亞洲知識產權資訊網為知識產權業界提供一個一站式網上交易平台，協助業界發掘知識產權貿易商機，並與環球知識產權業界建立聯繫。無論你是知識產權擁有者正在出售您的知識產權，或是製造商需要購買技術以提高操作效能，又或是知識產權配套服務供應商，你將會從本網站發掘到有用的知識產權貿易資訊。

返回搜索結果

Sensor to Detect Corrosion in Post-Tensioned Bridges and Buildings

標題: Corrosion Detection in Structural Tendons

詳細技術說明: None

*Abstract

Device Uses Electrochemical Impedance Spectroscopy to Inspect Structures
This sensor uses electrochemical impedance spectroscopy to detect corrosion in bridges and buildings supported by post-tensioned structural tendons. The Federal Highway Administration has rated nearly one in nine U.S. bridges as structurally deficient. With the average age of the nation’s more than 600,000 bridges at 42, bridge refurbishment costs upwards of $13 billion each year. Post-tensioned construction, common in bridges, has been a concern since cable corrosion caused bridges and buildings to collapse in the 1980s. Cable used in post-tensioned bridges usually consists of multiple strands of steel encased in a plastic sleeve. That plastic sleeve is filled with grout to protect the steel from corrosion; however, factors such as faulty grouting, inadequate waterproofing, and air voids can prevent the grout from protecting the wire strands. The loss or weakening of just a few wires could compromise the structural integrity. Available techniques including magnetic flux, ground-penetrating radar, impact echo, ultrasonic sound waves, and gamma-ray spectroscopy have been used to detect defects such as air voids or loss of steel due to corrosion. The results of these tests were not very accurate and were difficult to interpret. University of Florida researchers have developed an effective device. This sensor uses non-destructive, electrochemical impedance spectroscopy to detect corrosion in post-tensioned construction.

Application

Sensor to detect corrosion in post-tensioned bridges and buildings

Advantages

Detects damage to structural cables, potentially averting catastrophe in post-tensioned bridges and buildings
Senses steel properties through grout, allowing for non-invasive evaluation
Allows for early intervention, reducing construction costs
Displays well-defined detection information, facilitating interpretation of results

Technology

The sensor developed by UF researchers uses electrochemical impedance spectroscopy to detect regions in which corrosion has compromised the strength of the supporting cables. Inspectors drill holes into the protective plastic duct covering so that sensors can be placed in the holes, providing data without damaging the internal cables. By sending a sinusoidal current of different frequencies through the post-tensioned structure, the device can detect properties of the steel. A sinusoidal perturbation is applied at the grout surface and the potential response is measured to determine if corrosion or the conditions that might cause corrosion are present.

*IP Issue Date: Nov 28, 2017

*IP Publication Date: Apr 9, 2015

*Principal Investigation: Name: Mark Orazem
Department:

Name: Christopher Alexander
Department:

Name: Yu-Min Chen
Department:

申請日期: Oct 8, 2014

申請號碼: 9,829,452

其他

國家/地區: 美國

欲了解更多信息，請點擊這裡