Add to ORKGSensors demonstrate huge potential in civil engineering for monitoring the health condition and performance of concrete structures. Amongst various chemical deterioration mechanisms causing inadequate durability of concrete structures, carbonation is one of the most severe mechanisms. It occurs from the chemical reactions between intruded CO 2 and calcium-bearing phases, hence is accompanied by the formation of calcium carbonate (CaCO 3 ) and the decrease of the alkalinity of concrete pore solution, causing corrosion of rebar in concrete. Thus, detecting carbonation process, especially, determining the carbonation profile (i.e. the content of carbonation products formed against the depth into concrete structure), is of great importance to t...
Although Raman spectroscopy is a common technique for the analysis of cement-based materials in the ...
This study utilized a novel in situ fiber-optic Raman probe to continuously monitor the hydration pr...
Recent advances in Raman spectrometers, resulting in faster acquisition times and the use of lower p...
Sensors demonstrate huge potential in civil engineering for monitoring the health condition and perf...
Carbonation and chloride attack are the main causes of the corrosion of rebars in concrete. In the p...
This study demonstrates the potential of developing a future Raman spectroscopy-based sensor system ...
Since the reinforced Portland cement (PC) concrete was first used in 1854, it has been the most popu...
Abstract Carbonation induced corrosion is one of the major durability issues for reinforced concrete...
Establishing the carbonation profile is of great significance to the prediction of the service life ...
Formation of ettringite and gypsum from sulfate attack together with carbonation and chloride ingres...
Until recently there has been a common held misconception that Raman spectroscopy of cements is not ...
The status and stability of the unreacted silica fume (SF) agglomerates existing in concrete structu...
Silica fume (SF) is an important component for manufacturing high performance concrete (HPC), owing ...
Silica fume (SF) is an important component for manufacturing high performance concrete (HPC), owing ...
Until recently there has been a common held misconception that Raman spectroscopy of cements is not ...
Although Raman spectroscopy is a common technique for the analysis of cement-based materials in the ...
This study utilized a novel in situ fiber-optic Raman probe to continuously monitor the hydration pr...
Recent advances in Raman spectrometers, resulting in faster acquisition times and the use of lower p...
Sensors demonstrate huge potential in civil engineering for monitoring the health condition and perf...
Carbonation and chloride attack are the main causes of the corrosion of rebars in concrete. In the p...
This study demonstrates the potential of developing a future Raman spectroscopy-based sensor system ...
Since the reinforced Portland cement (PC) concrete was first used in 1854, it has been the most popu...
Abstract Carbonation induced corrosion is one of the major durability issues for reinforced concrete...
Establishing the carbonation profile is of great significance to the prediction of the service life ...
Formation of ettringite and gypsum from sulfate attack together with carbonation and chloride ingres...
Until recently there has been a common held misconception that Raman spectroscopy of cements is not ...
The status and stability of the unreacted silica fume (SF) agglomerates existing in concrete structu...
Silica fume (SF) is an important component for manufacturing high performance concrete (HPC), owing ...
Silica fume (SF) is an important component for manufacturing high performance concrete (HPC), owing ...
Until recently there has been a common held misconception that Raman spectroscopy of cements is not ...
Although Raman spectroscopy is a common technique for the analysis of cement-based materials in the ...
This study utilized a novel in situ fiber-optic Raman probe to continuously monitor the hydration pr...
Recent advances in Raman spectrometers, resulting in faster acquisition times and the use of lower p...