HIGHWAY TECHNET VIRTUAL EXPO STRUCTURES INDEX
Corrosion Engineering: Rust Never Sleeps
DP-84 Corrosion Survey Techniques
DP-91 Cathodic Protection (CP) for Reinforced Concrete Structures
DP-91 Cathodic Protection For Reinforced Concrete Bridge Decks
TE-42 Assessment of Physical Condition of Reinforced Concrete Structures
TE-43 Methodologies for Reinforced Concrete Removal, Repair, Protection, and Rehabilitation
Guide Specifications for Cathodic Protection of Concrete Bridge Decks
Manual For Corrosion Protection Of Concrete Components In Bridges TE-44 Electrochemical Chloride Extraction from Reinforced Concrete Structures
The combined technology that has resulted from previous FHWA R&D, developments in commercial corrosion hardware, and the SHRP program in concrete and corrosion provides an impressive array of equipment and methods to evaluate corrosion in reinforced concrete, determine the condition of the concrete element, and determine methods for proper repair, rehabilitation, and protection. The next challenge is to evaluate and demonstrate the effectiveness of the technology and to market the successful results to a variety of users.
On structural steel members such as steel girders and floorbeams, a coating system is used to prevent corrosion. However, in severe environments or after long periods of service, the coating system breaks down and corrosion will occur unless the system is repaired or replaced. Continued corrosion of steel members can lead to severe loss of section with detrimental effects on the service capacity and safety of the structure. Older coating systems were formulated with heavy metals, such as lead and chromium, which have been proven to be hazardous to human health. Therefore, the removal, containment, storage, and ultimate disposal of these old coating systems has become an expensive, environmentally complex problem.
HIGHWAYTECHNET VIRTUAL EXPO STRUCTURES INDEX
U.S. Department of TransportationFederal Highway Administration