Browse Topic: Plating

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Predictive Analysis and Risk Management of Nickel-Plated Aluminum Automotive Parts Exposed to Harsh Environmental Conditions2026-26-0305To be published on 01/16/2026
Aluminium is widely used across various industries due to its lightweight properties, high strength-to-weight ratio, and cost-effectiveness. However, its susceptibility to corrosion, particularly in harsh environmental conditions, presents challenges to its long-term durability and performance. To mitigate these issues, nickel plating was applied as a protective measure, creating a barrier to minimize aluminums' direct exposure to corrosive environments and enhance its resistance to degradation. In this study, nickel-plated aluminum was subjected to controlled corrosion testing under simulated real-world conditions, including high humidity, saline atmospheres, and industrial pollutants. The primary objective was to evaluate the effectiveness and longevity of nickel plating as a corrosion prevention method. Periodic observations and measurements were conducted to monitor material changes, such as surface degradation and corrosion product formation. The findings highlight the critical
NARAIN, ADITYAVenugopal, SivakumarGopalan, VijaysankarVaratharajan, Senthilkumaran
Hydrogen Embrittlement in Galvanized High Carbon Steel Components of Automotive Seat Slider Assembly2026-26-0302To be published on 01/16/2026
This research paper investigates the failure of an isolator clip used in the seat slider assembly, which guides and restricts the sliding motion of the tooth bracket within the seat. The component is made of C80 high-carbon spring steel, known for its high strength. According to the manufacturing process details, zinc plating was applied to the component for corrosion protection, as confirmed by EDS analysis. A fractographic examination of the failed part revealed a brittle, intergranular fracture morphology with visible cracks. Certain areas also exhibited micro-void coalescence, indicating a dimpled fracture surface. The primary failure mode was intergranular (IG) fracture. The delayed fracture was attributed to intergranular fracture mechanisms, micro-void coalescence, and the high strength of the steel, which made the component susceptible to hydrogen embrittlement. Hydrogen embrittlement occurs when hydrogen atoms become trapped along the grain boundaries, where they form hydrogen
Saindane, Mehul KishorBALI, SHIRISH
Tool, Stripper, Electrical Insulation, General Specification ForAS5768A (Current)11/26/2025
This specification covers design requirements, performance requirements, and methods of procurement for tools and associated accessories used to strip aerospace vehicle electrical wire and cable. Aerospace vehicle electrical wire has stranded conductors with protective plating and specialized insulation. Poor quality wire strippers or mismatched blades can compromise the performance of wiring.
AE-8C2 Terminating Devices and Tooling Committee
Plating, Brush, Cadmium Corrosion Protective, Low Hydrogen EmbrittlementAMS2451/4E (Current)11/10/2025
This specification establishes the requirements for brush plating of cadmium by electrodeposition.
AMS B Finishes Processes and Fluids Committee
Nickel Plating (Electrodeposited)AMSQQN290D (Current)10/12/2021
AMS B Finishes Processes and Fluids Committee
An alternate CED process for low volume BIW manufacturing with single stage vertical dipping2021-28-022710/01/2021
Body in White (BIW) is a major assembly in an automobile. It is made of sheet metal components that are welded together by Resistance spot welding. Assembled BIWs are put through an anti-corrosion process called Cathodic Electrodeposition (CED) and baked to set the CED coat. CED process has an elaborate sequence of rinse cycles and coat cycles. Single stage dipping stations are used for coating large volumes of smaller components. The high-cost multi-stage setup is a commonly used process in large scale BIW manufacturing systems. In the context of small-scale batch production or prototype builds, the extensive setup is not viable. This paper studied the feasibility of CED coating large BIWs in a single stage setup. Multiple process modifications explored to establish single stage setup for BIW coating. Process capability and effectiveness of utilization was studied. The results were analyzed, and the comprehensive process chain was concluded and discussed for implementation.
B, SivasankarSelvam, GanesanKannan, Muniya Goundervoppuru, Naga Sheshank ReddyThiruppathi, R
CONNECTORS, ELECTRICAL, RECTANGULAR, RECEPTACLE, CRIMP CONTACTS (SINGLE INSERT, TYPE III, CLASS 1 (−65 TO +125 °C), SERIES 2, SHELL DESIGNATOR A)AS81659/61B (Current)07/30/2021
AE-8C1 Connectors Committee
Plating, Nickel Low-Stressed DepositAMS2424G (Current)02/26/2021
This specification covers the requirements for electrodeposited low-stressed nickel.
AMS B Finishes Processes and Fluids Committee
Connectors, Fiber Optic, Advanced, Circular or Rectangular, Plug and Receptacle, Environment Resistant, Removable Termini/Contacts, General Specification ForAS5590B (Current)11/30/2020
This specification covers the performance requirements for a plug and receptacle. The connector inserts may contain multiple termini or multiple termini and electrical contacts. The connectors use removable termini, or removable termini and electrical contacts, and are capable of operating within a temperature range of −65 to +200 °C (see 1.2.1.1). These connectors are supplied under AS9100 reliability assurance program.
AS-3 Fiber Optics and Applied Photonics Committee
Connectors, Fiber Optic, Advanced, Circular or Rectangular, Plug and Receptacle, Environment Resistant, Removable Termini/Contacts, General Specification ForAS5590B-TEST-REC (Historical)11/30/2020
This specification covers the performance requirements for a plug and receptacle. The connector inserts may contain multiple termini or multiple termini and electrical contacts. The connectors use removable termini, or removable termini and electrical contacts, and are capable of operating within a temperature range of −65 to +200 °C (see 1.2.1.1). These connectors are supplied under AS9100 reliability assurance program.
AS-3 Fiber Optics and Applied Photonics Committee
Electric Nanoscale Device Sees Through WallsTBMG-3684105/01/2020
Researchers have developed a nanodevice that operates more than 10 times faster than today’s fastest transistors and about 100 times faster than the transistors on most computers. The device generates high-power terahertz waves, which are notoriously difficult to produce and are useful in a variety of applications ranging from imaging and sensing to high-speed wireless communications.
INSERT, SCREW THREAD, SHORT, SELF-LOCKING, KEY LOCKED, OVERSIZE SELF-BROACHING KEYS, UNS S66286AS3652A (Current)04/06/2020
E-25 General Standards for Aerospace and Propulsion Systems
INSERT, SCREW THREAD, LONG SELF-LOCKING, KEY LOCKED, SELF-BROACHING KEYS, UNS S66286AS3653A (Current)04/06/2020
E-25 General Standards for Aerospace and Propulsion Systems
INSERT, SCREW THREAD, LONG, SELF-LOCKING, KEY LOCKED, OVERSIZE SELF-BROACHING KEYS, UNS S66286AS3654A (Current)04/06/2020
E-25 General Standards for Aerospace and Propulsion Systems
INSERT, SCREW THREAD, SHORT, SELF-LOCKING, KEY LOCKED, SELF-BROACHING KEYS, UNS S66286AS3651A (Current)04/06/2020
E-25 General Standards for Aerospace and Propulsion Systems
Tin Plated Solderless Terminal Lugs and Splices on Nickel Coated High Temperature WireAIR1263A (Current)02/03/2020
This publication formally cautions against terminating nickel coated wire with tin plated insulated or uninsulated crimped solderless terminations.
AE-8C2 Terminating Devices and Tooling Committee
High-Sensitivity, Low-Noise MEMS AccelerometerTBMG-3529410/01/2019
A high-sensitivity and low-noise MEMS accelerometer was developed using multi-layer metal structures composed of multiple metal layers. The accelerometer achieves 1 μG level resolution that has been a challenging task with conventional MEMS technology. The team previously proposed a method of using gold material to downscale the proof mass size of MEMS accelerometers to less than one-tenth. In this work, they have increased the proof mass per area by employing multiple layers of gold for the MEMS structures, thereby increasing the sensitivity over 100 times and reducing noise less than one-tenth when compared with conventional accelerometers.
CONNECTOR ACCESSORIES, ELECTRICAL, BACKSHELL, 90°, SELF-LOCKING, SHIELD BAND TERMINATION (RFI/EMI), SHRINK SLEEVE ACCOMMODATION, CATEGORY 3B (FOR MIL-DTL-38999 SERIES I AND II CONNECTORS)AS85049/87E (Current)08/07/2019
AE-8C1 Connectors Committee
CONNECTOR ACCESSORIES, ELECTRICAL, BACKSHELL, 45°, SELF LOCKING, SHIELD, BAND TERMINATION, (RFI/EMI), SHRINK SLEEVE ACCOMMODATION, CATEGORY 3B (FOR AS50151 CRIMP, AS95234, MIL-DTL 26482 SERIES 2, AS81703 SERIES 3 AND MIL-DTL-83723 SERIES III ONNECTORS)AS85049/83D (Current)08/06/2019
AE-8C1 Connectors Committee
CONNECTOR ACCESSORIES, ELECTRICAL, BACKSHELL, STRAIGHT, SELF-LOCKING, SHIELD BAND TERMINATION (RFI/EMI), SHRINK SLEEVE ACCOMMODATION, CATEGORY 3B (FOR AS50151 CRIMP, MIL-DTL-26482 SERIES 2, AS81703 SERIES 3 AND MIL-DTL-83723 SERIES III CONNECTORS)AS85049/82D (Current)08/06/2019
AE-8C1 Connectors Committee
CONNECTOR ACCESSORIES, ELECTRICAL, BACKSHELL, STRAIGHT, SELF-LOCKING, SHIELD BAND TERMINATION (RFI/EMI), SHRINK BOOT ACCOMMODATION, CATEGORY 3B (FOR MIL-DTL-38999 SERIES I AND II CONNECTORS)AS85049/85D (Current)08/06/2019
AE-8C1 Connectors Committee
CONNECTOR ACCESSORIES, ELECTRICAL, BACKSHELL, STRAIGHT, SELF-LOCKING, SHIELD BAND TERMINATION (RFI/EMI), SHRINK SLEEVE ACCOMMODATION, CATEGORY 3B (FOR AS50151 CRIMP, MIL-DTL-26482 SERIES 2, AS81703 SERIES 3 AND MIL-DTL-83723 SERIES III CONNECTORS)AS85049/82C (Historical)02/19/2019
AE-8C1 Connectors Committee
Effects of As-Cast Surface Conditions and Local Geometry on Plating Deposition2018-01-504511/14/2018
The inhomogeneity of casting microstructure can present many challenges to subsequent processing of castings such as electroplating. Specifically the surface microstructure and local topographic features have significant impact on the electroplating deposition thus the continuity of the plating films. The authors attempt to categorize the common casting surface microstructure features and correlate them to the electroplating characteristics such as conductivity and current density distribution, which in turn affect the plating deposition. Forming mechanisms of some of the most common casting surface microstructures that affect electroplating are discussed. Desirable casting surface microstructure for electroplating and the casting design and process practices to achieve it are proposed.
Huang, YanjunOhta, MakotoPederson, TaraMilligan, Orit (Baron)
5 Ws of the iQ Portable ScannerTBMG-2873504/01/2018
Doctors, nurses, hospitals, paramedics, and other healthcare professionals; and consumers.
Plating, Brush, Nickel Low Stress, Hard DepositAMS2451/2B (Current)03/04/2018
This specification covers the requirements and process controls for brush plating of hard, low stress nickel by electrodeposition.
AMS B Finishes Processes and Fluids Committee
Plating, Brush, Cadmium Corrosion Protective, Low Hydrogen EmbrittlementAMS2451/4D (Historical)12/11/2017
This specification establishes the requirements for brush plating of cadmium by electrodeposition.
AMS B Finishes Processes and Fluids Committee
Plating, Brush, Nickel Low Stress, Low-Hardness DepositAMS2451/3C (Historical)11/21/2017
This specification covers the requirements for brush plating of low-hardness, low-stress nickel by electrodeposition.
AMS B Finishes Processes and Fluids Committee
Plating, Brush, CobaltAMS2451/11B (Current)11/20/2017
This specification covers the requirements for brush plating of cobalt by electrodeposition.
AMS B Finishes Processes and Fluids Committee
Plating, Brush, TinAMS2451/12A (Current)11/09/2017
This specification covers the engineering requirements and process for brush plating of tin by electrodeposition. It shall be used, in conjunction with AMS2451, for general purpose tin deposits.
AMS B Finishes Processes and Fluids Committee
Plating, Brush, SilverAMS2451/13A (Current)11/09/2017
This specification covers the engineering requirements and process for brush plating of silver by electrodeposition. It shall be used, in conjunction with AMS2451, for silver deposits.
AMS B Finishes Processes and Fluids Committee
ElectroplatingPD261735ON10/23/2017
Electroplating involves the deposition of thin layers of metal on metal components and metal stock. There are several uses for electrodeposited coatings including cosmetic, corrosion resistance, and wear resistance. Knowledge about electroplating and electroplated coatings is important for product design, preventing and solving quality problems, and evaluating supplier capabilities and quality. If you’re ever involved with metal plating selection, supplier evaluation, and solving quality problems with electroplated metals, then this course is for you. You’ll learn concepts that will enable you to: Decrease product design time Reduce quality problems Quickly solve design, manufacturing, and supplier problems Select capable suppliers
Plating, Brush Copper General PurposeAMS2451/6B (Current)09/19/2017
This specification establishes the requirements for brush plating of copper by electrodeposition.
AMS B Finishes Processes and Fluids Committee
Friction Back Plate Design/Manufacturing/Quality - Key Attributes for Better Brake Performance2017-01-250609/17/2017
Friction material back plate design, manufacturing and consistent quality are some of the key attributes for better brake performance. Historically, the auto industry’s focus on back plate quality has been limited to drawing dimensions. Recently, vehicle manufacturers across the globe are tightening caliper performance criteria to achieve near zero drag for fuel consumption regulations and improved NVH to attract end customers. To meet these new stringent requirements, friction and back plate suppliers need to focus, in more detail, on how to improve the backing plate quality and better understand the interface characteristics of back plate/pad assembly to caliper performance. While many key characteristics of the back plate were identified in past assembly design process, there has been vague understanding to connect with caliper performance, thus, the definition of back plate quality has been limited to basic dimensional measurement. Thus, the critical aspect of these characteristics
Divakaruni, SaikiranChang, HT
Faster, Better, Economic - Newest Acid Zinc-Nickel Technology for Brake Caliper Plating2017-01-250709/17/2017
The demand for zinc-nickel coatings continuously increases in the automotive industry due to their high corrosion protection as well as superior wear and heat resistance compared to pure zinc platings. The state-of-the-art plating systems in the brake caliper industry are acid zinc-nickel electrolytes, as only they allow for direct plating on cast iron. Cast iron is the most common base material for the production of automotive brake components due to excellent mechanical and thermal properties. Well suited coatings will preserve the functional properties and provide additional advantages like improved corrosion protection and homogeneous and long lasting appearance. Consistently increasing quality demands, extended warranty periods and cost pressure lead to further developments and force the industry to look for new solutions. Therefore improvement of throwing power (thickness distribution) of acid zinc-nickel electrolytes would allow for a reduction in plating time and thus an
Hoch, MatthiasKaczmarek, MichalAhr, Markus
CONNECTORS, ELECTRICAL, RECTANGULAR, PLUG, CRIMP CONTACTS, (DUAL INSERT, TYPE IV, CLASS 1, (−65 TO +125 °C), SERIES 2, SHELL DESIGNATOR A)AS81659/69B (Current)09/05/2017
AE-8C1 Connectors Committee
CONNECTORS, ELECTRICAL, RECTANGULAR, RECEPTACLE, CRIMP CONTACTS, (DUAL INSERT, TYPE III, CLASS 1, (−65 °C TO +125 °C), SERIES 2, SHELL DESIGNATOR A)AS81659/62B (Current)06/26/2017
AE-8C1 Connectors Committee
CONNECTORS, ELECTRICAL, RECTANGULAR, RECEPTACLE, CRIMP CONTACTS, (DUAL INSERT, TYPE IV, CLASS 1, (−65 °C TO +125 °C), SERIES 2, SHELL DESIGNATOR A, FLOAT MOUNTING)AS81659/72B (Current)06/26/2017
AE-8C1 Connectors Committee
CONNECTORS, ELECTRICAL, RECTANGULAR, RECEPTACLE, CRIMP CONTACTS, (SINGLE INSERT, TYPE II, CLASS 1, (−65 °C TO +125 °C), SERIES 2, SHELL DESIGNATOR A)AS81659/31B (Current)06/22/2017
AE-8C1 Connectors Committee
CONNECTORS, ELECTRICAL, RECTANGULAR, RECEPTACLE, CRIMP CONTACTS, (SINGLE INSERT, TYPE IV, CLASS 1, (−65 °C TO +125 °C), SERIES 2, SHELL DESIGNATOR A, FLOAT MOUNTING)AS81659/68B (Current)06/22/2017
AE-8C1 Connectors Committee
CONNECTORS, ELECTRICAL, RECTANGULAR, RECEPTACLE,CRIMP CONTACTS, (QUADRUPLE INSERT, TYPE III, CLASS 1,(−65 °C TO +125 °C), SERIES 2, SHELL DESIGNATOR A)AS81659/64B (Current)06/22/2017
AE-8C1 Connectors Committee
CONNECTORS, ELECTRICAL, RECTANGULAR, RECEPTACLE ENVIRONMENT RESISTANT, CRIMP CONTACTS, DOUBLE INSERT, TYPE II, CLASS 1 (−65 °C TO +125 °C), SERIES 1, SHELL DESIGNATOR AAS81659/9B (Current)06/22/2017
AE-8C1 Connectors Committee
CONNECTORS, ELECTRICAL, RECTANGULAR, RECEPTACLE, CRIMP CONTACTS, (DUAL INSERT, TYPE IV, CLASS 1, (−65 °C TO +125 °C), SERIES 2, SHELL DESIGNATOR A)AS81659/70B (Current)06/21/2017
AE-8C1 Connectors Committee
CONNECTORS, ELECTRICAL, RECTANGULAR, RECEPTACLE,CRIMP CONTACTS, (SINGLE INSERT, TYPE IV, CLASS 1,(−65 °C TO +125 °C), SERIES 2, SHELL DESIGNATOR A)AS81659/66B (Current)06/21/2017
AE-8C1 Connectors Committee
CONNECTORS, ELECTRICAL, RECTANGULAR, RECEPTACLE,CRIMP CONTACTS, (TRIPLE INSERT, TYPE III, CLASS 1,(−65 °C TO +125 °C), SERIES 2, SHELL DESIGNATOR A)AS81659/63B (Current)06/21/2017
AE-8C1 Connectors Committee
CONNECTORS, ELECTRICAL, RECTANGULAR, PLUG, CRIMP CONTACTS, (SINGLE INSERT, TYPE IV, CLASS 1, (−65 °C TO +125 °C), SERIES 2, SHELL DESIGNATOR A)AS81659/65B (Current)06/20/2017
AE-8C1 Connectors Committee
CONNECTORS, ELECTRICAL, RECTANGULAR, PLUG, CRIMP CONTACTS (SINGLE INSERT, TYPE II, CLASS 1, (−65 °C TO +125 °C), SERIES 2, SHELL DESIGNATOR A)AS81659/29B (Current)06/20/2017
AE-8C1 Connectors Committee
CONNECTORS, ELECTRICAL, RECTANGULAR, PLUG, CRIMP CONTACTS, (DUAL INSERT, TYPE II, CLASS 1, (−65 °C TO + 125 °C), SERIES 2, SHELL DESIGNATOR A)AS81659/33B (Current)06/13/2017
AE-8C1 Connectors Committee
CONNECTORS, ELECTRICAL, RECTANGULAR, RECEPTACLE, CRIMP CONTACTS, (DUAL INSERT, TYPE II, CLASS 1, (−65 °C TO +125 °C), SERIES 2, SHELL DESIGNATOR A)AS81659/41B (Current)06/09/2017
AE-8C1 Connectors Committee
Nadcap Requirements for Plating of Coated PartsAS7109/6B (Current)06/08/2017
This document has been declared "CANCELLED" as of June 2017 and has been superseded by PRI AC7109/6. By this action, this document will remain listed in the Numerical Section of the Aerospace Standards Index noting that it is superseded by PRI AC7109/6. Cancelled specifications are available from SAE.
Nadcap Management Council
CONNECTORS, ELECTRICAL, RECTANGULAR, RECEPTACLE, CRIMP CONTACTS, (TRIPLE INSERT, TYPE II, CLASS 1 (-65 °C TO +125 °C), SERIES 2, SHELL DESIGNATOR A)AS81659/39B (Current)06/07/2017
AE-8C1 Connectors Committee
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