T. M. Chrisp scite author profile

A sensor system, developed in a previous laboratory study [ , is used to obtain the spatial distribution of electrical conductivity within the cover-zone of concrete specimens subjected to a range of natural exposure conditions. The testing methodology enables in-situ monitoring of the electrical conductivity and technical issues relating to site measurements are discussed. The work also highlights the need for continual monitoring of the covercrete as the electrical conductivity changes with time, depth and environment.

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Rheology of low carbon fibre content reinforced cement mortar

Banfill

Starrs

Derruau

et al. 2006

Cement and Concrete Composites

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Near–surface sensors for condition monitoring of cover-zone concrete

McCarter

Chrisp

Butler

et al. 2001

Construction and Building Materials

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Depth-related variation in conductivity to study cover-zone concrete during wetting and drying

Chrisp

McCarter

Starrs

et al. 2002

Cement and Concrete Composites

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Activation energy and conduction in carbon fibre reinforced cement matrices

et al. 2007

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Developments in Performance Monitoring of Concrete Exposed to Extreme Environments

McCarter

Chrisp

Starrs

et al. 2012

J. Infrastruct. Syst.

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The performance of the surface zone of concrete is acknowledged as a major factor governing the rate of deterioration of reinforced concrete structures because it provides the only barrier to the ingress of water containing dissolved ionic species such as chlorides, which ultimately initiate corrosion of the reinforcement. In situ monitoring of cover-zone concrete is therefore critical in attempting to make realistic predictions as to the in-service performance of the structure. To this end, this paper presents developments in a remote interrogation system to allow for continuous, real-time monitoring of the cover-zone concrete from an office setting. Use is made of a multi electrode array embedded within cover-zone concrete to acquire discretized electrical resistivity and temperature measurements, with both parameters monitored spatially and temporally. On-site instrumentation, which allows for the remote interrogation of concrete samples placed at a marine exposure site, is detailed together with data handling and processing procedures. Site measurements highlight the influence of temperature on electrical resistivity and an Arrhenius-based temperature correction protocol is developed using on-site measurements to standardize resistivity data to a reference temperature; this is an advancement over the use of laboratory-based procedures. The testing methodology and interrogation system represent a robust, low-cost, and high-value technique that could be deployed for intelligent monitoring of reinforced concrete structures.

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T. M. Chrisp

Electrical conductivity, diffusion, and permeability of Portland cement-based mortars

Characterization and monitoring of cement-based systems using intrinsic electrical property measurements

Field monitoring of electrical conductivity of cover-zone concrete

Rheology of low carbon fibre content reinforced cement mortar

Near–surface sensors for condition monitoring of cover-zone concrete

Depth-related variation in conductivity to study cover-zone concrete during wetting and drying

Activation energy and conduction in carbon fibre reinforced cement matrices

Developments in Performance Monitoring of Concrete Exposed to Extreme Environments

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