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

1 - 20 of 33 results

FORD WSS-M1P87-B5 - PLATING, ELECTROLYTIC ZINC-NICKEL, PASSIVATE, INORGANIC SEALANT, BLACK ***TO BE USED WITH FORD WSS-M99P1111-A*** - SHOWN ON FORD WSS-M1P87-B1 Organization: FORD
Date: 2013-07-18
Description: These specifications define performance requirements for electrolytically plated, passivated zinc-nickel coatings on ferrous parts (stampings, forgings, castings, etc.), some of which additionally have a topcoat sealant.
FORD - WSS-M1P87-B3 - PLATING, ELECTROLYTIC ZINC-NICKEL, PASSIVATE, ORGANIC SEALANT, BLACK ***TO BE USED WITH FORD WSS-M99P1111-A*** - SHOWN ON FORD WSS-M1P87-B1 Organization: FORD
Date: 2013-07-18
Description: These specifications define performance requirements for electrolytically plated, passivated zinc-nickel coatings on ferrous parts (stampings, forgings, castings, etc.), some of which additionally have a topcoat sealant.
FORD - WSS-M1P87-B2 - PLATING, ELECTROLYTIC ZINC-NICKEL, PASSIVATE, ORGANIC SEALANT ***TO BE USED WITH FORD WSS-M99P1111-A*** - SHOWN ON FORD WSS-M1P87-B1 Organization: FORD
Date: 2013-07-18
Description: These specifications define performance requirements for electrolytically plated, passivated zinc-nickel coatings on ferrous parts (stampings, forgings, castings, etc.), some of which additionally have a topcoat sealant.
FORD WSS-M1P87-B1 - PLATING, ELECTROLYTIC ZINC-NICKEL, PASSIVATE ***TO BE USED WITH FORD WSS-M99P1111-A*** Organization: FORD
Date: 2013-07-18
Description: These specifications define performance requirements for electrolytically plated, passivated zinc-nickel coatings on ferrous parts (stampings, forgings, castings, etc.), some of which additionally have a topcoat sealant.
FORD - WSS-M1P87-B4 - PLATING, ELECTROLYTIC ZINC-NICKEL, PASSIVATE, INORGANIC SEALANT ***TO BE USED WITH FORD WSS-M99P1111-A*** - SHOWN ON FORD WSS-M1P87-B1 Organization: FORD
Date: 2013-07-18
Description: These specifications define performance requirements for electrolytically plated, passivated zinc-nickel coatings on ferrous parts (stampings, forgings, castings, etc.), some of which additionally have a topcoat sealant.
FORD WSS-M1P87-B3 - PLATING, ELECTROLYTIC ZINC-NICKEL, PASSIVATE, ORGANIC SEALANT, BLACK ***TO BE USED WITH FORD WSS-M99P1111-A*** Organization: FORD
FORD WSS-M1P87-B2 - PLATING, ELECTROLYTIC ZINC-NICKEL, PASSIVATE, ORGANIC SEALANT ***TO BE USED WITH FORD WSS-M99P1111-A*** Organization: FORD
FORD WSS-M1P87-B4 - PLATING, ELECTROLYTIC ZINC-NICKEL, PASSIVATE, INORGANIC SEALANT ***TO BE USED WITH FORD WSS-M99P1111-A*** Organization: FORD
DELPHI-I - DELPHI DX552000 - PLATING MULTILAYER ELECTROPLATED/BLACK TYPE Organization: DELPHI-I
Date: 2006-02-01
Description: This example from Table 1 indicates a layer of electrolytically deposited nickel followed by a zinc-nickel alloy with a black organic topcoat.
DSF/FPREN 2133 - AEROSPACE SERIES - CADMIUM PLATING OF STEELS WITH SPECIFIED TENSILE STRENGTH <= 1 450 MPA, COPPER, COPPER ALLOYS AND NICKEL ALLOYS Organization: DS
Description: This standard specifies the electrolytic cadmium plating of parts in steel of tensile strength Rm (max.)
NBN - EN 2133 - AEROSPACE SERIES - CADMIUM PLATING OF STEELS WITH SPECIFIED TENSILE STRENGTH ≤ 1 450 MPA, COPPER, COPPER ALLOYS AND NICKEL ALLOYS Organization: NBN
Date: 2010-11-26
Description: This European standard specifies the electrolytic cadmium plating of parts in steel of tensile strength Rm (max.)
NBN - EN 2133 - AEROSPACE SERIES - CADMIUM PLATING OF STEELS WITH SPECIFIED TENSILE STRENGTH ≤ 1 450 MPA, COPPER, COPPER ALLOYS AND NICKEL ALLOYS Organization: NBN
Date: 2010-11-26
Description: This European standard specifies the electrolytic cadmium plating of parts in steel of tensile strength Rm (max.)
DS/EN 2133 - AEROSPACE SERIES - CADMIUM PLATING OF STEELS WITH SPECIFIED TENSILE STRENGTH <= 1 450 MPA, COPPER, COPPER ALLOYS AND NICKEL ALLOYS Organization: DS
Date: 2010-11-16
Description: This European standard specifies the electrolytic cadmium plating of parts in steel of tensile strength Rm (max.)
SNV - SN EN 2133 - AEROSPACE SERIES - CADMIUM PLATING OF STEELS WITH SPECIFIED TENSILE STRENGTH ≤ 1 450 MPA, COPPER, COPPER ALLOYS AND NICKEL ALLOYS Organization: SNV
Date: 2011-01-01
Description: This European standard specifies the electrolytic cadmium plating of parts in steel of tensile strength Rm (max.) ≤ 1 450 MPa, copper, copper alloys and nickel alloys, whose temperature in service does not exceed 235 °C.
CEN - EN 2133 - AEROSPACE SERIES - CADMIUM PLATING OF STEELS WITH SPECIFIED TENSILE STRENGTH ≤ 1 450 MPA, COPPER, COPPER ALLOYS AND NICKEL ALLOYS Organization: CEN
Date: 2010-10-01
Description: This European standard specifies the electrolytic cadmium plating of parts in steel of tensile strength Rm (max.) ≤ 1 450 MPa, copper, copper alloys and nickel alloys, whose temperature in service does not exceed 235 °C.
NBN - EN 4826 - AEROSPACE SERIES - ZINC-NICKEL (12 %-16 % NI) PLATING OF STEELS WITH SPECIFIED TENSILE STRENGTH ≤ 1 450 MPA, COPPER ALLOYS, NICKEL ALLOYS AND ALUMINIUM ALLOYS FOR PARTS AND FASTENERS Organization: NBN
Date: 2015-02-02
Description: This European Standard specifies the plating of a Zinc-Nickel (12 % to 16 %) alloy on mechanical parts and fasteners in steels (Rm ≤ 1 450 MPa), stainless steels (Rm ≤ 1 450 MPa), copper alloys, nickel alloys and aluminium alloys (not applicable for electrical components), as well as the passivation and lubricant finishing that can be associated to them. The Zinc-Nickel process is an electrolytic plating process under controlled current allowing to deposit a Zinc-Nickel layer from, most often, an alkaline electrolyte.
NBN - EN 4826 - AEROSPACE SERIES - ZINC-NICKEL (12 %-16 % NI) PLATING OF STEELS WITH SPECIFIED TENSILE STRENGTH ≤ 1 450 MPA, COPPER ALLOYS, NICKEL ALLOYS AND ALUMINIUM ALLOYS FOR PARTS AND FASTENERS Organization: NBN
Date: 2015-02-02
Description: This European Standard specifies the plating of a Zinc-Nickel (12 % to 16 %) alloy on mechanical parts and fasteners in steels (Rm ≤ 1 450 MPa), stainless steels (Rm ≤ 1 450 MPa), copper alloys, nickel alloys and aluminium alloys (not applicable for electrical components), as well as the passivation and lubricant finishing that can be associated to them. The Zinc-Nickel process is an electrolytic plating process under controlled current allowing to deposit a Zinc-Nickel layer from, most often, an alkaline electrolyte.
CEN - EN 4826 - AEROSPACE SERIES - ZINC-NICKEL (12 %-16 % NI) PLATING OF STEELS WITH SPECIFIED TENSILE STRENGTH ≤ 1 450 MPA, COPPER ALLOYS, NICKEL ALLOYS AND ALUMINIUM ALLOYS FOR PARTS AND FASTENERS Organization: CEN
Date: 2014-12-01
Description: This European Standard specifies the plating of a Zinc-Nickel (12 % to 16 %) alloy on mechanical parts and fasteners in steels (Rm ≤ 1 450 MPa), stainless steels (Rm ≤ 1 450 MPa), copper alloys, nickel alloys and aluminium alloys (not applicable for electrical components), as well as the passivation and lubricant finishing that can be associated to them. The Zinc-Nickel process is an electrolytic plating process under controlled current allowing to deposit a Zinc-Nickel layer from, most often, an alkaline electrolyte.
DSF/FPREN 4826 - AEROSPACE SERIES - ZINC-NICKEL (12-16 % NI) PLATING OF STEELS WITH SPECIFIED TENSILE STRENGTH = 1 450 MPA, COPPER ALLOYS, NICKEL ALLOYS AND ALUMINIUM ALLOYS FOR PARTS AND FASTENERS Organization: DS
Description: This standard specifies the plating of a Zinc-Nickel (12 % to 16 %) alloy on mechanical parts and fasteners in steels (UTS = 1 450 MPa), stainless steels (UTS = 1 450 MPa), copper alloys and aluminium alloys (not applicable for electrical components), as well as the passivation and lubricant finishing that can be associated to them. The Zinc-Nickel process is an electrolytic plating process under controlled current allowing to deposit a Zinc-Nickel layer from, most often, an alkaline electrolyte.
ASTM B851 - STANDARD SPECIFICATION FOR AUTOMATED CONTROLLED SHOT PEENING OF METALLIC ARTICLES PRIOR TO NICKEL, AUTOCATALYTIC NICKEL, OR CHROMIUM PLATING, OR AS FINAL FINISH Organization: ASTM
Date: 2004-04-01
Description: Shot peening induces residual compressive stresses in the surface and near-surface layers of metallic articles, controlling or limiting the reduction in fatigue properties that occurs from nickel or chromium plating of the article, or the fatigue properties of unplated articles.

1 - 20 of 33 results