AMPP Store - Products tagged with 'nickel alloy'

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08085 High Performance Corrosion Resistant Stainless Steels and Nickel Alloys for Oil & Gas Applications

Product Number: 51300-08085-SG

ISBN: 08085 2008 CP

Author: Dirk Aberle and Dinesh C. Agarwal

Publication Date: 2008

$20.00

In a 1998 study, costs for corrosion in USA were estimated to be about 276 billion US-$. One way to reduce this gigantic amount of money is to use modern stainless steels and nickel alloys with excellent resistance to various forms of corrosion in corrosive environments like seawater, brines, oil and sour gas wells.

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10262 Corrosion Resistance of Nickel Alloys and Super Austenitic Stainless Steel Weld Claddings as a Function of Dilution

Product Number: 51300-10262-SG

ISBN: 10262 2010 CP

Author: Dirk Aberle, Martin Wolf and Friedrich Stenner

Publication Date: 2010

$20.00

Nickel alloys UNS N06625, UNS N06059, UNS N06022, UNS N08825 and one Special Stainless Steel (UNS N08031) are overlay welded in 1 to 3 layers on carbon steel. The dilution is measured and results of pitting corrosion in an immersion test with “Green Death” solution will be discussed.

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10337 An Advanced Super-Austenitic Stainless Steel Offers Economical and Technical AdvantagesOver Nickel-Base Corrosion-Resistant Alloys in the Process Industries

Product Number: 51300-10337-SG

ISBN: 10337 2010 CP

Author: Ruben Muro, Marlena Neighbor, Lewis Shoemaker and James R. Crum

Publication Date: 2010

$20.00

An advanced grade of super-austenitic stainless steel with a reduced content of nickel offers a significant economic advantage over nickel-base CRA’s. As the alloy is readily fabricated by conventional techniques, it is an excellent candidate for a variety of applications in the chemical, petrochemical, mining, oil and gas, and refining industries.

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51312-01443-SUMMARY OF SOME NICKEL ALLOYS USED IN CHEMICAL PRODUCTION INVOLVING HYDROCHLORIC AND SULFURIC ACIDS

Product Number: 51312-01443-SG

ISBN: 01443 2012 CP

Author: Larry D. Paul

Publication Date: 2012

$20.00

Sulfuric and hydrochloric acids are among the most common chemicals produced.in the process industry. Nickel alloys have been a traditional material of choice. This paper will review the alloys available for this service as well as identify the temperature limits and other conditions that should be considered when selecting an alloy.

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51316-7296-UNS N06055 High Chromium welding product provides resistance to PWSCC in service and to DDC and Soli

Product Number: 51316-7296-SG

ISBN: 7296 2016 CP

Author: Samuel Kiser

Publication Date: 2016

$20.00

Exhaustive testing has been conducted and reported previously on UNS N06055 in corrosion 2014 paper number 4223. These data support the use of UNS N06055 for nuclear applications where resistance-to-cracking during fabrication and resistance to primary water stress corrosion cracking (PWSCC) in service are of paramount importance.

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Cold Work Qualification Of UNS N08935 For Use In Chloride And Sour Environment

Product Number: 51322-18080-SG

Author: Karen Picker, Luiza Esteves, Marcelo Senatore

Publication Date: 2022

$20.00

UNS N08935 is a new versatile super austenitic alloy with extreme pitting resistance as indicated by its pitting resistance equivalent number (PREN) of 52. It can be used in a broader temperature range than superduplex and hyperduplex stainless steels, offers good weldability and is more cost-effective than Nickel-based materials which make the grade a good candidate for O&G applications, refineries, and chemical industries.^1,2

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Contribution to the Understanding of Hydrogen Stress Cracking Initiation and Propagation in Nickel Based Alloys

Product Number: 51323-18873-SG

Author: Bruce Cowe, Flavien Vucko, Hervé Marchebois, Laurent Ponson

Publication Date: 2023

$20.00

This paper presents work in follow-up to the previous study. It is focused on UNS1 N07718, UNS N09925, UNS N07725 and UNS N09946. A series of incremental step load tests of compact tensile specimens were conducted to measure the fracture toughness during testing and cracking was monitored by the Electric Crack Growth Monitoring technique. A new engineering technique, referred to as statistical fractography, was used to investigate the fracture surface morphology and extract from it the fracture properties of the alloys.

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Corrosion and Cracking Performance of Stainless Steels and Nickel Alloys in CCS Environments

Product Number: 51324-20962-SG

Author: Karthik Krishnan; Cheng Chau Lum; Arpana Verma

Publication Date: 2024

$40.00

Carbon Capture and Storage (CCS) technology which involves capturing CO2 and injecting into geological formations is seen as a focus area for reducing CO2 emissions and sustainable future. One of the key challenges for CCS is material selection for construction of wells for injection and storage where the materials can be subjected to a complex environmental mix with various impurities present in the CO2 stream along with different phases within the well. Knowledge and understanding of corrosion and cracking performance of various materials in different environmental conditions relevant to CCS wells can provide a basis for material selection. Being a relatively new field there is an effort to build up knowledge base via testing, characterizing materials suitable for long term well service. In this study, martensitic, supermartensitic and super duplex stainless steels along with Age Hardenable (AH) Nickel Alloy were tested for both corrosion and cracking performance in different CCS type environments. The testing simulated exposure to injected fluid phase, interface between injected fluid and water phase and completely immersed in water phase. The details of testing performed results obtained along with discussions is presented so that it can provide guidance on material compatibility for some of the CCS environments.

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Corrosion Resistance Of Stainless Steels And Nickel Alloys In Natural Seawater

Product Number: 51321-16515-SG

Author: Sandra Le Manchet/ Martin Monnot/ Emilie Robin

Publication Date: 2021

$20.00

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Electrochemical Assessment Of The Influence Of Temperature On The Pitting Corrosion Reistance Of Metallic Materials In Brines

Product Number: 51322-17738-SG

Author: Helmuth Sarmiento Klapper, Sebastian Jesse

Publication Date: 2022

$20.00

Several industrial applications including the chemical industry and oilfield technology involve frequently halide-containing streams at elevated temperatures, that challenge the pitting corrosion resistance of metallic materials. Pitting susceptibility becomes not only a reject criterion for materials selection during the design stages of engineering components used in these applications. It also constitutes a significant limiting factor to the service life of these components once in service. Therefore, the characterization of the pitting corrosion resistance of metallic materials including the influence that operational factors can have on material’s susceptibility is crucial.

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NACE SP0292-2024, Installation of Thin Metallic Wallpaper Lining in Air Pollution Control and Other Process Equipment

Product Number: NACE SP0292-2024

$109.00

This standard practice provides technical and quality assurance guidelines for handling and installing nickel alloy, stainless steel, and titanium linings in air pollution control equipment (e.g., FGD systems, ducts, and stacks). The concepts and guidance included in this standard may also be useful in other process industries, but may require modification to meet the requirements of a particular process. This standard is intended to be a basis for preparation of a specification to be agreed on by contracting parties for the installation of wallpaper lining in air pollution control and other process equipment. It is the responsibility of users of this standard to determine the suitability of specific procedures, metals, and alloys for particular applications.

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On the Pitting Corrosion Resistance of Metallic Materials Used in Drilling and Reservoir Characterization Applications

Product Number: 51324-20872-SG

Author: Helmuth Sarmiento Klapper; Julia Ditmann; Sebastian Jesse

Publication Date: 2024

$40.00

Because of their versatility CrMn-stainless steels have become the most used structural materials in directional and while-drilling reservoir characterization tools. Nevertheless, pitting and environmentally assisted cracking (EAC) are a major concern when these materials are subjected to high halide-containing water-based drilling fluids at elevated temperatures. Consequently, pitting corrosion resistance becomes a crucial property to guarantee operational reliability and integrity of drilling equipment. Indeed, nickel-stabilized austenitic stainless steels and super austenitic stainless steels with higher contents of chromium and molybdenum have been recently developed as alternatives in drilling operations involving harsh environments. In this study, the pitting and repassivation behavior of several grades used in drilling technology was investigated using electrochemical methods. The tests were conducted in brines with different pH-values at temperatures ranging from ambient temperature to 150 °C. Experimental results are compared to PREN-Mod and CPT-values as well as to results from ASTM G48 Method A. The experimental data provided in this paper demonstrates the lack of correlation between the real pitting resistance of most grades commonly used in drilling equipment in brines at elevated temperatures and the commonly used PREN-Mod values. In addition, the limited applicability of results from standardized test methodologies for predicting pitting susceptibility in service is confirmed. The discussed electrochemical results provide on the other hand a more suitable basis for defining criteria regarding materials selection in drilling technology.

Products tagged with 'nickel alloy'

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