Image analysis on disintegrated concrete at the post-heating stage
The relation between crack growth and reduction in the compressive strength after high temperature exposure and after air re-curing was investigated in this study. Concrete specimens were heated to 1000 ºC and they were subjected to air re-curing for 28 days. During re-curing period, their heated s...
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Asociación Latinoamericana de Control de Calidad, Patología y Recuperación de la Construcción
2020-04-01
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| Series: | Revista ALCONPAT |
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| Online Access: | https://revistaalconpat.org/index.php/RA/article/view/482 |
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doaj-ffb4431b3dc64f7289d171363d24084f2021-05-28T04:43:06ZengAsociación Latinoamericana de Control de Calidad, Patología y Recuperación de la ConstrucciónRevista ALCONPAT2007-68352020-04-0110210.21041/ra.v10i2.482Image analysis on disintegrated concrete at the post-heating stageA. H. Akca0N. Özyurt1Department of Civil Engineering, Yıldız Technical University, İstanbul, Turkey.Department of Civil Engineering, Boğaziçi University, İstanbul, Turkey. The relation between crack growth and reduction in the compressive strength after high temperature exposure and after air re-curing was investigated in this study. Concrete specimens were heated to 1000 ºC and they were subjected to air re-curing for 28 days. During re-curing period, their heated surfaces were monitored by using a digital single-lens reflex camera and the images were analyzed by using image analysis software. After cooling, the maximum reduction in the compressive strength of concrete was 49.5% and that of air re-cured concrete was 66.8%. Image analyses showed high correlations between crack growth and reduction in the compressive strength. This non-destructive method has the potential to represent the extent of damage in concrete after high temperature exposure. https://revistaalconpat.org/index.php/RA/article/view/482high temperaturefiber reinforced concretedeteriorationcrack developmentblack pixel analysis |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
A. H. Akca N. Özyurt |
| spellingShingle |
A. H. Akca N. Özyurt Image analysis on disintegrated concrete at the post-heating stage Revista ALCONPAT high temperature fiber reinforced concrete deterioration crack development black pixel analysis |
| author_facet |
A. H. Akca N. Özyurt |
| author_sort |
A. H. Akca |
| title |
Image analysis on disintegrated concrete at the post-heating stage |
| title_short |
Image analysis on disintegrated concrete at the post-heating stage |
| title_full |
Image analysis on disintegrated concrete at the post-heating stage |
| title_fullStr |
Image analysis on disintegrated concrete at the post-heating stage |
| title_full_unstemmed |
Image analysis on disintegrated concrete at the post-heating stage |
| title_sort |
image analysis on disintegrated concrete at the post-heating stage |
| publisher |
Asociación Latinoamericana de Control de Calidad, Patología y Recuperación de la Construcción |
| series |
Revista ALCONPAT |
| issn |
2007-6835 |
| publishDate |
2020-04-01 |
| description |
The relation between crack growth and reduction in the compressive strength after high temperature exposure and after air re-curing was investigated in this study. Concrete specimens were heated to 1000 ºC and they were subjected to air re-curing for 28 days. During re-curing period, their heated surfaces were monitored by using a digital single-lens reflex camera and the images were analyzed by using image analysis software. After cooling, the maximum reduction in the compressive strength of concrete was 49.5% and that of air re-cured concrete was 66.8%. Image analyses showed high correlations between crack growth and reduction in the compressive strength. This non-destructive method has the potential to represent the extent of damage in concrete after high temperature exposure.
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| topic |
high temperature fiber reinforced concrete deterioration crack development black pixel analysis |
| url |
https://revistaalconpat.org/index.php/RA/article/view/482 |
| work_keys_str_mv |
AT ahakca imageanalysisondisintegratedconcreteatthepostheatingstage AT nozyurt imageanalysisondisintegratedconcreteatthepostheatingstage |
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1721424951014064128 |