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Establishes material requirements for resistance to SSC in sour petroleum refining and related processing environments containing H2S either as a gas or dissolved in an aqueous (liquid water) phase with or without the presence of hydrocarbon. This International Standard does not include and is not intended to include design specifications. Other forms of wet H2S cracking, environmental cracking, corrosion, and other modes of failure are outside the scope of this International Standard. It is intended to be used by refiners, equipment manufacturers, engineering contractors, and construction contractors.
Specifically, this International Standard is directed at the prevention of SSC of equipment (including pressure vessels, heat exchangers, piping, valve bodies, and pump and compressor cases) and components used in the refining industry. Prevention of SSC in carbon steel categorized under P-No. 1 in Section IX of the ASME Boiler and Pressure Vessel Code (BPVC) is addressed by requiring compliance with NACE SP0472.
This international standard applies to all components of equipment exposed to sour refinery environments (see Clause 6) where failure by SSC would (1) compromise the integrity of the pressure-containment system, (2) prevent the basic function of the equipment, and/or (3) prevent the equipment from being restored to an operating condition while continuing to contain pressure.
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HISTORICAL DOCUMENT. Material requirements for resistance to sulfide stress cracking (SSC) in sour refinery process environments (i.e., environments that contain wet hydrogen sulfide [H2S]). AKA "wet H2S cracking".
CORRECTION OF PUBLICATION:
In January 2016, NACE published an incorrect version of ANSI/NACE MR0103/ISO 17945:2015 (Petroleum, petrochemical and natural gas industries — Metallic materials resistant to sulfide stress cracking in corrosive petroleum refining environments). That document was incorrectly titled ANSI/NACE MR0103/ISO 17495:2016. The erroneous standard was retracted at the time and the NACE Store has the corrected version. NOTE: The contents of both versions of the standard are identical. The only discrepancies are in the title.
2009 EDITION - HISTORICAL DOCUMENT.
Selection and qualification of carbon and low-alloy steels, corrosion-resistant alloys, and other alloys for service in oil and natural gas production and treatment plants with H2S-containing environments.
HISTORICAL DOWNLOADABLE 2015 EDITION.
Selection and qualification of carbon and low-alloy steels, corrosion-resistant alloys, and other alloys for service in equipment in oil and natural gas production and NG treatment plants in H2S-containing
Note: This document was originally published with errors in Table A.16, page 3-32. These identified errors are corrected. Errata sheet is included.
NACE MR0175/ISO 15156 gives requirements and recommendations for the selection and qualification of carbon and low-alloy steels, corrosion-resistant alloys, and other alloys for service in equipment used in oil and natural gas production and natural gas treatment plants in H2S-containing environments, whose failure could pose a risk to the health and safety of the public and personnel or to the equipment itself.
HISTORICAL DOCUMENT. This NACE Standard establishes material requirements for resistance to sulfide stress cracking (SSC) in sour refinery process environments, i.e., environments that contain wet hydrogen sulfide (H2S). It is intended to be used by refineries, equipment manufacturers, engineering contractors, and construction contractors.
Bimetal composite pipes composed of carbon steel and corrosion resistant alloys have attracted increasing attention for the applications in the fields of transferring pipes, downhole tubes, reservoirs and heat exchangers. It shows superior properties such as corrosion resistance of the corrosion resistant alloys and formability, and mechanical properties of carbon steels, which satisfy the requirements of both anti-corrosion and mechanical properties applied in oil and gas filed with an affordable price.
A series of manufacturing methods for the fabrication of bimetal composite pipes, including mechanical bonding method, welded pipe using the clad plate and inner surfacing welding clad pipe, have been applied in recent years.
This NACE best-seller is based on the authors' course, The Corrosion & Protection of Metals. This edition of this classic text is based on notes used by the authors for more than a decade in their course, The Corrosion and Protection of Metals. The authors emphasize the engineering aspects of corrosion and its control in ways that will be helpful to the practicing engineer. Topics covered include corrosion economics, detecting and monitoring corrosion, regulations, specifications, safety, and the selection and use of materials, with special emphasis on stainless steels. 1995 NACE E-BOOK
The authors of Corrosion Management and Control in Desalination: An Industrial Guide have been active in all types of desalination plants for decades, either solving corrosion problems, or, less often, preventing them from happening.
This book is written and intended for the plant engineer, a vital plant employee who often does not have an in-depth knowledge of corrosion, and could use help with day-to-day problems that may involve corrosion.
2023 AMPP, 144 pages, 6x9 trim size, color
Among the many additive manufacturing processes, Wire Arc Additive Manufacturing (WAAM) has recently been drawing interest due to its great and attractive prospect for fabrication of large parts, the possibility to process a vast range of materials in form of welding wires, and the addition of further details to semi-finished components [1]. However, most of the research have currently focused on optimization of the WAAM process parameters and analysis of the resulting thermal and residual stresses [2]. Unlike conventional manufacturing processes, WAAM process and post-processing treatments result in unique microstructures and material surfaces that alter the corrosion performance of the materials but are not fully studied or understood yet.