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3440 total products found.
Picture for 08111 Evaluation of Hydrogen Embrittlement Induced Damages in Steels using Acoustic Emission
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08111 Evaluation of Hydrogen Embrittlement Induced Damages in Steels using Acoustic Emission

Product Number: 51300-08111-SG
ISBN: 08111 2008 CP
Author: V. Smanio, J. Kittel, M. Fregonese, T. Cassagne, F. Ropital, and B. Normand
Publication Date: 2008
$20.00
Picture for Use of AMPP SP 0113 for Methods Selection and Implementation of Pipeline Integrity Management
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Use of AMPP SP 0113 for Methods Selection and Implementation of Pipeline Integrity Management

Product Number: 51324-20705-SG
Author: Sankara Papavinasam; Kerri Kryger; Naim Dakwar; Peter Bergen; A.R. Santhosh Kumar
Publication Date: 2024
$40.00
This paper provides an overview of 2023 version of NACE SP 0113: Pipeline Integrity Management (PIM): Methods Selection and Implementation. This standard practice presents guidance to operators for selecting and implementing methods, technologies, or activities to manage pipeline integrity. The 2023 version describes a PIM program that addresses threats (including from corrosion and other risks): covers both metallic (carbon steel) and non-metallic pipelines; provides definitions of various PIM terms; lists documentation requirements; discusses pipeline types; explains stages of pipeline life cycle; includes typical threats and stages of their occurrence; explains mitigation of the threats; describes integrity assessment and management methods; describes procedures to select appropriate PIM methods; describes PIM program implementation using Key Performance Indicators (KPI) and describes the state of implementation of PIM program in various companies using KPI.
Picture for 11102 New Prehardened Steel Grade for Drill-Through Equipments
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11102 New Prehardened Steel Grade for Drill-Through Equipments

Product Number: 51300-11102-SG
ISBN: 11102 2011 CP
Author: Valery Ngomo, Stéphanie Fonlupt, Lionel Coudreuse, Guy Baron, and Emilie Doucet
Publication Date: 2011
$20.00
Picture for Evaluation of Cathodic Protection Effectiveness for Aboveground Storage Tanks
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Evaluation of Cathodic Protection Effectiveness for Aboveground Storage Tanks

Product Number: 51323-19360-SG
Author: Pavan K. Shukla, Andrew Nordquist, Roderick E. Fuentes, Bruce J. Wiersma, Laurie Perry
Publication Date: 2023
$20.00

The need to evaluate effectiveness of the CP systems for the tank bottom applications arose after
completion of the PRCI-sponsored study (published in 2018) focused on evaluating VCIs’ performance
for mitigating the soil-side corrosion of AST bottoms. The 2018 PRCI-study objectives included
evaluating VCI effectiveness and comparing the VCI effectiveness data to active CP systems for ASTs
that were achieving AMPP (NACE) CP criteria for corrosion control. In the 2018-PRCI study, the
extensive amount of laboratory testing data and results indicated that VCIs are effective in mitigating
corrosion; however, a historical comparison of CP system effectiveness with VCIs for ASTs could not be
made due to a lack of documented CP effectiveness data.
Picture for 08141 ECDA Indirect Assessment Methods - Limitations and Resolution in Presence of Dynamic Stray Cur
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08141 ECDA Indirect Assessment Methods - Limitations and Resolution in Presence of Dynamic Stray Currents

Product Number: 51300-08141-SG
ISBN: 08141 2008 CP
Author: Mark Yunovich
Publication Date: 2008
$20.00
Picture for Optimization of Accelerated Life Testing of Anodes
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Optimization of Accelerated Life Testing of Anodes

Product Number: MPWT19-15290
Author: Mansour Alhammad, Abdullatif Alabdulhadi, Balasubramani Bakthavatchalu, Nayef Alanazi, Haitham Aljuhani, Abdulrahman Alhuwaiji
Publication Date: 2019
$0.00

The performance of titanium mixed metal oxide (MMO-Ti) anodes — provided by five global vendors — targeted for coke breeze backfilled soil impressed current cathodic protection (ICCP) applications, was investigated in this study. The time to failure of the MMO anodes was measured in accordance with NACE TM0-108. Accelerated lifetime testing was performed on MMO anodes to measure sample durability and to adequately meet the current density design requirement (0.06A/cm2). The anodes were immersed in 1M sulfuric acid under varying current densities (1A/cm2, 1.4A/cm2 and 2A/cm2) under controlled temperature, until the samples lost their electro-catalytic properties. The results measured at 1A/cm2 illustrated that time to failure of the tested anodes ranged from 10 days to more than 90 days. While conducting the same test at 1.4A/cm2, time to failure of MMO anodes was reduced to a range of 13 days to a little over 30 days yielding results of anode ranking consistent with those measured at 1A/cm2. Therefore, for the sake of time, the optimum applied accelerated current density was recommended to be 1.4 A/cm2 for Ru/Ta MMO anodes, to push them to their limits at a faster rate in a shorter time.
Picture for 08199 Analysis of Corrosion Products Formed on Some of Ontario's Weathering Steel Bridges
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08199 Analysis of Corrosion Products Formed on Some of Ontario's Weathering Steel Bridges

Product Number: 51300-08199-SG
ISBN: 08199 2008 CP
Author: A. Coomarasamy, D. Lai, F. Pianca, T. Turi, S. Ramamurthy, B. Kobe, M. Walzak, and J. Sawicki
Publication Date: 2008
$20.00
Picture for Corrosion Control for Exterior Surfaces of Nuclear Power Plants (Ebook)
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Corrosion Control Guide for Exterior Surfaces of Nuclear Power Plants (E-book)

Product Number: 37611-E
ISBN: 978-1-57590-329-3
Author: Jon Cavallo
$100.00

Exterior surface coatings and cathodic protection in nuclear power plant structures, systems, and components during construction & maintenance.  Selection and evaluation of these systems.   E-BOOK
Picture for Sulfide Stress Cracking Resistance of High Strength Low Alloy Steels with Varying Nickel Content
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Sulfide Stress Cracking Resistance of High Strength Low Alloy Steels with Varying Nickel Content

Product Number: 51319-12900-SG
Author: Karthik Krishnan
Publication Date: 2019
$20.00

Low alloy steels are one of the most commonly used material systems in oil and gas fields as they can be heat treated to appropriate strength levels including higher strengths such as 758 MPa (110 ksi) and 862 MPa (125 ksi) minimum yield strength while providing economical solutions for various oilfield conditions. Higher hardenability of low alloy steels is an important factor to ensure proper heat treatment to higher strength levels and this is typically achieved by addition of elements such as Chromium (Cr) Molybdenum (Mo) Nickel (Ni) etc. in the alloy chemistry. It is also essential to ensure adequate toughness in these high strength steels to reduce risk of brittle fracture. Increasing Ni content in the chemistry of low alloy steel can provide increased hardenability while maintaining good toughness when heat treated to high strengths. However the guidelines of NACE MR0175/ISO 15156-2 currently restrict the maximum Ni content to 1% mass fraction and in general recommend use of Cr-Mo type low alloy steels such as 41XX series in sour (H2S) service. This has generally led to exclusion of low alloy steels containing higher Ni such as 43XX series in sour service. In this paper an effort is made to evaluate the sulfide stress cracking (SSC) resistance of common grades of Cr-Mo and Ni-Cr-Mo steels heat treated to high strength using NACE TM0177 Method A testing. This would also assist when comparing the cracking resistance of high strength low alloy steels with greater than 1% mass fraction Ni content to those which are within this limit.Keywords: high strength low alloy steel Cr-Mo Ni-Cr-Mo sulfide stress cracking (SSC) 1% Nickel content
Picture for SSC Resistance Testing of Heavy Wall Large-Diameter Pipes using Full-Size Four-Point Bend Tests and DCB Tests
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51318-10669-SSC Resistance Testing of Heavy Wall Large-Diameter Pipes using Full-Size Four-Point Bend Tests and DCB Tests

Product Number: 51318-10669-SG
Author: Thomas Haase / Christoph Bosch / Jens Schröder / Christoph Kalwa
Publication Date: 2018
$20.00

SSC testing was performed using transverse full-size four-point bend specimens with a thickness up to 35 mm at loads up to 90 % of the actual yield strength. Finite element simulations analyzed the stress distribution under high load.
Picture for 97024 STUDY OF X80 GRADE HIGH STRENGTH
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97024 STUDY OF X80 GRADE HIGH STRENGTH LINE PIPE FOR SOUR SERVICE

Product Number: 51300-97024-SG
ISBN: 97024 1997 CP
Author: J. Fujino, A. Yamamoto, K.Ohnishi, T. Kushida, S. Okaguchi, M. Hamada
$20.00
Picture for Significant Advances for Alloy UNS N07022 for Sour Oilfield Service
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51315-5482-Significant Advances for Alloy UNS N07022 for Sour Oilfield Service

Product Number: 51315-5482-SG
ISBN: 5482 2015 CP
Author: Edward Hibner
Publication Date: 2015
$20.00

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