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Image
in Conventional Heat Treatment—Basic Concepts
> Metallography of Steels<subtitle>Interpretation of Structure and the Effects of Processing</subtitle>
Published: 01 August 2018
Fig. 10.95 Steel nitrocarburized at 550 °C (1020 °F) for 5 h. The surface was coated with a chemically deposited layer of hard nickel to preserve it for metallographic examination (indicated as Ni in the figure). The “white layer” is where the formation of high hardness nitrides occur
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Image
Published: 01 January 2000
Fig. 16 Suggestions for steel construction to be coated. (a) Avoid pockets or crevices that do not drain or cannot be cleaned or coated properly. (b) Joints should be continuous and solidly welded. (c) Remove weld spatter. (d) Use butt welds rather than lap welds or rivet joints. (e) Keep
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Published: 01 December 2015
Fig. 15 Suggestions for steel construction to be coated. (a) Avoid pockets or crevices that do not drain or cannot be cleaned or coated properly. (b) Joints should be continuous and solidly welded. (c) Remove weld spatter. (d) Use butt welds rather than lap welds or rivet joints. (e) Keep
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in Cold Spray Coating Applications in Protection and Manufacturing
> High Pressure Cold Spray: Principles and Applications
Published: 01 June 2016
Fig. 7.8 Weight gain vs. number of cycles plot for coated and bare boiler steel exposed to hot corrosion for 50 cycles in a Na 2 SO 4 -60%V 2 O 5 environment at 900 °C (1650 °F). Source: Ref 7.30
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in Advanced Steels for Forming Operations
> Metallography of Steels<subtitle>Interpretation of Structure and the Effects of Processing</subtitle>
Published: 01 August 2018
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in Dual-Phase Steels
> Advanced-High Strength Steels<subtitle>Science, Technology, and Applications</subtitle>
Published: 01 August 2013
Fig. 5.7 The continuous annealing line (CAL) process for producing coated DP Steel. Source: Adapted from Ref 5.5
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Published: 01 September 2022
Fig. 10 Cross sections of iron aluminide; (a) micrograph of a coated 9Cr steel substrate; (b) elemental depth profile indicating the diffused aluminide coating. Al, aluminum; Fe, iron; Si, silicon; Cr, chromium. Source: Ref 11
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in Dual-Phase Steels
> Advanced High-Strength Steels: Science, Technology, and Applications, Second Edition
Published: 31 October 2024
Fig. 5.7 Continuous annealing line process for producing coated dual-phase steel. F, ferrite; B, bainite; P, pearlite; M, martensite. Adapted from Ref 5.6
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Published: 01 August 2012
Fig. 16.19 Flaking of physical vapor deposition coating on a D2 tool steel, due to residual stresses caused by surface features. Source: Ref 16.6
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Published: 01 June 2016
Fig. 2.9 SEM cross-sectional micrographs of cold-sprayed FeAl coatings on steel 316L substrate. Four layers obtained with fine powder at (a) short, (b) medium, and (c) long spray distances, and obtained with coarse powders at (d) short and (e) medium spray distances. Source: Ref 2.63
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in Cold Spray Applications in Repair and Refurbishment for the Aerospace, Oil and Gas, and Power-Generation Industries
> High Pressure Cold Spray: Principles and Applications
Published: 01 June 2016
Fig. 11.16 (a) Dense coatings of Inconel 625 and NiCr on AISI 4130 steel with good bonding onto AISI 4130 and aluminum substrates. (b) Coating hardness in the as-sprayed and heat treated conditions. (c) Residual stress of the cold-sprayed coatings. Source: Ref 11.19
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in The Art of Revealing Microstructure
> Metallographer’s Guide<subtitle>Practices and Procedures for Irons and Steels</subtitle>
Published: 01 March 2002
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in The Art of Revealing Microstructure
> Metallographer’s Guide<subtitle>Practices and Procedures for Irons and Steels</subtitle>
Published: 01 March 2002
Fig. 8.55 Enamel coating on a low-carbon steel. (a) Bright-field illumination and (b) dark-field illumination. Note the clear delineation of the ferrite grain boundaries in the dark-field image. 2% nital. 100×
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Published: 01 January 2015
Fig. 22.13 (a) NbC coating deposited on a martensitic stainless steel by a salt bath process. (b) Chromium carbonitride coating deposited on nitrided AISI 1045 steel by a salt bath process. Light micrographs. Courtesy of T. Arai, Toyota Research Laboratories
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Published: 30 September 2023
Figure 6.19: Development of a dry in-place coating on a steel surface. (a) The water-based solution is applied, often by dipping; (b) water is evaporated and the phosphate adheres to the steel; (c) the subsequent two-material coating, with zinc phosphate substrate and low friction surface
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Book Chapter
Series: ASM Technical Books
Publisher: ASM International
Published: 01 December 2015
DOI: 10.31399/asm.tb.cpi2.t55030184
EISBN: 978-1-62708-282-2
... products. Much of the terminology of cathodic protection still relates to corrosion control of onshore buried steel pipelines. Virtually all modern pipelines are coated with an organic protective coating that is supplemented by cathodic protection systems sized to prevent corrosion at gaps or holidays...
Abstract
This chapter provides a detailed account of cathodic protection. It begins by discussing the fundamentals of cathodic protection followed by a description of the various types of cathodic protection. It then describes the origins, types, and alleged failures of cathodic protection criteria. This is followed by a section providing information on anode materials that are used for cathodic protection applications. General guidelines for designing the cathodic protection systems are also listed. Finally, the chapter presents various examples on cathodic protection of steel structures. The examples are selected to familiarize the design engineer with the steps to follow in selecting a specific corrosion-control method.
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in Cold Spray Applications in the Automotive Industry
> High Pressure Cold Spray: Principles and Applications
Published: 01 June 2016
Fig. 8.9 Automobile parts damaged by corrosion. (a) Magnesium alloy used in rotorcraft. (b) Magnesium alloy fastened to a steel bracket by a coated steel bolt. Source: Ref 8.45
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Book Chapter
Series: ASM Technical Books
Publisher: ASM International
Published: 01 June 2010
DOI: 10.31399/asm.tb.hss.t52790001
EISBN: 978-1-62708-356-0
.... The nonferrous metals served well, but they were more expensive than steel and not as strong. As a result, there was extensive use of ordinary steels with coatings to resist corrosion, coatings that often consisted of nonferrous metals such as zinc and tin, which could be applied by dipping the steel...
Abstract
This chapter presents the history of stainless steel and provides an overview of the key concepts discussed in this book. This book covers a broad spectrum of historical events, many of which have not been touched upon in other works on stainless steel. It includes the discoveries of the various metallic elements that are used in the various alloys of stainless steel and discusses numerous experiments conducted during the 19th century with iron-base alloys containing chromium and carbon.
Book Chapter
Series: ASM Technical Books
Publisher: ASM International
Published: 01 July 2000
DOI: 10.31399/asm.tb.fec.t65940451
EISBN: 978-1-62708-302-7
... for Detecting Susceptibility to Intergranular Attack in Ferritic Stainless Steels • B 117, Test Method of Salt Spray (Fog) Testing • B 368, Method for Copper-Accelerated Acetic Acid-Salt Spray (Fog) Testing (CASS Test) • B 380, Method of Corrosion Testing of Decorative Electrodeposited Coatings...
Abstract
This appendix is a comprehensive collection of selected sources related to corrosion properties of materials and corrosion testing.
Book Chapter
Series: ASM Technical Books
Publisher: ASM International
Published: 01 August 2018
DOI: 10.31399/asm.tb.msisep.t59220445
EISBN: 978-1-62708-259-4
... different manufacturing processes, including coating, affect the grain size, microstructure, and formability of these important steels. coatings advanced high-strength steel Steels can be classified according to different criteria. The most common classifications are based on (a) chemical...
Abstract
This chapter discusses the properties and behaviors of advanced high-strength steels used in the automotive industry, including dual- and complex-phase steels, transformation-induced plasticity steels, ferritic-bainitic steels, and quenched and partitioned steels. It explains how different manufacturing processes, including coating, affect the grain size, microstructure, and formability of these important steels.
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