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3228 total products found.
Picture for SimSpray Setup 1
Available for download

SimSpray Setup 1

Product Number: SimSpray Setup 1
$0.00
Picture for ANSI/NACE MR0175-2021/ISO 15156-1:2020 Technical Circular 1
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ANSI/NACE MR0175-2021/ISO 15156-1:2020 Technical Circular 1 (for Part 1)

Product Number: 15156-1-2020
Publication Date: 2021
$25.00

Petroleum and natural gas industries — Materials for use in H2S-containing environments in oil and gas production —

Part 1:
General principles for selection of cracking-resistant materials

TECHNICAL CIRCULAR 1

Published 2021-12-09 
Picture for NACE SP0292-2024
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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.
Picture for The Evolution of Thermoplastics as a Solution to MIC and Oxidative Corrosion Issues
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The Evolution of Thermoplastics as a Solution to MIC and Oxidative Corrosion Issues

Product Number: 51324-20978-SG
Author: Bryan L. Hutton
Publication Date: 2024
$40.00
Corrosion costs our industrial industries billions of dollars every year. Facilities focus on metallic solutions such as alloys, protective coatings, and corrosion prevention techniques to combat the issues. However, thermoplastics continue to grow as a sound engineering solution in many corrosive environments such as offshore, downstream processing, Chlor-alkali, mineral processing, semiconductor, metal pickling, pulp and paper, and many other emerging markets. Thermoplastics are inherently resistant to corrosion, and technology continues to create more robust, longer-lasting, more sustainable technologies. AMPP brings our members together to advance technical and practical corrosion prevention and control expertise. This paper will provide a comprehensive overview of several thermoplastic solutions, construction standards, and how they are addressed in the ASME B31.3 standards. The paper will help the reader understand the physical characteristics, polymer chemistry, and typical application range for several thermoplastics using industry standards such as ASME B31.3, ASME RTP-1, ASTM standards, and AWS. Thermoplastics may not be applicable in every application, but many support environments can take advantage of the increased service life, corrosion resistance, and lightweight thermoplastic materials. The paper will set the stage for our members to see applications where they can solve their corrosion issues like Potable/DI/RO water, sodium hypochlorite, sodium hydroxide, brine, sulfuric acid, phosphoric acid, sodium chloride, chlorine dioxide, nitric acid, and hydrochloric acid. Proper material selection and methodology combined with sound fabrication and installation techniques will be addressed to help our members find qualified support for their facilities. The industry needs thermoplastic guidance to build confidence. Our engineers, such as I (a chemical engineer), must be better trained in the accredited education system on thermoplastics, polymer science, or material selection techniques. True to the purpose of AMPP, this paper is built on the premise of providing AMPP members with the knowledge and resources to ensure high-performance materials are used to develop and maintain sustainable infrastructure.
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NACE WJ-1/SSPC-SP WJ-1-2012 (Editorial Corrections 1/5/2017), Waterjet Cleaning of Metals—Clean to Bare Substrate (WJ-1)

Product Number: 21158-SG
$179.00

HISTORICAL DOCUMENT. Defines the Very Thorough Cleaning (WJ-1) degree of surface cleanliness - one of four levels (WJ- 1,2,3,4) achieved by the use of waterjet cleaning. 
Picture for An Expanded Characterization of Environmental Severity for Naval Air Stations
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An Expanded Characterization of Environmental Severity for Naval Air Stations

Product Number: 51324-20665-SG
Author: Steven Kopitzke; Ian Long; Alexander Lilly; Kaylee Canales; Allison Muenzer
Publication Date: 2024
$40.00
Characterizing the risk of corrosion due to environmental severity is critical when developing condition-based maintenance practices, planning facility maintenance or developing predictive corrosion models. In light of that, a research study was conducted to characterize and rank the environmental severity of Naval Air Stations across the world. In addition, the research team utilized the most recent recommendation for environmental severity assessment from the AMPP SC-07 committee as a secondary effort in this study. This report will describe both the environmental severity rankings of the sites along with evaluating the effectiveness of the SC-07 recommendations.
NoP Commerce Standards image
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SSPC-TU 1-2004, Surface Tolerant Coatings for Steel

Product Number: SSPC-TU 1-2004
Publication Date: 2004
$109.00
Picture for 99386 LOCALIZED U-BEND ATTACK IN 1% CR
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99386 LOCALIZED U-BEND ATTACK IN 1 1/4 CR - 1/2 MO REFORMER HEATER TUBES

Product Number: 51300-99386-SG
ISBN: 99386 1999 CP
Author: R.L. Downie and O. C. Dias
$20.00
Potential Theory Applied to Cathodic Protection Design, 2nd Edition

Potential Theory Applied to Cathodic Protection Design, 2nd Edition

Product Number: 37694-POD
ISBN: 978-1-57590-495-5
Author: Rogelio de las Casas, Ronald Bianchetti
Publication Date: 2024
$155.00

NEW! The first edition of Potential Theory Applied to Cathodic Protection Design showcases the mathematical development of analytical equations for the design of cathodic protection (CP) systems for underground structures with anode groundbeds having various configurations. Equations include calculations for the resistance and voltage (potential) to assist the CP design engineer. 

This second edition has several important changes including updates on integral and analytic solutions for horizontal anodes in the same trench, an approach that was insufficiently developed in the first edition.

Also new for the second edition is an index for enhanced reader experience.

Other updates include:

•Generalization of groundbed resistance combining the equation for anodes with different length and depth, with the equation for different distance between anodes.
 
•Calculation of anode’s current in a groundbed, based on the crowding factor.
 
•Generalization of groundbed resistance combining the equation for anodes with different length and depth, with the equation for different distance between anodes.
 
•Calculation of anode’s current in a groundbed, based on the crowding factor.
 
•By means of the use of integral formulations, particularizes the use of the APM for any combination of underground anode systems.
 
2024 AMPP

 
Picture for Myth-Busting Part 2: Comparing Accelerated Exposure Performance between Bio-Based and Petroleum-Based Hardeners
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Myth-Busting Part 2: Comparing Accelerated Exposure Performance between Bio-Based and Petroleum-Based Hardeners

Product Number: 51324-21096-SG
Author: Daniel Wang
Publication Date: 2024
$40.00
As sustainability continues to be an industry driver for innovation, bio-based raw materials for organic coatings give formulators the option to create a more sustainable product. However, a common myth is that bio-based materials perform worse than their petroleum-based counterparts. This paper is a follow-up to the work shown at AMPP 2023 with accelerated weathering and corrosion results for multiple systems crosslinked with either a petroleum-based or bio-based hardener. With these results, the hope is to improve the industry’s perspective on bio-based raw materials and dispel any myths that associate sustainable solutions with lower performance. In addition, this paper serves as an example on how raw material suppliers can help paint manufacturers achieve their sustainability initiatives through the offerings of bio-based alternatives.
Picture for Unveiling the Mechanical Feasibility of Glass Reinforced Plastic for Post Combustion CO2 Capture Amine Service: A Thorough Examination
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Unveiling the Mechanical Feasibility of Glass Reinforced Plastic for Post Combustion CO2 Capture Amine Service: A Thorough Examination

Product Number: 51324-20710-SG
Author: Arun Kumar Sharma; Sukanta Ghosh; Rajiv Srinivasan; Anupom Sabhapondit; Karl Stephenne
Publication Date: 2024
$40.00
Mitigating global warming and reducing CO2 emissions from the environment necessitates the implementation of carbon capture, sequestration, and storage (CCS) as an immediate and feasible solution. Amines are widely employed to capture CO2 gas from industrial exhaust streams. To enhance the cost-effectiveness of amine services, the incorporation of glass-reinforced plastic material holds immense potential for substantial cost benefits. The primary aim of this study is to assess the feasibility of utilizing glass-reinforced plastic (GRP) as a construction material for vessels, piping, and ducting in the cold section of the carbon capture and storage (CCS) system. The research examined the potential of completely replacing metallic equipment and piping (such as carbon steel (CS), stainless steel (SS) or SS cladded CS) with GRP materials. The investigation revealed that complete substitution of GRP for certain CO2 service components, including the scrubber, pre-scrubber, tanks, piping, and ducting, may be feasible under specific process conditions. These process conditions encompassed temperatures below 100°C, pressures below 10 bar for piping, and pressures below 0.2 bar for the remaining components. Two fabrication methods, filament winding and contact molding, were employed throughout the design calculations and utilizing corresponding material properties. A chemical compatibility study by Shell, presented at the 2023 AMPP conference and expo (Paper # AMPP-2023-18832), confirmed that the selected resins used to prepare the GRP material are chemically compatible with the commercial amine formulation used for CO2 capturing at the same application limit identified for the present work. The study unequivocally confirmed that glass-reinforced plastic can be incorporated with confidence, adhering to the safety limits prescribed by international standards. This resounding validation strengthens the viability and applicability of GRP in the given context, bolstering its position as a reliable and suitable construction material.
Picture for Cathodic Protection as a Sustainability Tool - When Done Properly
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Cathodic Protection as a Sustainability Tool - When Done Properly

Product Number: 51324-20748-SG
Author: Cal Chapman
Publication Date: 2024
$40.00
This presentation describes how the term sustainability is, and has been, applied by NACE International, by the Society for Protective Coatings (also called SSPC), by now what is known as the Association for Materials Protection and Performance (AMPP), and by other organizations historically to achieve sustainable operation, maintenance, and service life extension of high-value physical assets and infrastructure. Further, it describes how cathodic protection work, when properly performed, provides a sustainability function for buried or submerged metal assets. These asset types include a wide range of physical structures, processes, and vessels, in industries as diverse as maritime transport, oil and natural gas production, water production and wastewater management, mining, petroleum refining and distribution, electrical generation and distribution, food production, and even medical devices.

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