Find the standard you are looking for at Engineering360. Documents are available for purchase from the IHS Standards Store.

1 - 20 of 251 results

SAE AMS-QQ-N-290 - NICKEL PLATING (ELECTRODEPOSITED) Organization: SAE
Date: 2015-07-01
Description: Class 2 Plating Class 2 plating is used for wear resistance, abrasion resistance and such incidental corrosion protection of parts as the specified thickness of the nickel plating may afford. Heavy deposits of the Class 2 plating, especially when the Watts bath process is employed, may be used for buildup of worn or undersized parts, or for salvage purposes, and to provide protection against corrosive chemical environments.
ISUZU ISC-B14-001 - ELECTROLESS NICKEL PLATING - JAPANESE/ENGLISH VERSION Organization: ISUZU
Date: 2008-03-21
Description: (For Reference) Examples of brands of electroless plating chemicals: "Linden" Plating, "Kanizen" Plating, Nickel-phosphorous (approx. 10 % or less) Plating
SAE AMS2405 - ELECTROLESS NICKEL PLATING LOW PHOSPHORUS Organization: SAE
Date: 2013-10-01
Description: Maximum hardness and wear resistance are obtained by heating parts as in 3.3.2. Application of electroless nickel plating to steel parts having a hardness of 46HRC (ultimate tensile strength of 220 ksi (1517 MPa) or higher shall not be performed unless authorized by the design documentation or specific approval has been received from the cognizant engineering organization.
ISUZU ISC-B11-001 - NICKEL-CHROMIUM PLATING - JAPANESE/ENGLISH VERSION Organization: ISUZU
Date: 2002-09-27
Description: This standard covers the specifications of nickel chromium plating(hereinafter referred to as 'plating') to be applied on basis metal of automotive parts of Isuzu Motors Limited primarily for decorative and corrosion resistance purposes.
GMNA - GM4254M - NICKEL PLATING Organization: GMNA
SAE AMS2416 - PLATING, NICKEL-CADMIUM DIFFUSED Organization: SAE
Date: 2010-12-01
Description: Warning This document includes cadmium as a plating material. The use of cadmium has been restricted and/or banned for use in many countries due to environmental and health concerns.
ISUZU ISC-B11-008 - NICKEL-CHROMIUM PLATING ON PLASTIC PARTS Organization: ISUZU
Date: 2007-10-25
Description: This standard covers the specifications of nickel-chromium plating (hereafter called plating) to be applied on plastic automotive parts of Isuzu Motors Limited primarily for decoration.
GMW15613 - DECORATIVE NICKEL CHROME PLATING ON STAINLESS STEEL - ISSUE 2; ENGLISH Organization: GMW
Date: 2014-07-01
Description: Coating consists of four (4) layers; a woods nickel strike (necessary for proper adhesion of plating to stainless), bright-nickel, microporous nickel, and chromium.
SAE AMS2404 - PLATING, ELECTROLESS NICKEL Organization: SAE
Date: 2013-12-01
Description: The deposit has been used in service up to 1000 °F (540 °C) although wear and/or corrosion resistance may degrade as service temperature increases. Application of electroless nickel plating to steel parts having a hardness of 46 HRC (ultimate tensile strength of 220 ksi (1517 MPa) or higher shall not be performed unless authorized by the design documentation or specific approval has been received from the cognizant engineering organization.
SAE AMS2417 - PLATING, ZINC-NICKEL ALLOY Organization: SAE
Date: 2013-09-01
Description: Purpose This specification covers the requirements for electrodeposition of a zinc-nickel alloy and the properties of the deposit. Application Zinc-nickel plating has been used typically to provide corrosion resistance to steel parts that may operate at elevated temperatures (See 1.3) but usage is not limited to such applications.
NASA-LLIS-1423 - LESSONS LEARNED – ELEMENTS OF THE ELECTROLESS NICKEL PLATING PROCESS (SAE-AMS-C-26074) Organization: NASA
Date: 2004-04-13
Description: This resulted in significant rework and schedule delays. Due to the defective plating, there is a potential for airborne conductive contaminants thus generating a hazardous condition on the ISS.
MODUK - DTD-905A - NICKEL PLATING (HEAVY) Organization: MODUK
NPFC - QQ-N-290 - NICKEL PLATING (ELECTRO-DEPOSITED) Organization: NPFC
NAVISTAR CEMS G-22 - VOID - ZINC-NICKEL PLATING Organization: NAVISTAR
Date: 2014-10-01
NAVISTAR - MPAPS G-22 - ZINC-NICKEL PLATING Organization: NAVISTAR
Date: 2014-10-01
NAVISTAR MPAPS G-22 - ZINC-NICKEL PLATING Organization: NAVISTAR
SAE AMS2451/2 - PLATING, BRUSH, NICKEL LOW STRESS, HARD DEPOSIT Organization: SAE
Date: 2006-06-01
Description: Purpose This specification covers the requirements and process controls for brush plating of hard, low stress nickel by electrodeposition. Application This process has been used typically to improve wear resistance and to repair damaged, worn, or mismachined parts in applications requiring hardness, fatigue resistance, and service at temperatures up to 450 °F (232 °C) but usage is not limited to such applications.
SAE AMS2454 - PLATING, ELECTROLESS NICKEL, CODEPOSITED WITH POLYTETRAFLUOROETHYLENE (PTFE) Organization: SAE
Date: 2012-04-01
Description: Corrosion resistance is a function of substrate material and the type and thickness of underplate and the electroless nickel PTFE composite surface layer. See 8.16. This plating is not specifically intended for applications requiring premium solderability or adhesive bondability.
GMNA - GM4372M - DECORATIVE CHROMIUM PLATING – COPPER, NICKEL, CHROMIUM TYPE - ISSUE 2; DO NOT USE ON NEW PROGRAMS; REPLACED BY GMW14672 FOR METAL SUBSTRATES AND GMW14668 FOR PLASTIC SUBSTRATES Organization: GMNA
Date: 2011-02-01
Description: It does not require the use of discontinuous chromium or multiple layer nickel systems. When specifying chromium plating on aluminum, a coating must be applied to all of the non-significant surfaces which do not receive a full complement of plate and are exposed to severe corrosive environments.
SAE AMS2410 - PLATING, SILVER NICKEL STRIKE, HIGH BAKE Organization: SAE
Date: 2010-04-01
Description: Purpose This specification covers the requirements for electrodeposited silver on other metals, usually with a nickel strike between the basis metal and the silver. Application This plating has been used typically to provide a bearing surface and to prevent galling or seizing of surfaces of parts made of corrosion-resistant steels and of parts made of other metals not deleteriously affected by high-temperature baking, but usage is not limited to such applications.

1 - 20 of 251 results