Material Data Sheet

Please select a material application among SM series and proprietary grades.

New Sour Service - SM-110XS

Coupling: White, Blue, Blue
Pipe body: White, Blue, Blue
General description

SM-110XS is a low alloy High Strength Carbon steel OCTG casing material suitable for severe Sour Service applications. SM-110XS is a validated full fledge Sulfide Stress Cracking (SSC) resistant material developed based on SMC110 manufacturing experience.

SSC failure mechanism is a form of Hydrogen embrittlement in combined presence of H2S, water and tensile stresses. Nippon Steel pioneered the development of a 110 grade material able to resist specific sour service applications in the early 90’s, under SMC110 name.

Diameters: 2-3/8” to 16”

Weights: as per API 5CT/ISO 11960

Special application: Please contact Nippon Steel engineer, should You require specific size, weight, drift, or any other characterization.

Reference document
  • Proprietary SM-110XS. TGP-3159 (latest revision)
  • API 5CT / ISO 11960
  • NACE MR0175 / ISO 15156-2
  • API 5C1 / ISO 10405
  • NACE TM0177
  • VAM Book
Applicable environment

SM-110XS is designed to provide 110 SMYS physicals for casing applications, while remaining SSC resistant in Severe Sour service condition corresponding to region 3, High H2S combined with low pH, as defined by NACE MR0175/ISO15156-2 (Fig 1).

Sour Service regions in the pH vs H2S diagram

Fig. 1 : Sour Service regions in the pH vs H2S diagram
* Note : Even though this low pH corner is considered non-sour as far as H2S is concerned, caution needs to be exercised, as High Strength materials may become susceptible to Environmental Cracking (EC) even with no or very limited H2S.

There is a fair amount of confusion in relation to the H2S partial pressure limit applicable to 110 ksi sour service material.

ISO 11960 in its 2011 revision recognizes the existence of C110 material. The actual application of this ISO C110 material in terms of sour service is left up to the end user judgment through the following statement ISO 11960 (2011 revision) paragraph 7.14.1

 

General guidance:

The purchaser should refer to ISO 15156-2 or ANSI-NACE MR0175/ISO 15156-2 for guidance on the usage of grades C90, T95 and C110. Particular attention should be given to the application of grade C110 in ISO 15156-2 or ANSI-NACE MR0175/ISO 15156-2 SSC regions 2 or 3, as this material is not suitable for all sour (hydrogen sulfide containing) service applications.

NOTE: The SSC test is for quality control purposes and does not qualify the material for any specific sour service application. It is the product user’s responsibility to ensure that the product is suitable for the intended application.

Referring to ISO 15156 / NACE MR0175, ISO specified C110 application is restricted to either Region 1 per fig 1, or to any H2S partial pressure as long as the material is exposed to temperature always exceeding 65°C (150°F).

SM-110XS is a validated full fledge Sulfide Stress Cracking (SSC) resistant material usable for casing applications anywhere within Regions 1, 2 & 3 of ISO 15156-2 pH versus H2S partial pressure diagram, that is any combination of ppH2S and temperature under in situ pH occurring in production environments.

For a more detailed assessment please contact Nippon Steel engineers.

Manufacturing
PROCESS DESCRIPTION
Steel making Ladle refined, fully killed and vacuum degassed; continuously cast to a fine grained practice
Pipe making Seamless
Heat treatment Quenched and Tempered
Specified mechanical properties
YIELD STRENGTH
KSI		 TENSILE STRENGTH
KSI		 ELONGATION
%		 HARDNESS
HRC		 TECHNICAL NOTE
Min Max Min Min  Max  
110 120 115 API Formula 29.0 Application: Unlimited H2S
Tested: 85% SMYS, 1bar H2S, NACE A, Sol-A
Physical and thermal properties
  UNIT 25°C 50°C 100°C 150°C 200°C 250°C
Density Kg/m3 7750 7740 7730 7720 7700 7680
Young's modulus GPa 212 211 209 206 203 200
Poisson's Ratio - 0.30 0.30 0.30 0.30 0.29 0.29
Tensile strength de-rating % 100 96.3 94.3 95.2 95.2 95.2
Yield strength de-rating % 100 95.8 93.8 92.3 88.2 86.8
Thermal Diffusivity x10-6 m2/s 11.9 11.9 11.5 11.0 10.3 9.74
Heat Capacity x106 J/m3 deg.C 3.49 3.61 3.72 3.83 3.97 4.17
Thermal Conductivity W/m deg.C 41.5 42.9 42.8 42.1 40.9 40.6
Specific Heat J/Kg deg.C 450 466 481 496 516 543
Thermal expansion x10-6 / deg.C - 12.5 12.3 12.4 12.6 12.8
Yield strength / Temperature

 

Technical information

Temperature increase tends to minimize materials SSC susceptibility, and this tendency can be observed on API grades as well where, according to NACE MR0175 / ISO 15156-2, at higher temperature exposures high strength materials can be used in Region 3 of NACE MR0175/ISO15156-2 pH-H2S domain diagram (please refer to Fig 1).

Referring to API P110 grade in particular, this material can be used in high H2S environments if and only if the material is exposed to temperatures exceeding 80°C / 175°F (Fig. 2):

SSC Temperature thresholds for API Carbon steel grades

Fig. 2 : SSC Temperature thresholds for API Carbon steel grades according to NACE MR0175 / ISO 15156-2.

These 20 years of experience in manufacturing SMC110 allowed for Nippon Steel to optimize the different processes inclusive of stringent QC, resulting in upgrading of the material being able to withstand ANY H2S partial pressure at ANY temperature as highlighted by the below SSC test results (Figure 3).

SM-110XS SSC resistance versus H2S pressure and temperature

Fig. 3 : SM-110XS SSC resistance versus H2S pressure and temperature
                - 4 point bent beam test at 90% AYS,
                - H2S partial pressure from 10 to 100 bars,
                - Test temperature from 24 to 107°C
                - Test solution: 5% NaCl
                - Test duration from 720 hrs to 2160 hrs
                - pH values from 3.0 to 3.50

The above test verified SM-110XS SSC resistance as a function of temperature and H2S partial pressure. These conditions were selected to maximize the H2S partial pressure within the gas phase known to be the most severe in terms of SSC.

For additional information about material performances please contact Nippon Steel engineers

Storage and handling procedure

Health, Safety and Environment

While state-of-the-art HSE rules are applied throughout Nippon Steel manufacturing process, proprietary and specific HSE regulations shall be applied along the life cycle of the pipe until it reaches its final position in the well, according to each operator’s rules. This particularly applies to all phases of handling and transportation, assembly on the rig floor, and rig return if applicable. OCTG are heavy and by nature unstable. Special care shall be paid to potential risks of injury whenever handling OCTGs. Walking on pipes shall be avoided at all times. Usage of Personal Protection Equipments (PPE) is mandatory. Equipment and procedures will be established to capture the possible wastes generated during maintenance (cleaning, coating, doping) and disposed according to local regulations. This applies in particular to storage dope, running dope, or cleaning water wastes.

Best practices for transportation, handling and storage of OCTG in general are covered by ISO 10405 / API RP5C1. VAM Book is also a good source of handling practices for VAM connections. In addition to these general rules, specific care is recommended pertaining to SMC110, because improper handling could affect the material performances and by extension the corrosion resistance :

  • Prevention of Spot Hardening

For more specific information please contact Nippon Steel engineers