Time-frequency analysis of acoustic emission signals generated by cement-fiber boards during bending test

Time-frequency analysis of acoustic emission signals generated by cement-fiber boards during bending test

Fiber-cement building materials have been used in civil engineering for over one hundred years. Contemporary fiber-cement boards are made of natural raw materials such as cement, cellulose fibers, PVA and water. Materials made of fiber-cement are used in construction as a building and finishing mate...

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Main Authors: Adamczak-Bugno Anna, Świt Grzegorz, Krampikowska Aleksandra
Format: Article
Language:English
Published: EDP Sciences 2018-01-01
Series:MATEC Web of Conferences
Online Access:https://doi.org/10.1051/matecconf/201817402020
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spelling doaj-a2c141f6b62b437aa468dc4593a9d9a92021-02-02T07:50:15ZengEDP SciencesMATEC Web of Conferences2261-236X2018-01-011740202010.1051/matecconf/201817402020matecconf_ecce2018_02020Time-frequency analysis of acoustic emission signals generated by cement-fiber boards during bending testAdamczak-Bugno AnnaŚwit GrzegorzKrampikowska AleksandraFiber-cement building materials have been used in civil engineering for over one hundred years. Contemporary fiber-cement boards are made of natural raw materials such as cement, cellulose fibers, PVA and water. Materials made of fiber-cement are used in construction as a building and finishing material for elevations, internal walls and roofs, hence are exposed to environmental conditions such as rainfall and temperature changes, in particular, frequent temperature transition through 0°C in a 24 hour cycle (cyclic freezing-thawing). In addition, fibrous cement materials, primarily used as cladding elements, are exposed to exceptional conditions, which include the high temperature caused by fire. The article presents the results of experimental tests of bending strength of cement-fiber boards subjected to environmental factors and exceptional factors. The paper also presents a proposal to use a nondestructive method of acoustic emission (AE) based on time-frequency analysis for testing fiber-cement boards. Interesting research results were obtained, which allowed to trace the differences in the mechanisms of material destruction under the influence of various factors.https://doi.org/10.1051/matecconf/201817402020
collection DOAJ
language English
format Article
sources DOAJ
author Adamczak-Bugno Anna
Świt Grzegorz
Krampikowska Aleksandra
spellingShingle Adamczak-Bugno Anna
Świt Grzegorz
Krampikowska Aleksandra
Time-frequency analysis of acoustic emission signals generated by cement-fiber boards during bending test
MATEC Web of Conferences
author_facet Adamczak-Bugno Anna
Świt Grzegorz
Krampikowska Aleksandra
author_sort Adamczak-Bugno Anna
title Time-frequency analysis of acoustic emission signals generated by cement-fiber boards during bending test
title_short Time-frequency analysis of acoustic emission signals generated by cement-fiber boards during bending test
title_full Time-frequency analysis of acoustic emission signals generated by cement-fiber boards during bending test
title_fullStr Time-frequency analysis of acoustic emission signals generated by cement-fiber boards during bending test
title_full_unstemmed Time-frequency analysis of acoustic emission signals generated by cement-fiber boards during bending test
title_sort time-frequency analysis of acoustic emission signals generated by cement-fiber boards during bending test
publisher EDP Sciences
series MATEC Web of Conferences
issn 2261-236X
publishDate 2018-01-01
description Fiber-cement building materials have been used in civil engineering for over one hundred years. Contemporary fiber-cement boards are made of natural raw materials such as cement, cellulose fibers, PVA and water. Materials made of fiber-cement are used in construction as a building and finishing material for elevations, internal walls and roofs, hence are exposed to environmental conditions such as rainfall and temperature changes, in particular, frequent temperature transition through 0°C in a 24 hour cycle (cyclic freezing-thawing). In addition, fibrous cement materials, primarily used as cladding elements, are exposed to exceptional conditions, which include the high temperature caused by fire. The article presents the results of experimental tests of bending strength of cement-fiber boards subjected to environmental factors and exceptional factors. The paper also presents a proposal to use a nondestructive method of acoustic emission (AE) based on time-frequency analysis for testing fiber-cement boards. Interesting research results were obtained, which allowed to trace the differences in the mechanisms of material destruction under the influence of various factors.
url https://doi.org/10.1051/matecconf/201817402020
work_keys_str_mv AT adamczakbugnoanna timefrequencyanalysisofacousticemissionsignalsgeneratedbycementfiberboardsduringbendingtest
AT switgrzegorz timefrequencyanalysisofacousticemissionsignalsgeneratedbycementfiberboardsduringbendingtest
AT krampikowskaaleksandra timefrequencyanalysisofacousticemissionsignalsgeneratedbycementfiberboardsduringbendingtest
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