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SAE AMS2417 - PLATING, ZINC-NICKEL ALLOY Organization: SAE
Date: 2013-09-01
Description: Type 2 As-plated with supplementary chromate treatment Grade A Hexavalent chromate treatment, service temperature 250 °F (121 °C) max. Grade B Trivalent chromium treatment, service temperature 375 °F (191 °C) max.
FORD WSS-M21P17-B1 - CORROSION PROTECTIVE COATING, ELECTROLYTIC ZINC PLATE, TRIVALENT CHROMIUN, TOPCOAT SEALER ***TO BE USED WITH FORD WSS-M99P1111-A*** Organization: FORD
Date: 2013-03-22
Description: These specifications define the performance of an electrolytic or non-electrolytic plating of zinc, followed by a trivalent chromium conversion, followed by the application of a topcoat sealer.
FORD WSS-M21P17-B2 - CORROSION PROTECTIVE COATING, MECHANICAL ZINC PLATE, TRIVALENT CHROMIUM, TOPCOAT SEALER ***TO BE USED WITH FORD WSS-M99P1111-A*** - SHOWN ON FORD WSS-M12P17-B1 Organization: FORD
Date: 2013-03-22
Description: These specifications define the performance of an electrolytic or non-electrolytic plating of zinc, followed by a trivalent chromium conversion, followed by the application of a topcoat sealer.
FORD WSS-M21P52-A1 - FASTENER FINISH, ELECTROPLATED ZINC, TRIVALENT CHROMIUM PASSIVATE, SILVER IRIDESCENT ***TO BE USED WITH FORD WSS-M99P1111-A*** Organization: FORD
Date: 2013-03-22
Description: All consist of electrolytic or non-electrolytic zinc plating with trivalent chromium passivate. A2, A3 and A4 are also coated with a clear sealer to increase corrosion resistance and/or to provide consistent torque-tension control.
FORD WSS-M21P52-A2 - FASTENER FINISH, ELECTROPLATED ZINC, TRIVALENT CHROMIUM PASSIVATE, LUBRICATED TOPCOAT SEALER, SILVER ***TO BE USED WITH FORD WSS-M99P1111-A*** - SHOWN ON FORD WSS-M21P52-A1 Organization: FORD
Date: 2013-03-22
Description: All consist of electrolytic or non-electrolytic zinc plating with trivalent chromium passivate. A2, A3 and A4 are also coated with a clear sealer to increase corrosion resistance and/or to provide consistent torque-tension control.
FORD WSS-M21P52-A3 - FASTENER FINISH, MECHANICAL ZINC, TRIVALENT CHROMIUM PASSIVATE, LUBRICATED TOPCOAT SEALER, SILVER-GREY ***TO BE USED WITH FORD WSS-M99P1111-A*** - SHOWN ON FORD WSS-M21P52-A1 Organization: FORD
Date: 2013-03-22
Description: All consist of electrolytic or non-electrolytic zinc plating with trivalent chromium passivate. A2, A3 and A4 are also coated with a clear sealer to increase corrosion resistance and/or to provide consistent torque-tension control.
DELPHI-I - DELPHI DX551300 - CORROSION PROTECTIVE COATINGS – ZINC ALLOY PLATING (HEXAVALENT CHROMIUM FREE) Organization: DELPHI-I
Date: 2011-12-01
Description: A plating system consists of; zinc alloy plating, a zinc-alloy surface treatment (e.g. trivalent chromium conversion coating), and may include a post treatment.
DELPHI-I - DELPHI DX551200 - CORROSION PROTECTIVE COATINGS – HEXAVALENT CHROMIUM FREE ZINC PLATING Organization: DELPHI-I
Date: 2009-04-01
Description: The basic requirements may include: minimum plating thickness, zinc surface treatments (e.g. trivalent chromium conversion coating), typical appearance, and salt spray resistance of either the base metal and/or the zinc plating to the appearance of corrosion products.
FORD WSS-M21P17-B3 - CORROSION PROTECTIVE COATING, ELECTROLYTIC ZINC PLATE, TRIVALENT CHROMIUM, TOPCOAT SEALER, INTEGRAL TORQUE CONTROL LUBRICANT ***TO BE USED WITH FORD WSS-M99P1111-A*** - SHOWN ON FORD WSS-M21P17-B1 Organization: FORD
Date: 2013-03-22
Description: These specifications define the performance of an electrolytic or non-electrolytic plating of zinc, followed by a trivalent chromium conversion, followed by the application of a topcoat sealer.
FORD WSS-M21P17-B4 - CORROSION PROTECTIVE COATING, MECHANICAL ZINC PLATE, TRIVALENT CHROMIUM, TOPCOAT SEALER, INTEGRAL TORQUE CONTROL LUBRICANT ***TO BE USED WITH FORD WSS-M99P1111-A*** - SHOWN ON FORD WSS-M21P17-B1 Organization: FORD
Date: 2013-03-22
Description: These specifications define the performance of an electrolytic or non-electrolytic plating of zinc, followed by a trivalent chromium conversion, followed by the application of a topcoat sealer.
FORD WSS-M21P17-B5 - CORROSION PROTECTIVE COATING, ELECTROLYTIC ZINC PLATE, TRIVALENT CHROMIUM, FRICTION MODIFIED INTEGRAL TORQUE CONTROL SEALER ***TO BE USED WITH FORD WSS-M99P1111-A*** - SHOWN ON FORD WSS-M21P17-B1 Organization: FORD
Date: 2013-03-22
Description: These specifications define the performance of an electrolytic or non-electrolytic plating of zinc, followed by a trivalent chromium conversion, followed by the application of a topcoat sealer.
FORD WSS-M21P50-A1 - CORROSION PROTECTIVE COATING, ELECTROLYTIC ZINC PLATE, TRIVALENT CHROMIUM, TOPCOAT SEALER, INTEGRAL TORQUE CONTROL LUBRICANT - ***TO BE USED WITH FORD WSS-M99111-A*** Organization: FORD
Date: 2007-05-08
Description: These specifications define the performance of an electrolytic and mechanical plating of zinc, followed by a trivalent chromium conversion, followed by the application of a topcoat sealer.
FORD - WSS-M21P50-A2 - CORROSION PROTECTIVE COATING, MECHANICAL ZINC PLATE, TRIVALENT CHROMIUM, TOPCOAT SEALER, INTEGRAL TORQUE CONTROL LUBRICANT - ***TO BE USED WITH FORD WSS-M99P1111-A*** - SHOWN ON WSS-M21P50-A1 Organization: FORD
Date: 2007-05-08
Description: These specifications define the performance of an electrolytic and mechanical plating of zinc, followed by a trivalent chromium conversion, followed by the application of a topcoat sealer.
FORD WSS-M21P52-A4 - FASTENER FINISH, ELECTROPLATED ZINC, TRIVALENT CHROMIUM PASSIVATE, LUBRICATED TOPCOAT SEALER, ENHANCED LUBRICITY, SILVER ***TO BE USED WITH FORD WSS-M99P1111-A*** - SHOWN ON FORD WSS-M21P52-A1 Organization: FORD
Date: 2013-03-22
Description: All consist of electrolytic or non-electrolytic zinc plating with trivalent chromium passivate. A2, A3 and A4 are also coated with a clear sealer to increase corrosion resistance and/or to provide consistent torque-tension control.
DELPHI-I - DELPHI DX551600 - CORROSION PROTECTIVE COATINGS – HEXAVALENT CHROMIUM FREE MECHANICAL ZINC AND ZINC-TIN PLATING Organization: DELPHI-I
Date: 2014-06-01
Description: The basic requirements may include: minimum plating thickness, plating surface treatments (e.g. trivalent chromium conversion coating), typical appearance, and salt spray resistance of either the base metal and/or the zinc plating to the appearance of corrosion products.
DELPHI-I - DELPHI DX550073 - CORROSION PROTECTIVE COATINGS – HEXAVALENT CHROMIUM FREE TIN-ZINC ALLOY PLATING FOR GROUNDING APPLICATIONS Organization: DELPHI-I
Date: 2006-02-01
Description: This specification covers the basic requirements for electrodeposited tin-zinc alloy plating with a subsequent trivalent chromate post treatment. This coating is primarily used for fasteners designated for grounding applications.
ATIS 0600009 - ROHS – COMPLIANT PLATING STANDARD FOR STRUCTURAL METALS, BUS BARS AND FASTENERS Organization: ATIS
Date: 2007-05-01
Description: Performance requirements for finishes on ferrous materials are written around the performance of trivalent chromium (CrIII) finishes. These are believed to be the only chemistry that will meet the performance criteria on ferrous materials.
FORD WSA-M1P87-A1 - PLATING, ZINC/NICKEL ***TO BE USED WITH FORD WSS-M99P1111-A*** Organization: FORD
Date: 2013-10-23
Description: A supplementary hexavalent chromium free coating and/or trivalent chrome may be applied.
FORD WSS-M1P87-A2 - PLATING, ZINC/NICKEL, BLACK ***TO BE USED WITH FORD WSS-M99P1111-A*** Organization: FORD
Date: 2013-10-23
Description: This specification defines performance requirements for racked alloy coatings of zinc/nickel electrolytically deposited on ferrous surfaces from alkaline baths where corrosion protection with postplating trivalent chromium or hexavalent chromium free conversion treatment is required.

1 - 19 of 19 results