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electroless nickel plating
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Book: Surface Engineering
Series: ASM Handbook
Volume: 5
Publisher: ASM International
Published: 01 January 1994
DOI: 10.31399/asm.hb.v05.a0001264
EISBN: 978-1-62708-170-2
... Abstract Electroless nickel plating is used to deposit nickel without the use of an electric current. This article provides an overview of the solution composition and characteristics of the electroless nickel bath. It focuses on the metallurgical, mechanical and physical properties...
Abstract
Electroless nickel plating is used to deposit nickel without the use of an electric current. This article provides an overview of the solution composition and characteristics of the electroless nickel bath. It focuses on the metallurgical, mechanical and physical properties of electroless nickel-phosphorus coatings and electroless nickel-boron coatings. The effect of electroless nickel coatings on the fatigue strength of steel is also described. The article includes information on the recommended pretreatment procedures for different ferrous alloys, aluminum alloys, and copper alloys. It presents a detailed account of the equipment and various processes—including bulk and barrel plating—involved in electroless nickel plating, and discusses hydrogen relief methods. The article includes a comprehensive table on nickel plating applications, and concludes with information on electroless nickel coatings on composites and plastics.
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Published: 01 January 1987
Fig. 15 Example of the use of electroless nickel plating to provide edge retention. The micrograph shows wear damage at the surface of a forged alloy steel Medart roll. Etched with 2% nital. 285×
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Published: 01 January 1994
Fig. 20 Twin tank system for electroless nickel plating. Tanks are used alternately. While one tank is being used to plate, the second is being passivated. Cylindrical tank is used to store 30% nitric acid for passivation.
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Published: 15 December 2019
Fig. 1 Depth of electroless nickel plating on AISI 4150 alloy steel as a function of time at 95 °C (205 °F)
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Published: 01 January 1994
Fig. 3 Effect of succinate additions on the plating rate of an electroless nickel solution. Solutions contain 16 g/L (2.1 oz/gal) nickel chloride (NiCl 2 ) and 24 g/L (3.2 oz/gal) sodium hypophosphite (NaH 2 PO 2 ). 5 g/L (0.7 oz/gal) ammonium hydroxide (NH 4 OH) and 1 mg/L (4 mg/gal) lead
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Book Chapter
Series: ASM Desk Editions
Publisher: ASM International
Published: 01 December 1998
DOI: 10.31399/asm.hb.mhde2.a0003216
EISBN: 978-1-62708-199-3
... Abstract This article describes the steps, bath composition and characteristics, equipment, plating rate, deposit thickness, and applications for different types of nonelectrolytic deposition processes, including electroless nickel plating, electroless copper plating and mechanical plating...
Book: Surface Engineering
Series: ASM Handbook
Volume: 5
Publisher: ASM International
Published: 01 January 1994
DOI: 10.31399/asm.hb.v05.a0001323
EISBN: 978-1-62708-170-2
... Abstract This article focuses on alternatives to chromium in both hard chromium plating and chromate conversion coating. These include electroless nickel plating, nickel-tungsten composite electroplating, spray coating applications, and cobalt/molybdenum-base conversion coating. The article...
Abstract
This article focuses on alternatives to chromium in both hard chromium plating and chromate conversion coating. These include electroless nickel plating, nickel-tungsten composite electroplating, spray coating applications, and cobalt/molybdenum-base conversion coating. The article discusses the material and process substitutions that can be used to eliminate the use or emissions of chromium in industrial processes. It describes the physical characteristics of each coating, economics, environmental impacts, advantages, and disadvantages of alternative processes.
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Published: 31 October 2011
Fig. 11 Calculated and experimental weld shear strength as a function of reduction in roll bonding of (a) aluminum-aluminum with one-sided, electroless nickel plating and (b) aluminum-mild steel with electroless nickel plating on steel. Source: Ref 9
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Image
Published: 01 January 1994
Fig. 21 Electric immersion heater. Heater mounted in a 200 L (5 gal.) electroless nickel plating tank. A bag filter is mounted on the filtration pump discharge. Heater mounted in a 200 L (50 gal) electroless nickel plating tank. A bag filter is mounted on the filtration pump discharge.
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Book: Surface Engineering
Series: ASM Handbook
Volume: 5
Publisher: ASM International
Published: 01 January 1994
DOI: 10.31399/asm.hb.v05.a0001267
EISBN: 978-1-62708-170-2
... and require little metal replacement because of the very thin deposits produced. Displacement tin-lead solder processes are the exception, producing thicker deposits requiring more frequent additions. Types of Electroless Alloy Plating Systems Most electroless alloy systems are based on nickel alloys...
Abstract
Metallic nonelectrolytic alloy coatings produced from aqueous solutions are commercially used in several industries, including electronics, aerospace, medical, oil and gas production, chemical processing, and automotive. Nonelectrolytic coating systems use two types of reactions to deposit metal onto a part: electroless and displacement. This article explains the various types of electroless and dispersion alloy coating systems. It provides information on the processing of parts, process control, deposit analysis, and equipment used for coating nonelectrolytic displacement alloys. The article concludes with a discussion on the safety and environmental concerns associated with nonelectrolytic deposition processes.
Series: ASM Handbook
Volume: 6A
Publisher: ASM International
Published: 31 October 2011
DOI: 10.31399/asm.hb.v06a.a0005581
EISBN: 978-1-62708-174-0
... of aluminum-aluminum with one-sided, electroless nickel plating, whereas Fig. 11 shows the bond strengths for aluminum-mild steel with one-sided, electroless nickel plating on steel. Fig. 10 Weld strength as a function of surface exposure for scratch-brushed aluminum-aluminum. (a) p /σ 0 = 1.85...
Abstract
Plastic deformation of one or both metals is required to obtain bonding in cold welding. This article presents a theoretical model, to explain the bond strength, based on metallographic studies and continuum mechanical analysis of the local plastic deformation in the weld interface. It describes the bonding mechanisms, with illustrations. The article discusses the alternative methods of surface preparation and quality control of the weld interface of a cold weld. It concludes with a description of a variety of metal-forming processes suitable for production of cold welds, namely, rolling, indentation, butt welding, extrusion, and shear welding.
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Published: 15 January 2021
Fig. 13 Energy-dispersive spectrometer (EDS) line scan on a polished cross at the bond interface of a solder joint for a component on a printed circuit board. A high concentration of phosphorus indicates degradation of the electroless nickel plating during subsequent gold plating
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Published: 31 October 2011
Fig. 12 Weld interface surface after fracture of roll-bonded electroless nickel-plated aluminum-aluminum. Source: 11
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Published: 01 January 2002
Fig. 9 Brittle (a) and ductile (b) crack paths in fractured low alloy steel specimens (both electroless nickel-plated for edge preservation and etched with 2% nital).
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in Metallography and Microstructures of Stainless Steels and Maraging Steels[1]
> Metallography and Microstructures
Published: 01 December 2004
Fig. 1 Damage produced in sectioning austenitic 304 stainless steel using (a) metal shear, (b) band saw, and (c) abrasive cutoff saw. Glyceregia etch (electroless nickel plating used for the sheared and abrasive cutoff specimens)
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Series: ASM Handbook
Volume: 18
Publisher: ASM International
Published: 31 December 2017
DOI: 10.31399/asm.hb.v18.a0006395
EISBN: 978-1-62708-192-4
... chromium, electroplated nickel, electroless (autocatalytic) nickel, electroless nickel composite coatings, electroplated gold, and platinum group coatings. These are specifically tailored toward plated coatings for friction, lubrication, and wear technology. The article concludes with a discussion...
Abstract
This article discusses the fundamentals of electroplating processes, including pre-electroplating and surface-preparation processes. It illustrates the four layers of a plating system, namely, top or finish coat, undercoat, strike or flash, and base material layers. The article describes various plating methods, such as pulse electroplating, electroless plating, brush plating, and jet plating. It reviews the types of electrodeposited coatings, including hard coatings and soft coatings. The article also details the materials available for electroplating, including electroplated chromium, electroplated nickel, electroless (autocatalytic) nickel, electroless nickel composite coatings, electroplated gold, and platinum group coatings. These are specifically tailored toward plated coatings for friction, lubrication, and wear technology. The article concludes with a discussion on the common issues encountered with electroplating.
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in Metallography and Microstructures of Powder Metallurgy Alloys
> Metallography and Microstructures
Published: 01 December 2004
state. White layer is electroless nickel plating used to preserve the surface details during polishing. Etched. Compare with Fig. 29 960×
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Published: 15 January 2021
Fig. 3 Light micrographs of specimens of 1215 carbon steel that were salt bath nitrided and mounted in different resins. (a) Thermosetting epoxy resin. (b) Phenolic thermosetting resin. (c) Methyl methacrylate thermoplastic resin. (d) Electroless nickel plated and mounted in thermosetting
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Published: 01 January 2002
Fig. 11 Light micrographs of specimens of 1215 carbon steel that were salt bath nitrided and mounted in different resins. (a) Epomet thermosetting epoxy resin. (b) Phenolic thermosetting resin. (c) Methyl methacrylate thermoplastic resin. (d) Electroless nickel plated and mounted Epomet
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Published: 30 September 2015
Fig. 11 Metal injection molding Fe-2%Ni, electroless nickel-Teflon plated burst disk wedge (sintered density = 7.6 g/cm 3 , or 0.274 lb/in. 3 ) used in an automobile airbag-actuation assembly. (Teflon is a registered trademark of DuPont.) Courtesy of Kinetics
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