Geometric characterization of polymeric macrofibers
author_facet Cáceres,A. R. E.
Galobardes,I.
Rebmann,M. S.
Monte,R.
Figueiredo,A. D. de
author_sort Cáceres,A. R. E.
title Geometric characterization of polymeric macrofibers
title_short Geometric characterization of polymeric macrofibers
title_full Geometric characterization of polymeric macrofibers
title_fullStr Geometric characterization of polymeric macrofibers
title_full_unstemmed Geometric characterization of polymeric macrofibers
title_sort geometric characterization of polymeric macrofibers
description ABSTRACTThe geometric characteristics of synthetic macrofibers are important because they affect the behavior of fiber-reinforced concrete (FRC). Because there is a lack of specific, relevant publications in Brazil, the European standard EN14889-2:2006 was adopted as a reference to perform the characterization. Thus, an experimental plan was developed to assess the adequacy of testing procedures for the qualification of synthetic macrofibers for use in FRC. Two types of macrofibers were evaluated. The length measurement was performed using two methods: the caliper method, which is a manual measurement, and the digital image analysis method using the ImageJ software for image processing. These aforementioned methods were used to determine the diameter together with the density method, which is an indirect method that uses the developed length obtained by one of the previous methods. The statistical analyses revealed that the length results are similar regardless of the method used. However, the macrofibers must be pre-stretched to maximize the accuracy of caliper measurements. The caliper method for diameter determination has the disadvantage of underestimating the macrofiber cross-section because of the pressure applied by the load claws. In contrast, the digital image analysis method obtains the projected diameter in a single plane, which overestimate the diameter because the macrofibers are oriented with the pressure of the scanner cover. Thus, these techniques may result in false projections of the diameters that will depend on the level of torsion in the macrofibers. It was concluded that both the caliper method using previously stretched macrofibers and the digital imaging method can be used to measure length. The density method presented the best results for the diameter determination because these results were not affected by the method chosen to determine the length.
publisher IBRACON - Instituto Brasileiro do Concreto
publishDate 2015
url http://old.scielo.br/scielo.php?script=sci_arttext&pid=S1983-41952015000500006
work_keys_str_mv AT caceresare geometriccharacterizationofpolymericmacrofibers
AT galobardesi geometriccharacterizationofpolymericmacrofibers
AT rebmannms geometriccharacterizationofpolymericmacrofibers
AT monter geometriccharacterizationofpolymericmacrofibers
AT figueiredoadde geometriccharacterizationofpolymericmacrofibers
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