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MODUK - DEF STAN 03-9 - ELECTRO-DEPOSITION OF SILVER - ISSUE 3; 4/2007 Organization: MODUK
Date: 2007-04-30
Description: It is primarily intended for use on electrical and electronic items which are to be plated with silver to increase the electrical conductivity of the surface. This Standard does not cover the silver plating of threaded items.
SAE AMS03-9 - ELECTRO-DEPOSITION OF SILVER Organization: SAE
Date: 2015-04-01
Description: It is primarily intended for use on electrical and electronic items which are to be plated with silver to increase the electrical conductivity of the surface. This Standard does not cover the silver plating of threaded items.
FORD ESE-M21P17-A1 - CORROSION PROTECTIVE COATING, ZINC PLATE, CHROMATE, LEACHED AND SEALED - 168 H Organization: FORD
Date: 1988-03-09
Description: SCOPE This specification defines the performance of an electrolytic or non-electrolytic plating of zinc followed by a chromate and leached back to a silver-white color in a sealer.
FORD ESE-M21P17-A2 - CORROSION PROTECTIVE COATING, ZINC PLATE, CHROMATE, LEACHED AND SEALED - 96 H - ; SHOWN ON ESE-M21P17-A1 Organization: FORD
Date: 1988-03-09
Description: SCOPE This specification defines the performance of an electrolytic or non-electrolytic plating of zinc followed by a chromate and leached back to a silver-white color in a sealer.
FORD ESE-M21P17-A3 - CORROSION PROTECTIVE COATING, ZINC PLATE, CHROMATE, LEACHED AND SEALED, COLOR BLACK - 168 H ***TO BE USED WITH FORD WSS-M99P1111-A*** Organization: FORD
Date: 2004-01-28
Description: SCOPE This specification defines the performance of an electrolytic or non-electrolytic plating of zinc followed by a chromate and leached back to a silver-white color in a 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.
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.
CPC - THE CHEMICAL ANALYSIS OF - THE CHEMICAL ANALYSIS OF ELECTROPLATING SOLUTIONS Organization: CPC
Date: 1970-10-25
Description: Partial Contents: Analytical Techniques VI-B Group-Chromium Solutions VII-B Group VIII Group-Iron Rhodium Nickel Palladium Platinum Solutions I-B Group-Copper Silver Gold Solutions II-B Group-Zinc Cadmium Solutions III-A Group-Indium Solutions IV-A Group-Tin Lead Solutions V-A Group-Arsenic Antimony Solutions Alloy Plating Baths Analytical Instrumentation
SAE J465 - MAGNESIUM CASTING ALLOYS Organization: SAE
Date: 1983-01-01
Description: 1.3 Alloying Elements--Common alloying elements used in magnesium alloys are aluminum, manganese, rare earths, silicon, silver, thorium, zinc, and zirconium. Alloys are stronger than the pure metal, but have lower electrical and thermal conductivities.

1 - 11 of 11 results