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This paper presents an expanded laboratory test database on critical corrosion modes for UNS R55400 pipe exposed to relevant oilfield production environments which include sour well fluid brines, a heavy chloride/bromide brine well completion fluid, injected methanol, organic acid- and HCl-based well acidizing solutions, and seawater.
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Advances in Biomedical Corrosion: New Trends, Challenges, and Solutions encompasses just over 10 years of research into the interplay between corrosion and biomedical materials, based on technical papers by experts in the field.
While the range of biomedical materials is impressive--spanning metals, alloys, ceramics, and polymers--this title focuses on metals and alloys.
The book covers corrosion topics and technologies ranging nanomaterials for biomedical coatings to additive manufacutring for hip and knee replacements to the potentials of various alloys.
2023 AMPP e-book, 126 pages, color
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2023 AMPP book, 8.5 x 11, 126 pages, color
ASTM Grade 29 titanium alloy (UNS R56404) has been traditionally used for oil and gas stress joints (TSJ). However, given the general difficulty of processing this type of alloy in the beta quenched condition and more recently the exorbitant increase in alloying costs due to the ruthenium, a new solution is required if titanium is to be considered for future applications. This 475 alloy was developed to meet geothermal requirements to replace Grade 29 seamless casing. The essential material properties of Grade 29 in bulk and welded condition as used for titanium stress joints were reported by Shutz et al.
About a month after commissioning, a decrease in pH of the cooling water in the plant was observed. This meant that CO2 has leaked into the cooling water in one of the coolers. Two months after commissioning, about 15% of tubes in one cooler downstream of the reactor were plugged after inspection results showed that they have leaked.
Results of exposing UNS R56404 forging and pipe product forms to liquid mercury over the 25°-232°C range while highly stressed at & beyond the alloy’s yield point via three loading modes are reported. Included are: sustained load 90 day C-ring tests, slow strain rate tensile testing, and rippled slow strain rate cyclic tensile loading.