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Related Concept Videos

Corrosion of Reinforcement01:27

Corrosion of Reinforcement

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The corrosion of steel reinforcement within concrete is a process influenced by the material's inherent properties and external factors. The high pH level of around 13, provided by calcium hydroxide present in concrete, initially protects the steel reinforcement by promoting the formation of a passive iron oxide layer on its surface.
However, over time and under certain conditions like carbonation, chloride ingress, and cracking this protective state can be compromised. Steel has areas with...
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Polarography is a classical voltammetric technique used to analyze electrochemical reactions. This method applies a linear potential sweep to a dropping mercury electrode (DME), and the resulting current is measured. A dropping mercury electrode is commonly used as the working electrode in polarography. It consists of a capillary tube filled with mercury, where the tiny droplet forms at the tip. This droplet continuously drops from the capillary, creating a new electrode surface for each...
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Coating Thickness Estimation Using a CNN-Enhanced Ultrasound Echo-Based Deconvolution.

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Small Ultrasound-Based Corrosion Sensor for Intraday Corrosion Rate Estimation.

Upeksha Chathurani Thibbotuwa1, Ainhoa Cortés1,2, Andoni Irizar1,2

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A new ultrasound (US) sensor system offers a low-power, unattended method for monitoring atmospheric corrosion in coastal regions. This technology can assess steel thickness loss, crucial for offshore wind turbine maintenance.

Keywords:
FPGAcorrosion monitoringcorrosion rateoffshore wind turbinesthickness lossultrasound

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Area of Science:

  • Materials Science
  • Environmental Monitoring
  • Sensor Technology

Background:

  • Traditional corrosion monitoring using coupons is labor-intensive and provides infrequent data.
  • Coastal and marine environments pose significant challenges for material durability due to corrosive elements.
  • Accurate, real-time corrosion assessment is vital for infrastructure integrity, especially in offshore applications.

Purpose of the Study:

  • To present an unattended corrosion sensor system based on ultrasound (US) technology.
  • To evaluate the system's effectiveness in assessing thickness loss from atmospheric corrosion in a coastal region.
  • To demonstrate the system's potential for monitoring corrosion in offshore wind turbines.

Main Methods:

  • Development of a low-power, unattended sensor node utilizing FPGA, microcontroller, and analog front-end devices.
  • Deployment of the sensor system with an S355 steel sample in Gran Canaria's coastal region.
  • Continuous data acquisition over 5 months, with measurements taken at 6-hour intervals (5 readings per set).

Main Results:

  • The system successfully detected thickness loss of the S355 steel sample.
  • An average corrosion rate equivalent to a thickness loss of 0.134 mm/year was continuously monitored.
  • The system proved viable for real-time corrosion assessment in a challenging marine-influenced environment.

Conclusions:

  • The developed ultrasound-based sensor system is a viable, low-power alternative to traditional corrosion monitoring methods.
  • The system's ability to continuously monitor corrosion rates highlights its potential for proactive maintenance of offshore structures.
  • This technology offers a promising solution for enhancing the safety and longevity of assets in marine and coastal environments.