Active Standard

IEEE 1839-2014

NACE International and IEEE Joint Standard Practice for Below-Grade Corrosion Control of Transmission, Distribution, and Substation Structures by Coating Repair Systems

This NACE/IEEE joint standard provides general coating repair guidelines for in-service carbon steel and galvanized steel electric transmission structures coated with polyurethanes, moisture cure urethane (MCU), coal tar, epoxy, coal tar epoxy, and cold-applied tape systems including petrolatum and polyethylene.

Standard Committee
PE/T&D - Transmission and Distribution
Status
Active Standard
PAR Approval
2011-03-31
Board Approval
2014-12-10
History
Published:
2015-05-01

Working Group Details

Society
IEEE Power and Energy Society
Standard Committee
PE/T&D - Transmission and Distribution
Working Group
TPC-Corrosion - Corrosion Working Group (NACE)
Learn More About TPC-Corrosion - Corrosion Working Group (NACE)
IEEE Program Manager
Michael Kipness
Contact Michael Kipness
Working Group Chair
Jeff Butler

Other Activities From This Working Group

Current projects that have been authorized by the IEEE SA Standards Board to develop a standard.


No Active Projects

Standards approved by the IEEE SA Standards Board that are within the 10-year lifecycle.


1835-2014
NACE International and IEEE Joint Standard Practice for Atmospheric (Above Grade) Corrosion Control of Existing Electric Transmission, Distribution, and Substation Structures by Coating Systems

This standard provides a procedure that shall be used to (1) assess structures for atmospheric corrosion; (2) assess the level of risk to the structure in terms of corrosion attack and degradation to the existing coating system; (3) make informed decisions based on those findings as to whether coating repair is needed and if so, to what extent; and (4) apply repair coatings to the structure if applicable. This standard applies to the repair of above-grade atmospheric coatings. For the purposes of this standard, the atmospheric area to be coated is generally comprised of that portion of the utility support structure above the transition zone. This standard is limited to the above-grade and atmospheric portions of utility support structures. It does not address below-grade coating repair within and below the transition zone. This standard does not address foundations or guy anchoring systems. This standard does not cover the coating of aluminum, weathering steel, concrete, or any material other than steel. Likewise, it does not cover the coating of non-support structures such as fencing, buildings, transformers, or other miscellaneous components within the transmission, distribution, and substation systems. This standard does not cover new construction, transition zone, below-grade, or water immersion. These areas of concern are addressed specifically in other NACE/IEEE standards. This standard does not address mechanical or structural damage, mechanical or structural repairs, or structural integrity.

Learn More About 1835-2014

1895-2014
NACE International and IEEE Joint Standard Practice for Below-Grade Inspection and Assessment of Corrosion on Steel Transmission, Distribution, and Substation Structures

This NACE/IEEE joint standard provides requirements to (1) help electric utilities identify structures that may be at a high risk for below-grade corrosion; (2) excavate and inspect the selected structures; (3) categorize the condition of structures based on corrosion degradation; (4) prioritize structures requiring additional inspection based on those findings; and (5) help identify next steps as required. The standard is limited to the inspection and assessment of steel transmission towers, poles, and substation structures, to include galvanized, self-weathering, and painted mild steel structures, as well as other similar structures.

Learn More About 1895-2014

2445-2018
IEEE/NACE Draft Standard Practice - Inspection and Assessment of Below Grade and Groundline Corrosion on Weathering Steel on Electrical Transmission and Distribution Structures

This standard provides recommendations to: (1) help utilities identify structures that may be at a high risk for below-grade corrosion; (2) excavate and inspect the selected structures; (3) categorize the condition of structures based on corrosion degradation; (4) prioritize structures requiring additional inspection based on those findings; and (5) help identify next steps as required.

Learn More About 2445-2018

2655-2018
IEEE/NACE Approved Draft Standard - Atmospheric Above Grade Inspection and Assessment of Corrosion on Steel Electrical Transmission, Distribution, and Substation Structures

This standard provides requirements to:(1) help utilities identify structures that may be high risk for above-grade corrosion; (2) inspect the selected structures; (3) categorize the condition of structures based on corrosion degradation; (4) prioritize structures requiring additional inspection based on those findings; and (5) help identify next steps as required.

Learn More About 2655-2018

2683-2022
IEEE/NACE Approved Draft Guide to Strength Loss of Tubular Steel Poles

This NACE/IEEE joint standard provides a methodology to evaluate the strength loss of tubular steel poles due to corrosion. Such an evaluation will allow informed, cost and risk-based decisions on the primary actionable asset management options available for such poles including continuing to monitor, remediation, or replacement.

Learn More About 2683-2022

These standards have been replaced with a revised version of the standard, or by a compilation of the original active standard and all its existing amendments, corrigenda, and errata.


No Superseded Standards

These standards have been removed from active status through a ballot where the standard is made inactive as a consensus decision of a balloting group.


No Inactive-Withdrawn Standards

These standards are removed from active status through an administrative process for standards that have not undergone a revision process within 10 years.


No Inactive-Reserved Standards
Subscribe to our Newsletter

Sign up for our monthly newsletter to learn about new developments, including resources, insights and more.