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Products tagged with '140 ksi grade'

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Picture for Effect of heat treatment on mechanical properties and corrosion resistance of Nickel Alloy UNS N0771
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51318-10650-Effect of heat treatment on mechanical properties and corrosion resistance of Nickel Alloy UNS N0771

Product Number: 51318-10650-SG
Author: Julia Rosenberg / Jutta Klöwer / John Groth / Christoph Bosch / Georgi Genchev
Publication Date: 2018
$20.00

An intensive testing program to study the effect of the heat treatment of the alloy USN N07718 was launched. Corrosion and environmental cracking were also tested.
Picture for Test Protocol for Assessing the Sulfide Stress Cracking Resistance of Low Alloyed Steels in High Temperature High Pressure Sour Environments
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Test Protocol for Assessing the Sulfide Stress Cracking Resistance of Low Alloyed Steels in High Temperature High Pressure Sour Environments

Product Number: 51320-14588-SG
Author: Florian Thebault, Jonathas Oliveira, Julien Millet
Publication Date: 2020
$20.00

High Pressure and High Temperature wells are very critical and require special attention to avoid well integrity issues. High pressure requests the use of very high strength low alloyed steels, above 965 MPa (140 ksi), while even trace of hydrogen sulfide implies significant partial pressures of H2S, much higher than the limit of 0.05 psi (3.5 mbar) provided by NACE MR0175 / ISO 15156 standard. Consequently, and despite a high temperature that reduces the risk of cracking, it is crucial to assess the resistance to Sulfide Stress Cracking of materials. However low alloyed steels experience high corrosion rates when exposed to standardized test solutions at elevated temperatures, leading to difficulties of controlling the mechanical stress loading, with a load rising in NACE TM0177 Method A and declining in four-points bending test. In addition, close attention shall be paid to both the evolution of the mechanical properties of the materials with the temperature and the appropriate sequence of sour gas introduction with regards to the temperature control. This paper discusses the most appropriate testing protocol for overcoming these issues and provides experimental results obtained in the frame of the qualification of 965 MPa (140 ksi) controlled yield grade for HPHT applications. 
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