会议论文详细信息
14th International Conference on Concrete Engineering and Technology
Use of non-destructive tests to explain manifested pore structure changes in cryogenic concrete
Kogbara, R.B.^1 ; Iyengar, S.R.^1 ; Grasley, Z.C.^2 ; Zollinger, D.G.^2 ; Masad, E.A.^1,2
Mechanical Engineering Program, Texas A and M University at Qatar, P.O. 23874, Education City, Doha, Qatar^1
Zachry Department of Civil Engineering, Texas A and M University, College Station
TX
77843, United States^2
关键词: Acoustic emission sensors;    Chloride permeability;    Concrete deterioration;    Concrete mixture designs;    Liquefied Natural Gas (LNG);    Properties of concretes;    Proton nuclear magnetic resonance;    X-ray computed tomography;   
Others  :  https://iopscience.iop.org/article/10.1088/1757-899X/431/12/122003/pdf
DOI  :  10.1088/1757-899X/431/12/122003
来源: IOP
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【 摘 要 】

The pore structure serves as a transport medium for external agents that cause concrete deterioration and controls the main properties of concrete. This work utilized non-destructive tests to explain pore structure changes in concrete assessed for direct liquefied natural gas (LNG) containment. It sought to investigate concrete mixture designs that are least susceptible to internal damage during cryogenic cooling. Concrete specimens were prepared using limestone and trap rock as coarse aggregates and river sand as fine aggregate. The effect of air-entrainment was also considered. Microcracking in the concrete specimens was monitored using coupled acoustic emission (AE) sensors during cryogenic cooling and warming. While proton nuclear magnetic resonance (NMR) measurements and x-ray computed tomography (XRCT) imaging were conducted on the specimens before and after the temperature swings. The manifestation of pore structure changes was assessed using water and 'chloride permeability' tests. Significant microcracking and changes in NMR porosity and mean pore size, and CT-calculated porosity corresponded to changes in water permeability trend but not 'chloride permeability' trend. Air entrainment caused a reduction in chloride penetrability. The results show the utility of the non-destructive tests in explaining pore structure changes in cryogenic concrete and identifies the damage-resistance potential of the concrete mixtures.

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