In oil and gas production environments, hydrogen sulfide (H2S) is often encountered. The presence of ‘wet’H2S, also known as sour-service, can result in cracking and failure of carbon and low alloy steels as well as corrosion-resistant alloys (CRA’s). Therefore testing and qualifying these materials to ISO 15156 / NACE MR0175 requirements is critical for sour-service applications.

Testing to NACE MR0175 / ISO 15156 requirements

Testing and qualification to the provisions of ISO 15156/NACE MR0175 are split into two separate categories:

  • Part 2 for carbon and low alloy steels and
  • Part 3 for corrosion-resistant alloy’s

 

Carbon and low alloy steel testing

For carbon and low alloy steels, Part 2 of the standard covers the testing and qualification requirements for sulfide stress cracking (SSC), hydrogen-induced cracking (HIC Testing), and stress-orientated hydrogen-induced cracking (SOHIC). For all of the carbon and low alloy steel cracking modes, the highest susceptibility exists at ambient temperature. Additionally, the critical environmental factors to consider are the solution pH and partial pressure of H2S. 

 

Corrosion-resistant alloy testing

For corrosion-resistant alloys, Part 3 of the standard covers the testing and qualification for sulfide stress cracking (SSC), stress corrosion cracking (SCC), and galvanically-induced hydrogen stress cracking (GHSC). For stress corrosion cracking, the most significant susceptibility occurs at ambient or low temperatures. For stress-corrosion cracking, the highest susceptibility is usually at the maximum operating temperature or an intermediate temperature (i.e., 80 – 100 °C) in the case of duplex stainless steels. For corrosion-resistant alloys, with the exception of temperature, the critical environmental factors are the solution pH, chloride concentration, and the partial pressure of H2S.

 

The Сòòò½APP advantage

Сòòò½APP has an integrated global network of laboratories that offer the complete range of sour-service tests for the qualification of your materials to the requirements of MR0175 / ISO 15156. Testing is conducted in accordance with NACE TM0177 (SSC / SCC / GHSC), NACE TM0316 (SSC / SCC), NACE TM0284 (HIC), NACE TM0198 (SSRT) and BS8701 (Full Ring).

In addition to testing, Сòòò½APP’s experts, with extensive experience of the MR0175 / ISO 15156 standard, can offer guidance and advice on the interpretation of the standard and the selection of the most appropriate test program for your application.

Contact our corrosion experts for more information.

Predicting component life with corrosion modeling

Erosion within oil and gas pipelines is a serious problem. Corrosion modeling using the Computational Fluid Dynamic method can accurately predict the location of burn-throughs.

Read More

Fracture Mechanics in Sour Service: Some Characterization Tests on SENT and SENB Specimen

This article provides better understanding of how the SENT test technique influences fracture toughness of pipelines in sour service environments.

Read More

Understanding Mixed Flowing Gas Testing

Mixed flowing gas (MFG) testing is an accelerated aging test that specifically evaluates the corrosion of electrical components due to exposure to atmospheric gasses and contaminants.

Read More

Our team of over 9,000 Engaged Experts in North America, Europe, The Middle East, Australia, Asia and Africa are ready to help you.