AMPP Store - Conference Papers

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Influence of the UV Radiation on the Corrosion Resistance of the Carbon-Based Coatings for the Marine Industry

Product Number: 51319-12950-SG

Author: Anastasiia Artemova

Publication Date: 2019

$20.00

The composite protective coating is the most widespread technology among various methods used in corrosion protection for the marine industry. Carbon-based materials are the most promising as anticorrosion pigments due to its mechanical strength chemical inertness non-cytotoxicity and very strong absorption of UV and visible light. In present study graphene oxide (GO) and multiwalled carbon nanotubes (MWCNT) were investigated as addictive and also they were modified by nitrogen-doping. The samples of stainless steel (316L) coated by epoxy resin with carbon-based pigments were exposed to UV irradiation (340nm) for 1000h and corrosion behavior in 3.5 wt% sodium chloride (NaCl) solution was investigated before and after UV degradation. Experimental results showed that corrosion current significantly decreased in presence of carbon-based materials especially nitrogen-doped ones in the composite coating. The degradation of the epoxy coating after UV exposure was retarded by the presence of the GO MWCNT and the nitrogen-doped pigments suggested that carbon-based nanomaterials may enhance the lifetime of composite coating. Finally a protection mechanism was built to explain the carbon-based nanomaterials improved corrosion resistance and effect of nitrogen-doping on the corrosion behavior.KEY WORDS: UV radiation composite coating corrosion graphene oxide multiwalled carbon nanotubes nitrogen doping

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Influence Of Thermomechanical Processing On Mechanical Properties And Corrosion Resistance Of Super Duplex Stainless Steel UNS S32750.

Product Number: 51322-17613-SG

Author: Clara Herrera, Merlin Seifert

Publication Date: 2022

$20.00

Duplex stainless steels (DSSs) are based on the Fe-Cr-Ni system and are constituted of 30 to 70 % ferrite and austenite. They combine high tensile strength, good toughness, weldability, and excellent corrosion resistance including stress-corrosion cracking and resistance to localized corrosion.^1-3 DSSs can be classified according to the Pitting Resistance Equivalent Number (PREN = Cr + 3.3 Mo + 16 N) in lean duplex (PREN= 22-27), standard (PREN = 28-38), super duplex (PREN = 38-45) and hyperduplex (PREN > 45).

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Influence of Ultrasonic Nanocrystal Surface Modification on the Corrosion and Stress Corrosion Cracking Behavior of Welded Joint in District Heating Pipe

Product Number: 51317--8953-SG

ISBN: 8953 2017 CP

Author: Yong-Sang Kim

Publication Date: 2017

$20.00

Stress corrosion cracking behavior measured by slow-strain rate tests with accelerated anodic & cathodic reactions. Results indicated the UNSM treatment has a significant effect on the corrosion condition. No effect appeared in the hydrogen embrittlement.

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Infrastructure Corrosion Issues and Solutions on Military Bases

Product Number: 51317--9212-SG

ISBN: 9212 2017 CP

Author: Vinod Agarwala

Publication Date: 2017

$20.00

Many hangars, shelters and silos used for storage of military weapons systems are several decades old and have started to show signs of aging and corrosion assisted damage of support structures. Case study.

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Inhibited Erosion-Corrosion of Carbon Steel in Sweet Production with CaCO3 Versus Sand Particles

Product Number: 51319-13433-SG

Author: Anass Nassef

Publication Date: 2019

$20.00

In the oil and gas production industry carbon steel tubing and piping are susceptible to erosion-corrosion damage due to the erosive and corrosive nature of the flow. The combined effect of solid particle erosion and corrosion can increase the metal degradation rate while simultaneously decreasing the efficiency of corrosion protection systems including iron-carbonate scale formation and chemical inhibition. These combined effects can lead to higher corrosion rates surface pitting and material failure. Thus prediction of chemical inhibitor effectiveness when solid particles are being produced particularly important. Modeling this behavior is critical when the wells are deep or off-shore because coupon testing is impractical and replacement costs are high. Considerable research has been devoted to investigate the effect of sand erosion on the efficiency of corrosion inhibitors in sweet production/CO2 environments in presence of sand particles. However sand particles are not the only particles that occur during oil and gas production. Calcium carbonate (CaCO3) particles can also be produced during oil and gas production because the majority of oil and gas production in the world is from carbonate reservoirs where calcium carbonate (CaCO3) particles can enter into the flow of produced gas and oil. Currently little is known about the erosive effects of CaCO3 particles on the performance of corrosion inhibitors in CO2 environments. This paper describes experimental and modeling studies directed at understanding the influence of CaCO3 particles on the effectiveness of imidazoline-based inhibitor in reducing CO2 corrosion of carbon steel material. The performance of the inhibitor with CaCO3 particles is compared with the inhibitor performance for a flow containing sand particles. A phenomenological model based on Frumkin-type isotherm is presented as a technique for predicting inhibitor effectiveness for these flow conditions. Erosion-corrosion experiments were performed using flow loop set up with a direct impingement configuration in an iron carbonate forming environment. Electrochemical linear polarization resistance and weight loss methods were utilized to experimentally characterize erosion-corrosion rates for both types of solid particles.

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Inhibiting localized corrosion of carbon steel pipelines in sour service

Product Number: 51323-18833-SG

Author: Anupom Sabhapondit, Aboubakr M Abdullah, Nicholas Laycock, Manoj Gonuguntla, Shimjith Madayi, Tom Bos

Publication Date: 2023

$20.00

Use of corrosion inhibitors (CI) to protect metallic equipment, especially carbon steel pipelines from corrosion has long been an established, effective, economic, and hence globally accepted technique. The oil and gas industry has been using CIs to protect the pipelines under various exposure conditions including sour and sweet services . Complete understanding of corrosion mechanisms under sour conditions and protecting pipeline steel under such conditions has always been a challenging task due to the complexity of such systems.

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Inhibiting Nucleation Corrosion in Liquid Hydrocarbons

Product Number: 51324-21232-SG

Author: Moshood Adewale; Hitesh Bagaria; Nimeshkumar Patel; Tatiana Barbosa; Osvaldo Antonio Heredia Cancino

Publication Date: 2024

$40.00

Dewpoint corrosion is a well-known phenomenon in flue gas stacks and refinery overheads, where fine water droplets condense from the vapor upon cooling, and the acid gases in the vapors diffuse into water droplets to form a highly corrosive low pH liquid. We have identified a similar mechanism in hydrocarbon liquids, which we call as “nucleation corrosion” (C2023-19463). Liquid hydrocarbons often have dissolved water (DW), which does not promote corrosion even in the presence of corrosive species (e.g., organic acids, H2S). Upon cooling, the DW nucleates as nanometer-sized water droplets and acids present in the liquid partition into the water droplets decreasing pH to cause aggressive nucleation corrosion. In this study the methods to mitigate nucleation corrosion are investigated with an emphasis on studying the impact of different types of chemical inhibitors on this newly discovered mechanism. An interesting example of the impact of the test method on inhibitor selection is shown. Finally, a case study highlighting nucleation corrosion in a refinery distillation overhead reflux line is presented.

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Inhibition Of Calcium Carbonate Scale Formation In Water-Mono Ethylene Glycol Solutions By Water Soluble Polymers

Product Number: 51321-16607-SG

Author: P.D. Natsi/ P.G. Koutsoukos

Publication Date: 2021

$20.00

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Inhibition of Calcium Phosphate Scale on Heat Exchangers-Relation Between Laboratory Test Results and Tests on Heat Transfer Surfaces

Product Number: 79220

Author: S. Kubo, T. Takahasi, H. Morinaga, H. Ueki

Publication Date: 1979

$20.00

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Inhibition of Crevice Corrosion of Ni-Cr-Mo Alloys by Sulfate, Nitrate and Molybdate

Product Number: 51323-18936-SG

Author: Eduardo Sáenz González, Martín A. Rodríguez, Edgar C. Hornus

Publication Date: 2023

$20.00

Nickel base alloys with high chromium and molybdenum contents are very resistant to chloride-induced localized corrosion, even at relatively high temperatures. These alloys include the Ni-Cr-Mo(W) or
“C” family of alloys and the novel Ni-Mo-Cr alloy HYBRID-BC1 (UNS N10362). Alloy 22 (UNS N06022) stands out due to its versatility: chromium and molybdenum contents were selected to optimize its corrosion behavior in oxidizing and reducing conditions. Alloy 625 (UNS N06625) has outstanding thermal ageing resistance and a longer in-service experience. The

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Inhibition of Formation of Magnesium Hydroxide by Polymers: The Role of Molecular Architecture

Product Number: 51321-16710-SG

Author: P. D. Natsi; P. G. Koutsoukos

Publication Date: 2021

$20.00

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Inhibition of Microbial Induced Corrosion of Concrete using Admixture and Surface Applied Corrosion Inhibitors

Product Number: 51323-18768-SG

Author: Behzad Bavarian, Koushik Kosanam, Lisa Reiner, Pranav Meddhali

Publication Date: 2023

$20.00

The life-cycle of concrete structures used in waste water systems should consider all factors that might cause a structural system to perform unacceptably at any point during its lifetime. This includes the progressive and sustained loss of load capacity caused by operational or environmental factors. In general terms, deterioration can be defined as a loss of structural load capacity with time as a result of the action of external agents causing chemical attacks or material weakening due to these environmental interactions.

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Influence of the UV Radiation on the Corrosion Resistance of the Carbon-Based Coatings for the Marine Industry

Influence Of Thermomechanical Processing On Mechanical Properties And Corrosion Resistance Of Super Duplex Stainless Steel UNS S32750.

Influence of Ultrasonic Nanocrystal Surface Modification on the Corrosion and Stress Corrosion Cracking Behavior of Welded Joint in District Heating Pipe

Infrastructure Corrosion Issues and Solutions on Military Bases

Inhibited Erosion-Corrosion of Carbon Steel in Sweet Production with CaCO3 Versus Sand Particles

Inhibiting localized corrosion of carbon steel pipelines in sour service

Inhibiting Nucleation Corrosion in Liquid Hydrocarbons

Inhibition Of Calcium Carbonate Scale Formation In Water-Mono Ethylene Glycol Solutions By Water Soluble Polymers

Inhibition of Calcium Phosphate Scale on Heat Exchangers-Relation Between Laboratory Test Results and Tests on Heat Transfer Surfaces

Inhibition of Crevice Corrosion of Ni-Cr-Mo Alloys by Sulfate, Nitrate and Molybdate

Inhibition of Formation of Magnesium Hydroxide by Polymers: The Role of Molecular Architecture

Inhibition of Microbial Induced Corrosion of Concrete using Admixture and Surface Applied Corrosion Inhibitors

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