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FORD WSS-M3B73-A3 - PHOSPHATE SOLUTION, ZINC, NICKEL FREE, FEED MATERIAL - SHOWN ON WSS-M3B73-A1 Organization: FORD
Date: 1998-06-24
Description: SCOPE The materials defined by these specifications are the basic components for the automotive Ni free Zinc phosphating process, containing essentially Zinc Phosphate..
FORD - WSS-M3B73-A3 - PHOSPHATE SOLUTION, ZINC, NICKEL FREE, FEED MATERIAL ***TO BE USED WITH FORD WSS-M99P1111-A*** - SHOWN ON WSS-M3B73-A1 Organization: FORD
Date: 2003-03-31
Description: SCOPE The materials defined by these specifications are the basic components for the automotive Ni free Zinc phosphating process, containing essentially Zinc Phosphate.
FORD WSS-M3B73-A1 - PHOSPHATE SOLUTION, ZINC, NICKEL FREE, INITIAL FILL ***TO BE USED WITH FORD WSS-M99P1111-A*** Organization: FORD
Date: 2003-03-31
Description: SCOPE The materials defined by these specifications are the basic components for the automotive Ni free Zinc phosphating process, containing essentially Zinc Phosphate.
FORD WSS-M12A4-A2 - LUBRICANT, SOLID FILM, HIGH TEMPERATURE ANTISEIZE (NICKEL FREE) ***TO BE USED WITH FORD WSS-M99P1111-A*** Organization: FORD
Date: 2005-02-10
Description: The material defined by this specification is a metal-free, semi-synthetic lubricating paste containing inorganic lubricants and other additives to provide good adhesion to substrates and high temperature performance without the use of toxic metal powders.
FORD WSS-M21P25-B1 - CORROSION PROTECTIVE COATING, ZINC NICKEL ALLOY, CHROMIUM-FREE PASSIVATE, U.V. RESISTANT BLACK SEALER ***TO BE USED WITH FORD WSS-M99P1111-A*** Organization: FORD
Date: 2006-02-20
Description: The materials consist of an alkaline zinc nickel alloy electro-deposit, followed by a chromium-free passivate, with the addition of a water soluble organic sealer designed to provide consistent torque-tension control and impart other desirable properties (i.e. additional corrosion protection, ultra violet protection, etc.).
NPFC - MIL-S-16598 - STEEL BAR (LOW EXPANSION,FREE CUTTING,36% NICKEL) Organization: NPFC
SAE B737 - MAINTENANCE - FREE BATTERIES - LEAD-ACID, NICKEL/CADMIUM, NICKEL/METAL HYDRIDE Organization: SAE
FORD WSS-M1A343-A2 - STEEL, ZINC/NICKEL PLATED, IMMERSION COATED, HEXAVALENT CHROMIUM FREE ***TO BE USED WITH FORD WSS-M99P1111-A*** Organization: FORD
Date: 2011-02-24
Description: The material defined by this specification is a low carbon steel sheet coated on both sides with an electrolytic zinc/nickel alloy. The coated sheet is formed into a component, which then goes through a pretreatment and an immersion organic top coating to produce a duplex system.
BSI - BS 2S 137 - HIGH CHROMIUM-NICKEL CORROSION-RESISTING STEEL BRIGHT BARS (FREE MACHINING) - (880 - 1080 MPA: LIMITING RULING SECTION 70 MM) Organization: BSI
Date: 1976-08-31
SAE AMS4674 - NICKEL - COPPER ALLOY, CORROSION-RESISTANT, BARS AND FORGINGS 67NI - 30CU - 0.04S FREE MACHINING - UNS N04405 Organization: SAE
Date: 2006-09-01
Description: Form This specification covers a corrosion-resistant nickel-copper alloy in the form of bars, forgings, and forging stock.
ASTM F2082 - STANDARD TEST METHOD FOR DETERMINATION OF TRANSFORMATION TEMPERATURE OF NICKEL- TITANIUM SHAPE MEMORY ALLOYS BY BEND AND FREE RECOVERY Organization: ASTM
Date: 2015-05-01
Description: This test method describes a procedure for determining the martensite-to-austenite transformation temperatures of either fully annealed or heat-treated nickel titanium alloys by measuring the deformation recovered during the thermal transformation.
ASTM F2082/F2082M - STANDARD TEST METHOD FOR DETERMINATION OF TRANSFORMATION TEMPERATURE OF NICKEL- TITANIUM SHAPE MEMORY ALLOYS BY BEND AND FREE RECOVERY Organization: ASTM
Date: 2016-04-01
Description: This test method describes a procedure for determining the martensite-to-austenite transformation temperatures of either fully annealed or heat-treated nickel titanium alloys by measuring the deformation recovered during the thermal transformation.
SEMI P17 - DETERMINATION OF IRON, ZINC, CALCIUM, MAGNESIUM, COPPER, BORON, ALUMINUM, CHROMIUM, MANGANESE, AND NICKEL IN POSITIVE PHOTORESIST METAL ION FREE (MIF) DEVELOPERS BY INDUCTIVELY COUPLED PLASMA EMISSION SPECTROSCOPY (ICP) Organization: SEMI
ASTM F2082/F2082M + RL - STANDARD TEST METHOD FOR DETERMINATION OF TRANSFORMATION TEMPERATURE OF NICKEL-TITANIUM SHAPE MEMORY ALLOYS BY BEND AND FREE RECOVERY - INCLUDES STANDARD + REDLINE (PDF) Organization: ASTM
BSI - BS 3727-16 - METHODS FOR THE ANALYSIS OF NICKEL FOR USE IN ELECTRONIC TUBES AND VALVES - PART 16: DETERMINATION OF COMBINED AND FREE MAGNESIUM Organization: BSI
Date: 1966-02-17
DELPHI-I - DELPHI DX551300 - CORROSION PROTECTIVE COATINGS – ZINC ALLOY PLATING (HEXAVALENT CHROMIUM FREE) Organization: DELPHI-I
Date: 2011-12-01
Description: All zinc alloy surface treatments and post treatments must be hexavalent chromium free. Five alloy platings are covered by this specification: zinccobalt, zinc-nickel [standard], zinc-nickel [high nickel content], zinc-iron and zinc-cobalt-iron.
ASTM F1684 - STANDARD SPECIFICATION FOR IRON-NICKEL AND IRON-NICKEL-COBALT ALLOYS FOR LOW THERMAL EXPANSION APPLICATIONS Organization: ASTM
Date: 2006-06-01
Description: The two iron-nickel alloys, both containing nominally 36 % nickel and 64 % iron, with the conventional alloy designated by UNS No. K93603, and the free-machining alloy designated as UNS No. K93050. The iron-nickel-cobalt alloy, containing nominally 32 % nickel, 5 % cobalt and 63 % iron, is designated by UNS No.
DIN 50979 - METALLIC COATINGS - ELECTROPLATED ZINC AND ZINC ALLOY COATINGS ON IRON OR STEEL WITH SUPPLEMENTARY CR(VI)-FREE TREATMENT Organization: DIN
Date: 2008-07-01
Description: This standard applies to electrodeposited zinc and zinc-alloy coatings on iron and steel with Cr(VI)-free passivation. The zinc-alloy coatings contain nickel or iron as alloying agents (referred to as zinc/nickel and zinc/iron coatings, respectively).
ISO - 19598 - METALLIC COATINGS - ELECTROPLATED COATINGS OF ZINC AND ZINC ALLOYS ON IRON OR STEEL WITH SUPPLEMENTARY CR(VI)-FREE TREATMENT - FIRST EDITION Organization: ISO
Date: 2016-11-15
Description: This International Standard applies to electrodeposited zinc and zinc-alloy coatings on iron and steel with Cr(VI)-free passivation. The zinc-alloy coatings contain nickel or iron as alloying elements (referred to as zinc/nickel and zinc/iron coatings, respectively).
CEN - EN ISO 19598 - METALLIC COATINGS - ELECTROPLATED COATINGS OF ZINC AND ZINC ALLOYS ON IRON OR STEEL WITH SUPPLEMENTARY CR(VI)-FREE TREATMENT Organization: CEN
Date: 2016-11-01
Description: This International Standard applies to electrodeposited zinc and zinc-alloy coatings on iron and steel with Cr(VI)-free passivation. The zinc-alloy coatings contain nickel or iron as alloying elements (referred to as zinc/nickel and zinc/iron coatings, respectively).

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