by dave allmand, cip chair i - nace international · by dave allmand, cip chair i t’s a beautiful...

1 InspectThis! Fall 2015

Supplement to CoatingsPro Magazine Fall 2015

For those aligning themselves with the GHS, chemicals are now classified in two categories: • Physical hazards—flammable/explosive/

corrosive… • Health hazards—acute toxicity/irritant/

carcinogen… Additionally, in each of these sections,

chemicals will be classified by how hazardous they are, and given a rating from 1 to 4, with 1 now being the most hazardous and 4 being the least. This rating may differ from previously recognized classifications like the National Fire Protection Agency (NFPA) 4-diamond rating designations where the 4 was consid-ered the most hazardous.

The purpose of an SDS and MSDS continues to be providing understanding of the various risks that are associated with chemicals that will be used in the workplace. While change may be a challenge to our understanding, our responsibility remains the same—be it an SDS or MSDS, we still have a job to do. Obtain it, read it, and attempt to gain the understanding required to...stay safe!!

IN THIS ISSUE...

MSDS, SDS, and Chemical Safety ............ 1

NACE Releases New Editions of Logbooks for Coating Inspectors ....... 2

Variables to Consider When Coating Concrete ..................................................... 3

Get This! ............................................................ 4

MP Launches New Dedicated Web Site...................................................... 6

NACE Coatings Course Schedule ........... 7

Coatings Resources .................................... 10

MSDS, SDS, and Chemical SafetyBy Dave Allmand, CIP Chair

I t ’s a beautiful fall morning here in North America, and

people here love this change in seasons. Cooler temperatures and a more colorful landscape are the hallmark of these

changes…yet sadly, change is not always so easily accepted. It appears that confusion continues to exist regarding a change in terms from the “Material Safety Data Sheet” (MSDS) to “Safety Data Sheet” (SDS).

There has been an attempt to standard-ize this change following the United Nations (UN)-recommended “Globally Harmonized System” (GHS) of classification and label-ing of chemicals. The premise is that existing labeling and classifications (like OSHA’s Hazard Communication Standard) “should be harmonized in order to develop a single globally harmonized system to address classi-fication of chemicals and safety data sheets.” (Note the word “should.”) This GHS is not a global law. The GHS is a system of regulation

recommendations; therefore, no country is obligated to adopt the GHS.

As has been seen in the past, the differ-ence in national law and international law will continue to create opportunity for confu-sion. These differences will for the time being challenge understanding, and could compromise safety. The purpose of this UN-recommended GHS was the creation of a common approach that identifies hazards associated with chemicals for those who potentially may come into contact with those chemicals in the workplace.

Manufacturers and suppliers will still have a duty to provide a copy of an MSDS for the workplace. However, for those who follow the UN’s recommended GHS, the format and name will be different. Packaging and labeling will also change appearance, as will content with the GHS SDS. Previous hazard symbols on product labels and MSDS are being replaced by newer symbols called “picto-grams,” as well as the inclusion of “signal words” that more easily identify hazards and precautions.

The purpose of an SDS and MSDS continues to be providing understanding of the various risks that are associated

with chemicals that will be used in the workplace.


has now released the fifth edition of this best-selling book, as well as a condensed version. The fifth edition contains more than 150 additional pages—for a total of 720 pages—with new forms and check-

lists. Written and compiled by coatings expert Arthur K. Marshall, the logbook provides step-by-step job-specific entry spaces for the entire coating or lining project. Inspectors use the book to notate and keep track of the following tasks and resources:

• Applicable standards

• Checklists of tasks

• Data tracking

• Essential and nonessential personnel tracking

• Safety documentation

• Ambient weather conditions

• Pre-inspection log for salt tests and lead/heavy metal reporting

• Surface preparation

• Mixing and coating application

• Contact information

The NACE Coat ing Inspec tor ’ s Logbook is designed to document work in real time and can be used to generate daily reports as required. The condensed version of the book has all of the useful forms and checklists contained in the full version, but instead of a four- to six-month supply, there is a 30-day supply.

To order either book, go to nace.org/store and enter Item No. 37602 for the full edition or 37603 for the condensed edition.!

NACE Releases New Editions of Logbooks for Coating Inspectors

T he NACE Coating Inspector ’ s Logbook has been used for many years as a resource for coating

inspectors to enter and keep track of data from the field. NACE International

Fall 2015 InspectThis! 3

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Variables to Consider When Coating ConcreteBy Louis D. Vincent

C oncrete is one of the most diff i-cult surfaces to coat, due mainly to its wide range of properties.

Steel is fairly uniform in texture, and workers are fami l iar with the proper ways to prepare and coat it. In contrast, concrete is quite porous and uneven in texture, with differences in density from one square inch to the next.

Why Coat Concrete?Aesthetics

C o n c r e t e i s o n e o f t h e m o s t commonly used structural materials for private and public buildings. Because its natural color of dull, light to medium gray is often considered unattractive or, at best, uninspiring, more colorful coatings are often an architectural preference.

PorosityThe porosity of concrete al lows

moisture to penetrate it quite readily. Besides the problem of moisture intru-sion, chloride penetration can attack the steel bars and mesh that are typically used for structural reinforcement. Since the corrosion products tend to occupy greater volume than the original steel, expansive stresses can crack or spall concrete, which has poor cohesive strength compared to its compressive strength. In north-ern climates, this porosity often leads to destruction of the concrete structure during freeze-thaw cycles.

DecontaminationThe normal porosity of concrete

allows it to absorb almost any contami-nant that comes into contact with it. Within nuclear facilities, coatings for concrete must be easily decontaminated in case of radiation spills. Within schools and hospitals, coatings must render the concrete surface resistant to bacteria. Within food establishments, coatings must resist growth of algae or other slime-type growths that could contami-nate the food being processed.

ConductivityHospital operating rooms, solvent

storage facilities, and microchip manufac-turing facilities are among the many areas where conductive fillers have to be used in conjunction with organic polymers to dissipate static electricity.

Chemical ResistancePetrochemical plants contain millions

of square feet of concrete surfaces. In areas where aggressive acids are being processed, the alkalinity of the concrete must be


preserved by isolation from these acids with chemically resistant mortars, bricks, tiles, or sheet membranes.

Properties of Concrete and CoatingsBefore one can successfully coat a

concrete structure, it is necessary to under-stand and overcome the natural properties of concrete. Concrete can be a simple mixture of Portland cement, lime, aggregate, and water, but it can also contain fillers selected for specific structural properties and resins selected for specific chemical-resistant proper-ties, along with various additives selected to add specific strengthening properties to the otherwise simple mixture. Each variation creates a different surface with properties that can add or detract from a coating system’s ability to bond with the concrete.

AlkalinityFirst and foremost, concrete is

naturally alkaline, both in its curing stages and after its final cure. Therefore, any coating chosen must not only be able to withstand the environment that comes into contact with the concrete, but it must also be able to penetrate and bond with the alkaline surface of the concrete. Oil-based or alkyd coatings are unsuitable because the alkali in the concrete will react with the natural or synthetic oils in the coating, causing the

creation of a soap-like film (saponification) that leads to delamination of the coating from the concrete.

Curing MechanismRegardless of the mix involved, or

the additives in the mix, concrete cures by a process of hydrolyzing water with the ingredients in the mix. The commonly used rule of thumb is that concrete needs 28 days at an average temperature of 20 °C (75 °F). It should be recognized that this traditional 28-day cure cycle allows the concrete to achieve the compres-sive strength designed into the mix ratio that was selected for the specific service conditions. Many coatings can be applied satisfactorily before the cure cycle is completed; however, this must be done in accordance with the manufacturer’s recommendations. ACI 308, “Guide to Curing Concrete,” provides recom-mendations on temperature, moisture conditions, and time of cure for various concrete structures.

This article is based on a chapter from The Protective Coating User’s Handbook, Second Edition, Louis D. Vincent (Houston, TX: NACE International, 2010), pp. 163-165. This book is available from NACE as Item no. 37593.!

Get This!

Gustavo Garcia, a NACE-certified Coating Inspector, is the winner of this issue’s drawing for a free

Coating Inspector Program (CIP) course. Based in Bakersfield, California, Garcia is currently certified to CIP Level 1. A graduate of Bakersfield College with an A.S. degree in electronics, Garcia works in the pipeline industry and decided to take NACE training to better his knowl-edge in coatings and corrosion. “With support from my wife, I took CIP Level 1 last fall and passed the course,” he says. “I then decided to sign up for Cathodic Protection (CP) 1 in January 2015 to learn more about CP, since coatings and CP coincide. Next, I took and passed CP 2 in June 2015. I wanted to register for CIP 2 this year. Winning this drawing is the best, to say the least!”

How can you enter the drawing to win a free CIP course?

Simply send an e-mail message to [email protected] and mention that you saw this article. To be eligible, you must have completed CIP Level 1 and your certification must be active. The free CIP course (Level 2 or Level 3—Peer Review) must be taken within one year of winning the drawing.

Please note that the drawing only applies to CIP courses and not other NACE course offerings. The prize is transferrable but may not be sold. If the prize is trans-ferred, the recipient must meet the same criteria as the winner. !

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MP Launches New Dedicated Web Site

Mate r ia l s Pe r for mance (M P) magazine, the f lagship publica-tion of NACE International, has

introduced its standalone Web site, materi-alsperformance.com. With a circulation of more than 36,000, is the leading resource for corrosion professionals worldwide. “We are very proud of this new addition to our online portfolio and the value it will bring to our readers,” says Bob Chalker, chief execu-tive officer of NACE International. “The new Web site for Materials Performance will give our members easier access to the content and resources that corrosion professionals have come to depend on as a knowledge base for the industry.”

The MP Web site features select techni-cal and feature articles from the magazine, as well as content written specifically for the site. New articles are posted each month, and older articles are archived. The extensive collec-tion of articles currently on the site date back to 2005 and include the popular Phorgotten Phenomena, Failure Analyses, Case Histories, and Corrosion Basics features from past issues. MP Web site content in the month of November 2015 includes a roundtable article in which a panel of experts discuss the San Francisco-Oakland Bay Bridge component failures, long-term protective coating success, a nonphosphorus cooling tower treatment to prevent corrosion, protecting vessels from sulfide stress cracking in sour service, corro-sion of public aquariums, how to conduct a technical committee meeting, and more.

The digital issues of MP accessible from on the Web site mirror the print issues, with links from the table of contents to each of the articles. In addition, content can be sorted by corrosion control technologies and methods—coatings and linings, cathodic protection, chemical treatment, and materials selection and design.

The “Recent News” section, which is updated daily, highlights press releases on new products and services, company news, indus-try developments, regulations, and more. Companies are welcome to submit their press releases for consideration.

Finally, the Web site offers links to other NACE publications and numerous other resources for corrosion control professionals. Other types of content and enhancements—including white papers and videos—will continue to be added on an ongoing basis. Visit materialsperformance.com.!

ARGENTINA

CIP PEER REVIEW

Buenos Aires, Argentina November 30-December 3, 2015

BELGIUM

CIP LEVEL 1

Brasschaat, Belgium January 25-30, 2016

CIP LEVEL 2

Brasschaat, Belgium December 7-12, 2015

CANADA

CIP LEVEL 1

Edmonton, AB, Canada December 6-11

Halifax, NS, Canada January 10-15, 2016

Red Deer, AB, Canada January 10-15, 2016

Montreal, QC, Canada January 31-February 5, 2016

CIP LEVEL 2

Edmonton, AB, Canada December 13-18, 2015



Montreal, QC, Canada February 7-12, 2016

CIP PEER REVIEW

Edmonton, AB, Canada December 18-21, 2015



Montreal, QC, Canada February 12-15, 2016

COATINGS IN CONJUNCTION WITH CATHODIC PROTECTION

Calgary, AB, Canada January 3-8, 2016

CHILE

CIP LEVEL 2

Talcahuano, Chile November 30-December 5, 2015

CHINA

CIP LEVEL 1

Jiangsu Province, China December 7-12, 2015

Shanghai, China January 10-15, 2016

Shanghai, China March 13-18, 2016

CIP LEVEL 2

Jiangsu Province, China December 14-19, 2015


Shanghai, China March 20-25, 2016

CIP PEER REVIEW


GERMANY

CIP LEVEL 2

Frankfurt, Germany November 30-December 5, 2015

INDIA

CIP LEVEL 1

Chennai, India December 7-12, 2015

CIP LEVEL 2

Mumbai, India November 30-December 5, 2015

Chennai, India December 14-19, 2015

ITALY

CIP LEVEL 1

Milano, Italy February 21-26, 2016

MALAYSIA

CIP LEVEL 1

Kuala Lumpur, Malaysia January 11-16, 2016

Kuala Lumpur, Malaysia March 7-12, 2016

CIP LEVEL 2

Kuala Lumpur, Malaysia November 30-December 5, 2015

Kuala Lumpur, Malaysia January 18-23, 2016

CIP PEER REVIEW

Kuala Lumpur, Malaysia December 6-9, 2015

MEXICO

CIP LEVEL 1

Cuernavaca, MOR, Mexico December 7-12, 2015

THE NETHERLANDS

CIP LEVEL 1

Ridderkerk, The Netherlands December 7-12, 2015

Ridderkerk, The Netherlands March 7-12, 2016

SOUTH KOREA

CIP EXAM COURSE 1

Ulsan, South Korea January 11-13, 2016

CIP EXAM COURSE 2

Ulsan, South Korea January 14-16, 2016

SPAIN

CIP LEVEL 2

Madrid, Spain November 30-December 5, 2015

UNITED ARAB EMIRATES

CIP LEVEL 1

Dubai, UAE January 30-February 4, 2016

CIP LEVEL 2

Dubai, UAE February 6-11, 2016

CIP PEER REVIEW

Dubai, UAE February 13-16, 2016

UNITED KINGDOM

CIP PEER REVIEW

Aberdeen, UK November 28-December 2, 2015

UNITED STATES

CIP LEVEL 1

Cape Canaveral, FL November 29-December 4, 2015

Houston, TX November 29-December 4, 2015

Houston, TX December 6-11, 2015

Lanhma, MD December 6-11, 2015

Strongsville, OH December 7-11, 2015

Chicago, IL December 13-18, 2015



Concordville, PA January 3-8, 2016

Houston, TX January 3-8, 2016

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Newington, NH January 3-8, 2016



Anaheim, CA January 17-22, 2016



Anaheim, CA January 24-29, 2016


Houston, TX January 31-February 5, 2016

Houston, TX February 7-12, 2016

Vallejo, CA February 7-12, 2016


Ellicott City, MD February 14-19, 2016


Wixom, MI February 14-19, 2016


CIP LEVEL 2

Houston, TX November 29-December 4, 2015

Cape Canaveral, FL December 6-11, 2015




Newington, NH January 10-15, 2016




Vallejo, CA February 14-19, 2016

Ellicott City, MD February 21-26, 2016


CIP PEER REVIEW

Cape Canaveral, FL December 11-14, 2015





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MARINE COATING TECHNOLOGY


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Leading Corrosion Periodical

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Coatings Resources

TECHNICAL COMMITTEES

Committee Description Scope/Assignment

STG 02 Coatings and Linings, Protective: Atmospheric Scope: Determine uses, application, and performance of coatings for atmospheric service. Atmospheric service denotes industrial and commercial equipment, architectural structures, and bridges.

TG 146 Coatings, Thermal-Spray Assignment: Review and revise joint standard NACE No. 12/AWS C2.23M/SSPC-CS 23.00, “Specification for the Application of Thermal Spray Coatings (Metalizing) of Aluminum, Zinc, and their Alloys and Composites for the Corrosion Protection of Steel.”

TG 148 Threaded Fasteners: Coatings for Protection of Threaded Fasteners Used with Structural Steel, Piping, and Equipment

Assignment: Revise NACE Publication 02107, “Coatings for Protection of Threaded Fasteners Used with Structural Steel, Piping, and Equipment.”

TEG 192X Coating Industry Problems Confronting Owners and Contractors

Assignment: To provide a format for handling problems and issues that affect the owner and contractor utilizing coatings. Problems and issues may include hazardous waste, volatile organic compounds, applicator training, federal and state regulations, and others that may develop.

TEG 255X Coatings, Thermal-Spray for Corrosion Protection Assignment: Exchange of information regarding thermal-spray coatings (TSCs) used for corrosion protection.

TG 260 Review of NACE Standard TM0304-2004 Assignment: Review and revise as necessary the test methods in NACE Standard TM0304.

TEG 311X Threaded Fasteners: Coatings and Methods of Protection for Threaded Fasteners Used with Structural Steel, Piping, and Equipment

Assignment: Share information concerning, and discuss effective methods for, corrosion control of fasteners used with structural, piping, and equipment connections.

TG 312 Offshore Platform Coatings for Atmospheric and Splash Zone New Construction

Assignment: Review and revise as necessary the test methods in NACE Standard TM0404.

TG 340 Offshore Coating Condition Assessment for Maintenance Planning

Assignment: Develop a standard practice addressing a standard method and grading system to assess the in-service condition of offshore coatings. Provide direction regarding the use of assessment data in managing maintenance painting programs. The documented process will serve as an aid in the planning, budget, and execution of offshore maintenance programs.

TEG 346X Offshore Coatings: Laboratory Testing Criteria Assignment: Review and critique laboratory testing methods designed to predict performance in an offshore environment. Assess test variables and gather data needed to improve industry standard techniques.

TEG 399X Evaluation, Testing, and Specifying Coating Materials for Elevated Temperatures for Insulated and Uninsulated Service

Assignment: Exchange information, create a task group for state-of-the-art report, followed by formation of a task group to write a standard practice, and sponsor symposium.

TG 415 Review and Revise as Necessary NACE Standard RP0281-2004

Assignment: Review and revise if necessary NACE Standard RP0281-2004, “Method for Conducting Coating (Paint) Panel Evaluation Testing in Atmospheric Exposures.”

TG 422 Coatings for Elevated-Temperature Insulated or Noninsulated Exterior Service

Assignment: To write a state-of-the-art report.

TEG 424X Liquid-Applied Insulative Coatings for Atmospheric Service at 0 to 375 °F

Assignment: To discuss issues of spray-applied insulative coatings for elevated-temperature exterior surfaces.

TEG 428X Hot-Dip Galvanizing for Steel Corrosion Protection Assignment: To discuss and furnish technical information on the process of hot-dip galvanizing and its use as a corrosion protection system for steel fabrications as well as the inspection of hot-dip galvanized coatings with other corrosion protection systems.

TG 477 Test Methods for Determining True Insulation Value of Liquid Insulative Materials Applied on Steel Surfaces from 80 °F to 275 °F

Assignment: To write a standard to determine thermal conductivity of liquid applied insulative materials.

TG 525 Determining True Insulative Value of Liquid Insulative Materials Applied on Steel Surfaces

Assignment: Develop test methods for determining the true insulative value of liquid insulative materials applied on steel surfaces.

NACE International Technical Committees Need You!• Help influence industry standards. • Exchange technical information. • Strengthen your leadership skills.

As a NACE International member, you can sign up online to join a committee—go to the NACE Committees section at nace.org to join an STG or TEG. Contact the chair of a TG to indicate interest in that type of committee.

Types of Committees• Specific Technology Groups (STGs) • Task Groups (TGs) • Technology Exchange Groups (TEGs)


Coatings Resources

STG 03 Coatings and Linings, Protective: Immersion and Buried Service

Scope: Determine effectiveness, performance criteria, and quality needs of immersion coatings and lining materials used in immersion service.

TG 009 Fiberglass-Reinforced Plastic Linings for Aboveground Storage Tank Floors

Assignment: To develop a standard practice for installing fiberglass-reinforced plastic linings within aboveground storage tanks.

TG 030 Coating Conductance Assignment: To update and revise NACE Technical Committee Report 1D157, “Methods for Measuring Leakage Conductance of Coating on Buried or Submerged Pipelines,” into a NACE standard test method.

TG 031 Pipeline Coating, Plant-Applied Fusion-Bonded Epoxy: Review of NACE Standard RP0394

Assignment: To update and revise NACE Standard RP0394-2002, “Application, Performance, and Quality Control of Plant-Applied, Fusion-Bonded Epoxy External Pipe Coating.”

TG 034 Pipeline Coatings, External: Gouge Test Assignment: To write a test method and criteria for evaluation of gouge resistance of a particular coating.

TG 037 Pipelines, Oilfield: Thermoplastic Liners Assignment: To review and revise NACE Standard RP0304-2004 as necessary.

TG 141 Coatings and Linings over Concrete for Chemical Immersion and Containment Service

Assignment: To update SP0892-2007 to incorporate current technologies and practices to successfully protect concrete.

TG 246 Thin-Film Organic Linings Applied to Process Vessels and Tankages

Assignment: Develop application technology for applying thin-film linings to prevent corrosion, hydrogen-induced cracking, or other corrosion deterioration by internal corrosion mechanisms.

TG 247 Reaffirm NACE Standard RP0105-2005 Assignment: To reaffirm NACE Standard RP0105-2005, “External Repair, Rehabilitation, and Weld Joints on Pipelines.”

TG 248 Coatings, Heat-Shrink Sleeves for External Repair, Rehabilitations, and Weld Joints on Pipelines

Assignment: To review and revise as needed NACE Standard RP0303-2003, “Field-Applied Heat-Shrinkable Sleeves for Pipelines: Application, Performance, and Quality Control.”


Assignment: Review and revise as necessary NACE Standard RP0402-2002, “Field-Applied Fusion-Bonded Epoxy (FBE) Pipe Coating Systems for Girth Weld Joints: Application, Performance, and Quality Control.”

TG 250 Coal-Tar Enamel Coatings for External Repair, Rehabilitations, and Weld Joints on Pipelines

Assignment: Review and revise/reaffirm as necessary NACE Standard RP0602-2002, “Field-Applied External Coal Tar Enamel Pipe Coating Systems: Application, Performance, and Quality Control.”

TG 251 Review and Revise or Reaffirm SP0109-2009 Assignment: To review and revise or reaffirm SP0109-2009, “Field Application of Bonded Tape Coatings for External Repair, Rehabilitation, and Weld Joints on Buried Metal Pipelines.”

TG 263 Review of NACE Standard TM0104-2004 Assignment: Review and revise as necessary the test methods in NACE Standard TM0104-2004.

TG 264 Offshore Exterior Submerged Coatings: Standard Test Methods

Assignment: Review and revise as necessary the test methods in NACE Standard TM0204-2004.

TG 266 Coating and Lining Materials in Immersion Service: Review of NACE Standard TM0174

Assignment: Review and revise as necessary NACE Standard TM0174-2002, “Laboratory Methods for the Evaluation of Protective Coatings and Lining Materials in Immersion Service.”

TG 281 Coatings, Polyurethane for Field Repair, Rehabilitation, and Girth Weld Joints on Pipelines

Assignment: To develop a standard practice for a minimal specification for the field application, repair, and testing for a polyurethane coating to be used on the exterior of buried pipelines.

TG 296 Coating Systems, Wax, for Underground Piping Systems: Review of NACE Standard RP0375

Assignment: To review and revise as necessary NACE Standard RP0375, “Wax Coating Systems for Underground Piping Systems.”


Assignment: To review and revise as necessary NACE Standard RP0399-2004, “Plant-Applied External Coal Tar Enamel Pipe Coating Systems: Application, Performance, and Quality Control.”

TG 336 External Pipeline Coatings: Practices, Test Methods, and/or Test Methodologies for High-Operating-Temperature Pipelines, Immersion and Buried Service Only

Assignment: Develop a technical committee report that outlines state-of-the-art practices as described in the title.

TG 337 External Pipeline Coatings: Field Installation and Inspection Criteria for Maximum Performance

Assignment: Develop a standard practice that identifies common aspects of field installation pertaining to quality installation and long-term performance.

TG 352 Coating Systems (External) for Pipeline Directional Drill Applications

Assignment: To develop a standard practice for minimum specifications for external coatings for use in directional drill service.

TEG 354X Pipeline Coatings: Underground Blistering Assignment: Discuss blistering of underground pipeline coatings, causes of blistering, and prevention methods.

TG 425 State of the Art in CUI Coating Systems Assignment: Describe available systems, performance, and industry-accepted criteria for coatings under insulation.



Coatings Resources

TEG 435X Effects of Bioethanols on Fused Silica Containment Vessels in Immersion and Phase Change Exposures

Assignment: To hold technical information exchanges (TIEs) on the effects of bioethanols, aromatic ethanols, and sulfurous emissions on fused silica containment vessels.

TG 470 Cathodic Disbondment Test for Coated Steel Structures under Cathodic Protection

Assignment: To develop a standard test method to conduct the cathodic disbondment test.

TG 479 NACE Adoption of ISO 21809-3 Assignment: Review ISO 21809 with the goal to adopt or adopt with changes (amendments) to the standard and create a NACE/ISO, possibly modified, standard.

TG 490 Review and Adoption of API 5L2, “Recommended Practice for Internal Coating of Line Pipe for Non-Corrosive Gas Transportation Service”

Assignment: To review and modify (if and where necessary) API 5L2, “Recommended Practice for Internal Coating of Line Pipe for Non-Corrosive Gas Transmission Service,” with input from NACE user community. The standard will have a dual NACE/API number.

TG 507 Review and Revise as Necessary SP0188-2006 Assignment: To review and revise as necessary SP0188-2006, “Discontinuity (Holiday) Testing of New Protective Coatings on Conductive Substrates.”

TG 508 Review and Revise as Necessary SP0490-2007 Assignment: To review and revise as necessary SP0490, “Holiday Detection of Fusion-Bonded Epoxy External Pipeline Coatings of 250 to 760 µm (10 to 30 mils)

TG 516 Standard Practice for Evaluating Protective Coatings for Use under Insulation

Assignment: To write a standard practice for testing coatings for corrosion under insulation (CUI) prevention.

TG 520 Pipeline Coating Peel Strength Test Assignment: To develop a simple and reliable peel test standard for the three-layer polyethylene, three-layer polypropylene, heat-shrink sleeve, and tape coatings in the field and laboratory.

TG 523 Consequences of Coating Failures as Related to Interaction with Cathodic Protection

Assignment: Write a state-of-the-art report describing coating failure mechanisms and integrity management of pipelines after coating failure.

TG 537 Corrosion Prevention Coating of Bolt Connections of Steel Structures by “CUP”

Assignment: To develop terminology and definitions, including components of coating systems, fabrication of “CUP” technical requirements, application process, and requirements for a coating system for bolt connections.

STG 04 Coatings and Linings, Protective: Surface Preparation Scope: Determine effectiveness, performance criteria, and quality needs of various methods of surface preparation for the application of coatings and linings.

TG 006 Blasting: Review of Joint Standards NACE 1-4/SSPC-SP 5, 10, 6, and 7, and NACE No. 8/SSPC-SP 14

Assignment: To review, revise, or reaffirm as necessary joint blasting standards NACE No. 1-4/SSPC-SP 5, 10, 6, 7: “White Metal Blast Cleaning,” “Near-White Metal Blast Cleaning,” “Commercial Blast Cleaning,” and “Brush-Off Blast Cleaning,” and NACE No. 8/SSPC-SP 14, “Industrial Blast Cleaning.”

TG 320 Review and Revise as Necessary NACE No. 13/SSPC-ACS-1 Assignment: To review and revise as necessary NACE No. 13/SSPC-ACS-1, “Industrial Coating and Lining Application Specialist Qualification and Certification.”

TG 323 Wet Abrasive Blast Cleaning Assignment: To review and update joint technical committee report NACE 6G198/SSPC-TR 2, “Wet Abrasive Blast Cleaning.”

TG 350 Surface Preparation by Wet Abrasive Blast Cleaning Assignment: Develop a standard for wet abrasive blast cleaning of steel surfaces that will complement the existing NACE/SSPC joint standards for dry abrasive blast cleaning.

TG 417 Review and Revise as Necessary Joint Surface Preparation Standard NACE No. 6/SSPC-SP 13

Assignment: Review and revise as necessary joint standard NACE No. 6/SSPC-SP 13, “Surface Preparation of Concrete,” to reflect current industry practices and to reflect proper reference to other industry publications.


Assignment: Review and revise as necessary RP0287-2002, “Field Measurement of Surface Profile of Abrasive Blast-Cleaned Steel Surfaces Using a Replica Tape,” and to include other methods of profile measurement now being widely used throughout the industry.

TEG 423X Nonvisible, Nonwater-Soluble Contaminants Affecting Corrosion Protection

Assignment: Discuss the effects of coating performance when applied over nonvisible, nonwater-soluble contaminants and their effects on coating performance.

TG 443 Field Testing for Soluble Salts: Commonly Used Methods Assignment: Develop a technical committee report detailing commonly used soluble salts field test methods.

TEG 469X Surface Preparation Issues Assignment: To provide a forum to discuss various issues affecting surface preparation.

TG 518 Soluble Salt Testing Frequency and Locations on Previously Coated Surfaces

Assignment: Develop a standard regarding soluble salt testing frequency and locations on previously coated surfaces.



Coatings Resources

STG 43 Transportation, Land Scope: To promote the development of techniques to extend the life of land transportation equipment.

TG 061 Revision of NACE SP0592 (formerly RP0592), “Application of a Coating System to Interior Surfaces of New and Used Railway Tank Cars in Concentrated (90-98%) Sulfuric Acid Service”

Assignment: To update and revise NACE SP0592 (formerly RP0592), “Application of a Coating System to Interior Surfaces of New and Used Railway Tank Cars in Concentrated (90-98%) Sulfuric Acid Service.”

TG 063 Railcars: Corrosion Protection and Control Program Assignment: Develop guidelines for railcar lining requalification.

TEG 064X Railcar Surface Preparation Assignment: To keep abreast of industry changes and techniques and report findings annually.

TG 067 Review and Revise or Reaffirm NACE SP0302-2007 Assignment: To review and revise or reaffirm NACE SP0302-2007, “Selection and Application of a Coating System to Interior Surfaces of New and Used Rail Tank Cars in Molten Sulfur Service.”

TG 271 Removal Procedures for Nonvisible Contaminants on Railcar Surfaces

Assignment: To prepare a technical committee report describing surface decontamination for railcars prior to coating application.

TEG 291X Land Transportation: Information Exchange on Corrosion and Coating-Related Issues

Assignment: Technical information exchange in conjunction with an STG meeting.

TG 332 Review and Revise or Reaffirm as Necessary NACE SP0386-2007

Assignment: To review and revise as necessary NACE SP0386-2007 (formerly RP0386), “Application of a Coating System to Interior Surfaces of Covered Steel Hopper Railcars in Plastic, Food, and Chemical Service.”

TG 333 Review and Revise or Reaffirm as Necessary NACE SP0295-2008

Assignment: To review and revise or reaffirm NACE SP0295-2008 (formerly RP0295), “Application of a Coating System to Interior Surfaces of New and Used Rail Tank Cars.”

TG 339 Railcars: Coating Application on Exterior Surfaces of Steel Railcars

Assignment: Review and revise as appropriate NACE Standard RP0692-2003, “Application of a Coating System to Exterior Surfaces of Steel Rail Cars.”

TG 366 Railcars: Corrosion under Tank Car Insulation Assignment: Review and revise as appropriate NACE Publication 14C296 to ensure information is still relevant.

TG 378 Waterborne Coatings on Railcars Assignment: To prepare a state-of-the-art report on waterborne coatings on railcars.

TG 379 Surface Preparation by Encapsulated Blast Media for Repair of Existing Coatings on Railcars

Assignment: To prepare a state-of-the-art report on surface preparation by encapsulated blast media for repair of existing coatings on railcars.

TG 394 Guidelines for Qualifying Personnel as Abrasive Blasters and Coating and Lining Applicators in the Rail Industry

Assignment: To review and revise NACE Standard RP0495-2003.

TG 406 Review of NACE SP0398-2006 Assignment: Review and revise as necessary NACE SP0398-2006 (formerly RP0398), “Recommendations for Training and Qualifying Personnel as Railcar Coating and Lining Inspectors.”

TG 437 Maintenance Overcoating of Railcar Exteriors Assignment: To prepare a state-of-the-art report for the application of maintenance overcoating of railcar exteriors.

TG 444 Guidelines for Data Collection and Analysis of Railroad Tank Car Interior Coating/Lining Condition

Assignment: To produce a standard that provides guidelines for inspecting, rating, and documenting the condition of interior coatings and linings in railroad tank cars to comply with H-201.

TG 456 Coating Thickness Measurement, Methods, and Recording—Specific to the Railcar Industry

Assignment: Prepare a state-of-the-art report outlining currently used procedures for dry film thickness measurement and recording for coatings on railcars.

TG 535 Corrosion and Protection of Tank Cars in Crude Oil Service

Assignment: To prepare a state-of-the-art report regarding corrosion and protection of railroad tank cars in crude oil service.

STG 44 Marine Corrosion: Ships and Structures Scope: To study the corrosion mechanisms, causes, effects, and corrosion control remedies for ships, structures, and equipment exposed to marine environments and to disseminate information in the form of industry standards and formal and informal technical information exchanges on the research, devel-opment, and performance of materials, coatings, and improved or innovative methods to mitigate problems related to marine corrosion.

TEG 181X Marine Vessel Corrosion Assignment: To study the causes, effects, and remedies of corrosion in various marine vessels.

TG 452 Testing of Coating Suitability, Anode Consumption, and Corrosion Evaluation with Use of BWT Systems

Assignment: To write a standard on evaluation of risk for damage to coatings, increased anode consumption, and corrosion in conjunction with the use of ballast water treatment (BWT) systems.



Coatings ResourcesCommittee Description Scope/Assignment

TG 461 Standard for Hull Roughness Measurements on Ship Hulls in Dry Dock

Assignment: To develop a standard on how to perform both in-docking hull roughness readings (before blasting and cleaning in dry dock) and before out-docking hull roughness readings.

TG 475 Standard for Underwater Evaluation of Degrees of Fouling Assignment: To develop a pictorial standard to be used to evaluate the (1) extent, (2) location, and (3) type of fouling to ship hulls and propellers.

TG 476 Corrosion Protection of Offshore Wind Power Units Assignment: To write a standard practice that defines a life cycle of corrosion protection for offshore wind power structures.

TEG 523X Marine Corrosion of Copper Alloys Assignment: To discuss and disseminate information on marine corrosion of copper and copper alloys.

STANDARDS & REPORTSAtmospheric ServiceStandards Item NumberSP0108-2008 Corrosion Control of Offshore Structures by Protective Coatings 21126RP0281-2004 Method for Conducting Coating (Paint) Panel Evaluation Testing in Atmospheric Exposures 21026SP0297-2012 (formerly RP0297) Maintenance Painting of Electrical Substation Apparatus Including Flow Coating of

Transformer Radiators21081

NACE No. 12/AWS C2.23M/SSPC-CS 23.00

Specification for the Application of Thermal Spray Coatings (Metallizing) of Aluminum, Zinc, and Their Alloys and Composites for the Corrosion Protection of Steel (RP0203-2003)

21100

TM0304-2004 Offshore Platform Atmospheric and Splash Zone Maintenance Coating System Evaluation 21245TM0404-2004 Offshore Platform Atmospheric and Splash Zone New Construction Coating System

Evaluation21246

Reports Item NumberNACE Publication 80200/SSPC-TR 4 Preparation of Protective Coating Specifications for Atmospheric Service 24209NACE Publication 02103 Liquid-Applied Coatings for High-Temperature Atmospheric Service 24219NACE Publication 02203/ICRI Technical Guideline 03741/SSPC-TR 5

Design, Installation, and Maintenance of Protective Polymer Flooring Systems for Concrete 24220

Immersion/Buried ServiceStandards Item NumberSP0274-2011 (formerly RP0274) High-Voltage Electrical Inspection of Pipeline Coatings Prior to Installation 21010RP0375-2006 Field-Applied Underground Wax Coating Systems for Underground Pipelines:

Application, Performance, and Quality Control21013

SP0185-2007 (formerly RP0185) Extruded Polyolefin Resin Coating Systems with Soft Adhesives for Underground or Submerged Pipe

21029

SP0111-2011 Coating Technical File in Accordance with the IMO Performance Standard for Protective Coatings

21153

SP0188-2006 (formerly RP0188) Discontinuity (Holiday) Testing of New Protective Coatings on Conductive Substrates 21038SP0288-2011 (formerly RP0288) Inspection of Linings on Steel and Concrete 21039SP0490-2007 (formerly RP0490) Holiday Detection of Fusion-Bonded Epoxy External Pipeline Coatings of 250 to 760 µm (10

to 30 mils)21045

SP0892-2007 (formerly RP0892) Coatings and Linings over Concrete for Chemical Immersion and Containment Service 21060SP0394-2013 (formerly RP0394) Application, Performance, and Quality Control of Plant-Applied, Fusion-Bonded Epoxy

External Pipe Coating21064

SP0298-2007 (formerly RP0298) Sheet Rubber Linings for Abrasion and Corrosion Service 21085RP0399-2004 Plant-Applied, External Coal Tar Enamel Pipe Coating Systems: Application, Performance,

and Quality Control21089

NACE No. 10/SSPC-PA 6 Fiberglass-Reinforced Plastic (FRP) Linings Applied to Bottoms of Carbon Steel Aboveground Storage Tanks (RP0202-2002)

21093

RP0402-2002 Field-Applied Fusion-Bonded Epoxy (FBE) Pipe Coating Systems for Girth Weld Joints: Application, Performance, and Quality Control

21096

RP0105-2005 Liquid-Epoxy Coatings for External Repair, Rehabilitation, and Weld Joints on Buried Steel Pipelines

21106

SP0181-2006 (formerly RP0181) Liquid-Applied Internal Protective Coatings for Oilfield Production Equipment 21025RP0602-2002 Field-Applied Coal Tar Enamel Pipe Coating Systems: Application, Performance, and

Quality Control21098

NACE No. 11/SSPC-PA 8 Thin-Film Organic Linings Applied in New Carbon Steel Process Vessels (RP0103-2003) 21099RP0303-2003 Field-Applied Heat-Shrinkable Sleeves for Pipelines: Application, Performance, and Quality

Control21101

RP0304-2004 Design, Installation, and Operation of Thermoplastic Liners for Oilfield Pipelines 21103TM0174-2002 Laboratory Methods for the Evaluation of Protective Coatings and Lining Materials on

Metallic Substrates in Immersion Service21206


Coatings ResourcesStandards Item NumberTM0102-2002 Measurement of Protective Coating Electrical Conductance on Underground Pipelines 21241TM0104-2004 Offshore Platform Ballast Water Tank Coating System Evaluation 21243TM0204-2004 Exterior Protective Coatings for Seawater Immersion Service 21244SP0109-2009 Field Application of Bonded Tape Coatings for External Repair, Rehabilitation, and Weld

Joints on Buried Metal Pipelines21143

TM0109-2009 Aboveground Survey Techniques for the Evaluation of Underground Pipeline Coating Condition

21254

Surface Preparation

Standards Item Number

SP0178-2007 (formerly RP0178) Design, Fabrication, and Surface Finish Practices for Tanks and Vessels to be Lined for Immersion Service

21022

RP0287-2002 Field Measurement of Surface Profile of Abrasive Blast Cleaned Steel Surfaces Using a Replica Tape

21035

TM0105-2012 Test Procedures for Organic-Based Conductive Coating Anodes for Use on Concrete Structures

21247

NACE No. 1/SSPC-SP 5 White Metal Blast Cleaning (SP0494-2007) 21065

NACE No. 2/SSPC-SP 10 Near-White Metal Blast Cleaning (SP0594-2007) 21066

NACE No. 3/SSPC-SP 6 Commercial Blast Cleaning (SP0694-2007) 21067

NACE No. 4/SSPC-SP 7 Brush-Off Blast Cleaning (SP0794-2007) 21068

WJ-1: SP0212-2012 Joint Surface Preparation Standard Waterjet Cleaning of Metals—Clean to Bare Substrate (WJ-1)

21158

WJ-2: SP0312-2012 Joint Surface Preparation Standard Waterjet Cleaning of Metals—Very Thorough Cleaning (WJ-2)

21155

WJ-3: SP0412-2012 Joint Surface Preparation Standard Waterjet Cleaning of Metals—Thorough Cleaning (WJ-3) 21156

WJ-4: SP0512-2012 Joint Surface Preparation Standard Waterjet Cleaning of Metals—Light Cleaning (WJ-4) 21157

NACE No. 6/SSPC-SP 13 Surface Preparation of Concrete (RP0397-2003) 21082

NACE No. 8/SSPC-SP 14 Industrial Blast Cleaning (SP0299-2007) 21088

NACE No. 13/SSPC-ACS-1 Industrial Coating and Lining Application Specialist Qualification and Certification 21122

SP0508-2010 Methods of Validating Equivalence to ISO 8502-9 on Measurement of the Levels of Soluble Salts

21134

SP0213-2013 Definition of Set Soluble Salt Levels by Conductivity Measurements 21172

Reports Item Number

NACE Publication 6A192/SSPC-TR 3 Dehumidification and Temperature Control during Surface Preparation, Application, and Curing for Coatings/Linings of Steel Tanks, Vessels, and Other Enclosed Spaces

24083

NACE Publication 6G194/SSPC-TR 1 Thermal Precleaning 24183

NACE Publication 6G197/SSPC-TU 2 Design, Installation, and Maintenance of Coating Systems for Concrete Used in Secondary Containment

24193

NACE Publication 6G198/SSPC-TR 2 Wet Abrasive Blast Cleaning 24199

Land Transportation

Standards Item Number

SP0386-2007 (formerly RP0386) Application of a Coating System to Interior Surfaces of Covered Steel Hopper Rail Cars in Plastic, Food, and Chemical Service

21033

SP0592-2006 (formerly RP0592) Application of a Coating System to Interior Surfaces of New and Used Rail Tank Cars in Concentrated (90 to 98%) Sulfuric Acid Service

21057

RP0692-2003 Application of a Coating System to Exterior Surfaces of Steel Rail Cars 21058

SP0295-2008 (formerly RP0295) Application of a Coating System to Interior Surfaces of New and Used Rail Tank Cars 21070

RP0495-2003 Guidelines for Qualifying Personnel as Abrasive Blasters and Coating and Lining Applicators in the Rail Industries

21072

SP0398-2006 (formerly RP0398) Recommendations for Training and Qualifying Personnel as Railcar Coating and Lining Inspectors

21086

SP0302-2007 (formerly RP0302) Selection and Application of a Coating System to Interior Surfaces of New and Used Rail Tank Cars in Molten Sulfur Service

21095

Reports Item Number

NACE Publication 14C296 Protective Coatings for Mitigating Corrosion under Insulation on Rail Tank Cars 24191

NACE Publication 6G198/SSPC-TR 2 Wet Abrasive Blast Cleaning 24199

16 InspectThis! Fall 2015Introducing the 3-Year Warranty on the Model 10/20 Holiday Detector!Introducing the 3-Year Warranty on the Model 10/20 Holiday Detector!

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