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Publication numberUS1792082 A
Publication typeGrant
Publication dateFeb 10, 1931
Filing dateJan 13, 1926
Priority dateJan 13, 1926
Publication numberUS 1792082 A, US 1792082A, US-A-1792082, US1792082 A, US1792082A
InventorsColin G Fink, Pan Li Chi
Original AssigneeChemical Treat Company Inc
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
Metallic coating and process of producing the same
US 1792082 A
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Description  (OCR text may contain errors)

Feb. 10, 1931. c. G. FINK ET AL 1,792,082

METALLIC COATING AND PROCESS OF PRODUCING THE SAME Filed Jan. 13, 1926 NicKel T-o undaiwbn me kol 071 7'0 mium (Jo-w?! 1%.... ww

Patented Feb. 10, 1931 UNITED STATES PATENT OFFICE COLIN G. FINK AND LI CHI PAN, OF NEW YORK, N. Y., ASSIGNORS TO CHEMICAL TREATMENT COMPANY, INC., OF NEW YORK, N. Y., A CORPORATION OF NEW YORK METALLIC COATING AND PROCESS OF PRODUCING THE SAME Application filed January 13, 1926. Serial No. 81,099.

This invention relates to metallic coatings which are protective, resistant, decorative, refleeting, and to processes of producing the same, and aims to provide improvements therein. M

Fink (one of the present applicants) and associates, have heretofore produced resistant and protective coatings composed in whole or in part of chromium, and have devised several kinds of such coatings and several processes of producing the same. Decorative (including reflecting) coatings and processes of producing the same have also been devised. The present invention is the result of the continuation of their investigations in this direction, having for object to obtain a protective and resistant coating, a decorative coating, and a decorative and protective coating combining excellent qualities with an economical and readily performed procedure for obtaining such coatings. The present invention accordingly provides a coating having excellent protective and resistant properties (that is, resistance to corrosion, acids, wear), and/or excellent decorative and reflecting properties, and improved processes of producing such coatings carried out in readily performed operations and resulting in an economical production of such coatings.

The annexed drawing shows a form of embodiment of an article (sheet of metal) having thereon the decorative, protective and resistant coating, the drawing being explanatory and the thickness of the plates being exaggerated.

Accordin to the present invention, a foundation meta as for example iron, steel, etc, designated by the letter F on the accompanying drawing, is coated with nickel in any suitable manner, preferably by electrode osition, and if, as is usually the case, the nic el plate is brittle and not firmly adherent, the coating or plate is treated in suitable manner, as by heating, to make the nickel ductile and adherent.

The heating of the nickel-plated article is referably carried out in a neutral or reducmg atmosphere, so as to minimize the oxidation, and the heating is preferably carried to a red heat, in order to bring about an adhesion or alloying between the nickel plate and the foundation metal, and also to produce a healing of defects (usually designated pin holes) in the said plate.

The nickel plate N may be made of any desired thickness, but a thickness of about mill (.0005 inch) is ordinarily used.

If the nickel plate is of the quality which is adherent and without defects, heating might be omitted, but it is generally advisable to heat treat the nickel plate, as indicated above.

After the foundation metal F has been provided with the ductile and adherent coat or plate N of nickel, a plate C of chromium is plated on the nickel. Ordinarily, the chromium plate is .0003 to .0005 inch thick.

Oxidation of the nickel surface, which may be produced by heating or otherwise, is re moved prior to the deposit of the chromium. This de-oxidation is conveniently carried out in the chromium electroplating bath itself. Release or evolution of hydrogen is arranged to take place at thecathode, and when using chromic acid solutions such an evolution of hydrogen is made to take place therein. This evolution of hydrogen in electrolyzing with the chromic acid solutions is found to satisfactorily de-oxidize the nickel surface, and to result in the deposit of an adherent coat of chromium on the nickel, the quality of which chromium plate may be determined by the conditions of the plating. A brlght or lustrous chromium plate may be producedby following the process set forth in the Flnk application filed September 19, 1925, Serial No. 57,290.

By depositing such a brlght chromium plate, bright metal surfaces which are protected from and resistant to var ous COIIOSlVG conditions and agents, and acids, and very resistant to wear, are obtained Without unusual manufacturing expedients, such as grinding, polishing, etc. There 1s no necessar preparation of the article between the nic el plating bath, and the chromlum plating bath, except the usual and readily performed operation of heat treatment.

It has been found. that these reslstant coats of nickel and chromium give very nearly the same resistance to corrosive agents, acids, etc. as chromium coats from which the pinhole defects have been eliminated.

The invention has the advantage that the nickel adheres more readily to and alloys more readily with ferro metals than chr0- mium, that is, when the nickel has been produced or treated in a manner to eliminate the brittleness of ordinary electrodeposits of nickel plate. It has the further advantage that nickel oxidizes less extensively and readily at higher temperatures than chromium, and the further advantage that the oxide of nickel may be removed by hydrogen in electrolytic baths, whereas chromium oxide is not so affected.

Cobalt may be substituted for nickel and is included in the scope of the claims as the equivalent of nickel. I

By preparing the nickel plate, as by polishing, before depositing the chromium and by electrodepositing the chromium according to conditions of current density, temperature, etc., set forth in the application of Colin G. Fink, Serial No. 57,290, filed September 19th, 1925, a mirror-like, image reflecting surface may be obtained. By heat-treating the nickel plate, polishing and depositing thereon a chromium plate of the quality which is image-reflecting when deposited on a polished surface, mirrors and reflectors having a high reflecting value and especially suitable for outdoor use, are obtained. As a decorative surface, the resemblance of the present coatings is close to silver.

The process may be carried out by other modes of procedure than that herein specifically described, and the coatings may have other forms of embodiments than that specifically illustrated and described.

What is claimed is:

1. An article having a protective and resistant coating thereon, said coating comprising a heat-treated plate of nickel on the foundation metal of the article, and a plate of chromium on said plate of nickel.

2. An article having a. protective and resistant coating thereon, said. coating being bright, comprising a heat-treated plate of nickel on the foundation-metal of the article, and a plate of chromium on said plate of nickel.

3. A method of producing protective and resistant coatings on metal articles, comprising electrodepositing nickel on said article, heat-treating said nickel coat, removing oxidation of said nickel which may have resulted from heat treatment, and electrodepositing a plate of chromium on said nickel plate.

4. A method of producing protective and resistant coatings on metal articles, comprising electrodepositing nickel on said articles. heat-treating said nickel coat, and electrodepositing chromium on said nickel plate with signed our names.

COLIN G. FINK. LI CHI PAN.

Referenced by
Citing PatentFiling datePublication dateApplicantTitle
US2461935 *Jul 19, 1944Feb 15, 1949Int Nickel CoInsulated electrical resistances
US2534911 *Apr 3, 1948Dec 19, 1950Houdaille Hershey CorpProcess of removing hydrogen embrittlement of bright nickel electrodeposits
US2658266 *Aug 7, 1952Nov 10, 1953Harshaw Chem CorpLaminated coating
US2687565 *Feb 21, 1951Aug 31, 1954Clevite CorpMethod of bonding aluminum to steel
US2688405 *Aug 9, 1948Sep 7, 1954Sharples CorpCentrifuge construction for separating solids from liquids
US2714088 *Jan 8, 1952Jul 26, 1955Harshaw Chem CorpElectrodeposited coatings
US2752667 *Sep 6, 1950Jul 3, 1956Clevite CorpBearings
US2759250 *Feb 21, 1951Aug 21, 1956Clevite CorpMethod of bonding aluminum to steel and article produced thereby
US2763919 *Jul 28, 1950Sep 25, 1956Thompson Prod IncCoated refractory body
US2859158 *Jan 31, 1957Nov 4, 1958Glenn R SchaerMethod of making a nickel-chromium diffusion alloy
US2975513 *Nov 5, 1956Mar 21, 1961Smith Corp A OMethod of lining
US3064337 *May 19, 1958Nov 20, 1962Rockwell Standard CoComposite metal article
US3368949 *Jun 10, 1963Feb 13, 1968Bendix CorpProcess for electroforming inlaid circuits
US3420755 *Jan 13, 1964Jan 7, 1969Forges De La Loire Cie Des AteSurface treating process for metal parts
US3493476 *Nov 1, 1965Feb 3, 1970Avco CorpSulfidation and oxidation resistant coating
US4409881 *Sep 2, 1980Oct 18, 1983Fabrique Nationale HerstalComposite barrel and process for the manufacture thereof
US5607779 *Dec 21, 1993Mar 4, 1997Citizen Watch Co., Ltd.Hard carbon coating-clad base material
US6074766 *Jan 22, 1997Jun 13, 2000Citizen Watch Co., Ltd.Hard carbon coating-clad base material
US6180263Feb 17, 1998Jan 30, 2001Citizen Watch Co., Ltd.Hard carbon coating-clad base material
US6477759Jan 11, 2001Nov 12, 2002Bobby HuMethod for processing a hand tool
US6647834 *Jul 26, 2002Nov 18, 2003Bobby HuMethod for processing a hand tool
Classifications
U.S. Classification428/667, 428/935, 205/917, 76/4, 428/687, 76/DIG.400, 205/180, 428/680, 428/927
International ClassificationC25D5/14
Cooperative ClassificationY10S428/927, Y10S428/935, Y10S205/917, C25D5/14, Y10S76/04
European ClassificationC25D5/14