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[130520] Artykuł:

Detection of Destructive Processes and Assessment of Deformations in PP-Modified Concrete in an Air-Dry State and Exposed to Fire Temperatures Using the Acoustic Emission Method, Numerical Analysis and Digital Image Correlation

Czasopismo: Polymers   Tom: 16, Zeszyt: 8
ISSN:  2073-4360
Opublikowano: Kwiecień 2024
 
  Autorzy / Redaktorzy / Twórcy
Imię i nazwisko Wydział Katedra Do oświadczenia
nr 3		 Grupa
przynależności		 Dyscyplina
naukowa		 Procent
udziału		 Liczba
punktów
do oceny pracownika		 Liczba
punktów wg
kryteriów ewaluacji
Anna Adamczak-Bugno orcid logo WBiAKatedra Wytrzymałości Materiałów i Analiz Konstrukcji Budowlanych *Takzaliczony do "N"Inżynieria lądowa, geodezja i transport20100.00100.00  
Sebastian Lipiec orcid logo WMiBMKatedra Podstaw Konstrukcji Maszyn*Takzaliczony do "N"Inżynieria mechaniczna20100.00100.00  
Peter Koteš Niespoza "N" jednostkiInżynieria materiałowa20.00.00  
František Bahleda Niespoza "N" jednostkiInżynieria materiałowa20.00.00  
Jakub Adamczak WBiANiespoza "N" jednostkiInżynieria materiałowa20100.00.00  

Grupa MNiSW:  Publikacja w czasopismach wymienionych w wykazie ministra MNiSzW (część A)
Punkty MNiSW: 100

Keywords:

polypropylene concrete  fire conditions  acoustic emission method  numerical simulations  digital image correlation 


Abstract:

This article presents the results of tests carried out to assess the condition of PP-modified concrete. The tests were carried out on samples previously stored at ambient temperature and exposed to temperatures corresponding to fire conditions—300 °C, 450 °C, and 600 °C. Axial compression tests of cube-shaped samples and three-point bending of beams were carried out. During strength tests, acoustic emission (AE) signals were recorded and the force and deformation were measured. Recorded AE events were clustered using the k-means algorithm. The analysis of the test results allowed for the identification of signals characteristic of the individual stages of the material destruction process. Differences in the methods of destruction of samples stored in am-bient conditions and those exposed to fire temperatures were also indicated. While loading the samples, measurements were carried out using the digital image correlation (DIC) method, which enabled the determination of displacements. Based on the results of the laboratory tests, a nu-merical model was developed. The results obtained using different research methods (DIC and FEM) were compared. Tomographic examinations and observations of the microstructure of the tested materials were also carried out. The analyses carried out allowed for a reliable assessment of the possibility of using the acoustic emission method to detect destructive processes and assess the technical condition of PP-modified concrete. It was confirmed that the acoustic emission method, due to differences at low load levels, can be a useful technique for assessing the condition of PP-modified concrete after exposure to fire temperatures. So far, no research directions in a similar field have been identified.


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