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Metallic Film-Coated Optical Fiber Sensor For Corrosion Monitoring At High Pressures

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Corrosion is a common and critical issue in the oil and natural gas industry and it adversely affects the component functionality and structural integrity of infrastructure for exploration, production, transportation, processing, and CO2 sequestration. The natural gas delivery system includes 528,000 km (328,000 miles) of transmission and gathering pipelines in U.S. According to the Pipeline and Hazardous Materials Safety Administration (PHMSA) database, corrosion has caused ~25% of the natural gas transmission and gathering pipeline incidents over the last 30 years in the U.S., and 61% out of corrosion-caused incidents were due to internal corrosion.

Product Number: 51322-17804-SG

Author: Ruishu F. Wright, Paul R. Ohodnicki, Jr, Nathan Diemler, Margaret Ziomek-Moroz, John Baltrus, Michael Buric

Publication Date: 2022

Industries: Corrosion Monitoring and Control , Coatings and Linings , Coatings

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It is important yet challenging to monitor and locate corrosion over long-distance natural gas pipelines, especially for internal corrosion. Water vapor condensation can provide an aqueous electrolyte for corrosion to occur inside the pipe. We have previously demonstrated distributed optical fiber-based corrosion and humidity sensors at ambient pressure. In this work, optical fiber sensors were interrogated using an optical backscatter reflectometer and tested under high pressures to simulate pressurized pipeline conditions. When pressurized to 900 psi with dry N₂, strains of single-mode optical fiber sections became more negative, indicating compressive strains along the fiber. Humidity was successfully monitored at 900 psi based on water-induced strain changes of the fiber polymer jacket. The corrosion sensor section was electrolessly coated with Fe thin film as the corrosion proxy. The backscattered light intensity didn’t show noticeable responses in dry N2, indicating that no corrosion occurred. When wet CO₂ gas pressurized the reactor to 850 psi, the backscattered light intensity increased in several locations on the Fe thin film within the first hour, indicating localized corrosion. When a small amount of water was introduced to the CO₂ pressurized reactor, the aqueous corrosion was also successfully detected.

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Long-Term Cost Saving By Using High Alloyed Stainless Steel In Seawater Coolers

Product Number: 51322-17544-SG

Author: Jonas Höwing

Publication Date: 2022

$20.00

Copper alloys such as copper nickel (CuNi) and Admiralty Brass (CuZn) are often successful material selections for seawater coolers. The copper alloys successes in these highly corrosive environments can be attributes to the ability of copper to form a protective scale, thus stopping corrosion of the material. On copper alloys in seawater, the protective scale formed comprises a mix of cuprous oxide (Cu2O), copper oxide (CuO) and copper hydroxy chlorides.

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Metal Dusting Resistance Of Nicrmocu Alloy And Its Weld Overlay Under High Pressure Condition

Product Number: 51322-17570-SG

Author: Bingtao Li, Vinay Deodeshmukh, Clara Schlereth, Anke S. Ulrich, Mathias C. Galetz

Publication Date: 2022

$20.00

Many industrial processes contain H2, CO, CO2, and H2O gas mixtures, such as syngas production and processing in hydrogen, ammonia, and methanol plants. These process environments have high carbon activity, i.e. a_c > 1, and low oxygen partial pressure at their elevated operating temperatures, such as in the temperature range of 400-800 °C (752-1472 °F). The high carbon activity could result in a catastrophic material degradation, i.e. metal dusting. The resulting corrosion products consist of carbon or graphite and metal particles, along with possible carbides and oxides, and cause material disintegration.

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Mechanical, Microstructural And Corrosion Characterization Of Low Binder Containing WC-Co Grades Using A Binderjet Process

Product Number: 51322-17583-SG

Author: Krutibas Panda, Ed Rusnica, Reece Goldsberry, Jerry Domingue, Paul Prichard, Zhuqing Wang

Publication Date: 2022

$20.00

Cemented carbides have been widely used to make parts for wear applications due to the excellent combination of hardness and toughness. Cemented carbides represent a group of composite materials containing hard metal carbides, such as tungsten carbide (WC), bonded by ductile metallic binder agents, such as cobalt (Co), nickel (Ni), or iron (Fe).¹ By varying WC grain size, weight fraction of metallic binder, and processing parameters, a wider range of microstructure and mechanical properties can be achieved.

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Metallic Film-Coated Optical Fiber Sensor For Corrosion Monitoring At High Pressures

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Metallic Film-Coated Optical Fiber Sensor For Corrosion Monitoring At High Pressures

Long-Term Cost Saving By Using High Alloyed Stainless Steel In Seawater Coolers

Metal Dusting Resistance Of Nicrmocu Alloy And Its Weld Overlay Under High Pressure Condition

Mechanical, Microstructural And Corrosion Characterization Of Low Binder Containing WC-Co Grades Using A Binderjet Process

Association for Materials Protection and Performance