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NACE Standards

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NACE Course Standards

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Picture for TM0197-Laboratory Screening Test to Determine the Ability of Scale Inhibitors to Prevent the Precipitation of Barium Sulfate and/or Strontium Sulfate from Solution (for Oil and Gas Production Systems)-HD1997
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TM0197-HD1997- Laboratory Screening Test to Determine the Ability of Scale Inhibitors to Prevent the Precipitation of Barium Sulfate and/or Strontium Sulfate from Solution (for Oil and Gas Production Systems)-HD1997

Product Number: 21228-HD1997
ISBN: 1-57590-040-8
Author: NACE International
Publication Date: 1997
$179.00

Test method to screen scale inhibitors for their ability to prevent precipitation of BaSO4 and/or SrSO4 from oilfield brines. Historical Document 1997
Picture for TM0198-2011 (Redline)
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TM0198-2011-SG (Redline), "Slow Strain Rate Test Method for Screening Corrosion-Resistant Alloys for Stress Corrosion Cracking in Sour Oilfield Service" (Redline)<br><em>Redline versions of standards show the changes to the current edition of the standard since the last edition. Changes are shown in underline and strikeout. With the Redline, users will be able to quickly identify additions and d

Product Number: 21263-SG
ISBN: 1-57590-051-3
Publication Date: 2011
$109.00
Picture for TM0198-2016
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TM0198-2016 "Slow Strain Rate Test Method for Screening Corrosion-Resistant Alloys (CRAs) for Stress Corrosion Cracking in Sour Oilfield Service"

Product Number: 21232-SG
ISBN: 1-57590-051-3
Publication Date: 2016
$179.00

HISTORICAL DOCUMENT. Method for screening corrosion-resistant alloys (CRAs) used in oilfield production environments.  The SSR test for resistance to stress corrosion cracking (SCC) uses slow, dynamic strain applied at a constant rate.
Picture for TM0198-2020, “Slow Strain Rate Test Method for Screening Corrosion-Resistant Alloys for Stress Corrosion Cracking in Sour Oilfield Service”
Available for download

TM0198-2020, “Slow Strain Rate Test Method for Screening Corrosion-Resistant Alloys for Stress Corrosion Cracking in Sour Oilfield Service”

Product Number: TM0198-2020
ISBN: 1-57590-051-3
Publication Date: 2020
$109.00

This standard establishes a slow strain rate (SSR) test method for screening corrosion-resistant alloys (CRAs) (i.e., stainless steels and nickel-based alloys) for resistance to stress corrosion cracking (SCC) at elevated temperatures in sour oilfield production environments.  The SSR test, which is relatively short in duration, incorporates a slow, dynamic strain applied at a constant extension rate.  This results in acceleration of the initiation of cracking in susceptible materials, thereby simulating rather severe conditions.

The standard specifies reagents, test specimen, test equipment, determination of baseline material properties, environmental and mechanical test conditions, test procedure, and analysis and reporting of test results.  It is intended for use by laboratory investigators for screening CRAs for resistance to SCC in sour oilfield service.

This revision extends the scope of the standard to address the screening of precipitation-hardened nickel-based alloys for resistance to hydrogen induced stress cracking (HISC) using the SSR test method.
Picture for TM0198-Slow Strain Rate Test Method for Screening Corrosion-Resistant Alloys (CRAs) for Stress Corrosion Cracking in Sour Oilfield Service-HD1998
Available for download

TM0198-HD1998-SG Slow Strain Rate Test Method for Screening Corrosion-Resistant Alloys (CRAs) for Stress Corrosion Cracking in Sour Oilfield Service-HD1998

Product Number: 21232-HD1998
ISBN: 1-57590-051-3
Author: NACE International
Publication Date: 1998
$179.00

This standard establishes a SSR test method for screening CRA materials (i.e., stainless steels and nickel-base alloys) for resistance to SCC at elevated temperatures in sour oilfield production environments. Historical Document 1998
Picture for TM0199-2013 Standard Test Method for
Available for download

TM0199-2013-SG "Standard Test Method for Measuring Deposit Mass Loading (“Deposit-Weight-Density”) Values for Boiler Tubes by the Glass-Bead-Blasting Technique"

Product Number: 21236-SG
ISBN: 1-57590-082-3
Publication Date: 2013
$109.00

Determining the deposit weight density (DWD) on a boiler tube surface, via the glass-bead-blasting technique.  Removes most boiler deposits. Useful when other methods fail.
Picture for TM0199-Standard Test Method for Measuring Deposit Mass Loading (“Deposit-Weight-Density”) Values for Boiler Tubes by the Glass-Bead-Blasting Technique-HD1999
Available for download

TM0199-HD1999-SG Standard Test Method for Measuring Deposit Mass Loading (“Deposit-Weight-Density”) Values for Boiler Tubes by the Glass-Bead-Blasting Technique-HD1999

Product Number: 21236-HD1999
ISBN: 1-57590-082-3
Author: NACE International
Publication Date: 1999
$179.00

This standard describes a simple test method that employs GBB equipment to remove boiler waterside deposits on a piece of tubing removed from a representative area of a boiler. Historical Document 1999
Picture for TM0204-2004
Available for download

TM0204-2004, Exterior Protective Coatings for Seawater Immersion Service

Product Number: 21244-SG
ISBN: 1-57590-190-0
Publication Date: 2004
$179.00

DOWNLOADABLE HISTORICAL DOCUMENT. Test methods to evaluate coating systems for seawater immersion service on exterior surfaces of submerged offshore platform steel structures, piers, docks, pilings, subsea valves, and wellheads.
Picture for TM0204-2019 “Exterior Protective Coatings for Seawater Immersion Service”
Available for download

TM0204-2019 “Exterior Protective Coatings for Seawater Immersion Service”

Product Number: 21244-2019
ISBN: 1-57590-190-0
Publication Date: 2019
$109.00

This updated NACE International standard test method specifies test methods to evaluate the performance of liquid coating systems for seawater immersion services. This test method is intended for use by facility owners and coating manufacturers.The test method covers liquid exterior protective coating systems for offshore platform steel structures, piers, docks, pilings, subsea valves, and wellheads at normal seawater temperature.

Included are four test methods—including cathodic disbondment, seawater immersion resistance, aging stability, and edge coverage—used to evaluate coating systems. The test method also includes two tables; Table 1 details fingerprinting of coating materials, and Table 2 details the test panel geometry, size, substrate material, and minimum quantity.

 
Picture for TM0208-2013, "Laboratory Test to Evaluate the Vapor-Inhibiting Ability of Volatile Corrosion Inhibitor Materials for Temporary Protection of Ferrous Metal Surfaces"
Available for download

TM0208-HD2013-SG "Laboratory Test to Evaluate the Vapor-Inhibiting Ability of Volatile Corrosion Inhibitor Materials for Temporary Protection of Ferrous Metal Surfaces"

Product Number: 21253-HD2013
$179.00

This method tests the vapor-inhibiting ability (VIA) of volatile corrosion inhibitor (VCI) materials. Evaluates vapor transport  and  corrosion protection with simple, low-cost apparatus.
Picture for TM0211-2011
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TM0211-2011-SG “Durability Test for Copper/Copper Sulfate Permanent Reference Electrodes for Direct Burial Applications”

Product Number: 21257-SG
ISBN: 1-57590-247-8
Publication Date: 2011
$109.00

Test method to measure properties and stability of Cu/CuSO4 permanent reference electrodes (PREs) under environmental stress.  Specifically measures migration of CuSO4 from - and chloride into - the PRE.

 

 
Picture for TM0212-2012
Available for download

TM0212-2018-SG Detection, Testing, and Evaluation of Microbiologically Influenced Corrosion on Internal Surfaces of Pipelines

Product Number: 21260-SG
ISBN: 1-57590-255-9
Publication Date: 2018
$109.00

Standard test method for microbiologically influenced corrosion (MIC) on internal surfaces of pipelines. Types of microorganisms, MIC mechanisms, sampling and testing. Research results, and interpretation of test.
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