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This paper will detail the environmental cracking test program and results when Alloy UNS S42028 (For applications such as high collapse liners sections in high pressure high temperature (HPHT) reservoirs) was exposed to medium density bromide based clear brine fluids at a temperature of 150oC (302oF).
The recent development of high strength alloy UNS S42028 has opened up opportunities for the use of cost effective material solutions for applications such as high collapse liners sections in high pressure high temperature (HPHT) reservoirs. An important aspect with such a development in this application is an understanding of the environmental cracking behavior of Alloy UNS S42028 when exposed to clear brine fluids. This is particularly important during the completion phase of HPHT wells when medium density clear brine fluids are required.This paper will detail the environmental cracking test program and results when Alloy UNS S42028 was exposed to medium density bromide based clear brine fluids at a temperature of 150oC (302oF).
Key words: Downloadable, Martensitic Stainless Steel, UNS S42028, SCC, tubulars, clear brines.
Fe-Cr-Ni alloys such as alloys 600 625 690 and 800 are used in steam generator tubing of nuclear power reactors. Precipitation of impurities on the steam generator tubing can lead to fouling and formation of deposits yielding a partially occluded metal surface. In this work the crevice corrosion susceptibility of these alloys is analyzed.
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Resistance of S30400 and S31600 SSs to chloride-induced crevice corrosion was assessed in a wide range of temperatures and chloride concentrations. Repassivation potential of S30400 SS decreased with increasing chloride & temperatures from 0 to 60ºC, and it a constant value in the range from 60 to 90ºC regardless of chloride.
This study presents an overview of a number of factors influencing the pitting corrosion of Ti in aggressive environments. Effects of temperature and metal cations on pitting corrosion of Ti.