US1370967A - Ornamenting and protecting metal surfaces - Google Patents

Ornamenting and protecting metal surfaces Download PDF

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Publication number
US1370967A
US1370967A US235008A US23500818A US1370967A US 1370967 A US1370967 A US 1370967A US 235008 A US235008 A US 235008A US 23500818 A US23500818 A US 23500818A US 1370967 A US1370967 A US 1370967A
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metal
article
salt
film
solution
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US235008A
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Hommel Oscar
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    • CCHEMISTRY; METALLURGY
    • C23COATING METALLIC MATERIAL; COATING MATERIAL WITH METALLIC MATERIAL; CHEMICAL SURFACE TREATMENT; DIFFUSION TREATMENT OF METALLIC MATERIAL; COATING BY VACUUM EVAPORATION, BY SPUTTERING, BY ION IMPLANTATION OR BY CHEMICAL VAPOUR DEPOSITION, IN GENERAL; INHIBITING CORROSION OF METALLIC MATERIAL OR INCRUSTATION IN GENERAL
    • C23CCOATING METALLIC MATERIAL; COATING MATERIAL WITH METALLIC MATERIAL; SURFACE TREATMENT OF METALLIC MATERIAL BY DIFFUSION INTO THE SURFACE, BY CHEMICAL CONVERSION OR SUBSTITUTION; COATING BY VACUUM EVAPORATION, BY SPUTTERING, BY ION IMPLANTATION OR BY CHEMICAL VAPOUR DEPOSITION, IN GENERAL
    • C23C18/00Chemical coating by decomposition of either liquid compounds or solutions of the coating forming compounds, without leaving reaction products of surface material in the coating; Contact plating
    • C23C18/16Chemical coating by decomposition of either liquid compounds or solutions of the coating forming compounds, without leaving reaction products of surface material in the coating; Contact plating by reduction or substitution, e.g. electroless plating

Definitions

  • the invention described herein relates to an improvement in the method of the ornamenting of metal surfaces described and claimed in an application Serial Number 141,582 filed January 10th, 1917, and consists in forming thereon a thin film of another metal, such film having a bright lustrous surface of a coloring differing from that of the metal surface to which the film is applied.
  • the invention is hereinafter more fully described and claimed.
  • a salt of the metal of which the film is to be formed in a finely divided condition, is applied in a thin or attenuated layer On the surface of the article to be ornamented, such surface being in a highly heated condition, 6. 9., from about 450 to 7 50. degrees C. at the time of applying the salt, or brought to the high temperature mentioned after' the salt has been applied.
  • the salt employed should be of such a character as to be capable of being reduced to a metallic condition by the heat to which it is subjected. It has been found that the metallic film formed by the reduction of the salt, will adhere so tightly that the surface thus ornamented-may be bent without injury to the film.
  • metallic salts may be employed, as for example, iron chlorid, gold sulfid, uranium nitrate, copper acetate, etc., or a mixture of two or more of such salts.
  • the film should be quite thin, and to attain this result, the salt should be in as fine a state of division as possible, and the layers should be uniformly distributed on the surface of the article.
  • These conditions can be attained conveniently by dissolving the metal or saltof liquid, and the solution thus formed sprayed onto the metal or spread thereon with a brush. If it is desired to form a design, a
  • a convenient manner of preparing the salt for application to'the metal surface consists in mixing the salt with resin and dissolving the mixture in a solvent, as turpentine. Generally what is known and sold as liquid metallic lusters may be employed for formlng the layer on the surface of the metal article.
  • the desired lustrous effect is believed to be largely due to the attenuation of the metal film, and as the desired attenuation can be attained only by employing material in such a finely divided condition, to which it is impossible to reduce almost all metals, hence, a salt of the desired metal is dissolved in an inert carrier, which is applied to the surface of the article and the salt reduced to a metallic condition when the article, having the solution thereon, is subjected to a high temperature, as stated.
  • a foundation film consisting of a metal having an affinit for the metal of the article and that of the finishing film, the latter will withstand severe rubbing.
  • the salt of a metal having the characteristic above stated is dissolved in a liquid chemically combine with thesurface of the article.
  • the foundation film of bismuth and in such case nitrate of bismuth is employed to form the solution.
  • the solution may have sufficient consistency to form a continuous layer over the surface to which it is applied, flour, ocher, or other neutral material is added to the solution which is then so applied to the surface of the article by spraying or otherwise as to form an attenuated continuous layer.
  • the article with this layer thereon is subjected to sufficient heat to reduce the salt to a metallic state and the metal to form a thin continuous film on the surface.
  • the material used to thicken the solution and any undissolved salt is brushed off and a thin layer of the solution of the salt of the metal to which the final film is to be formed, is applied to the first or foundation film, as hereinbefore described and the article with such final layer thereon is subjected to sufficient heat to reduce all the salt held in solution on the article.
  • the attenuation of the film or films will be proportional to the quantity or thickness of the salt covering deposited on the evaporation of the solvent.
  • the thickness of such salt covering will be dependent upon the degree of saturation of the solution so that by adjusting the degree of saturation of the so lution, the thickness of the coating may be changed. If a relatively thick film or films are desired, successive applications of the respective solutions may be made, the second or third layer being applied after the preceding coat has dried or hardened.
  • a smooth polished lustrous surface is formed on the aluminum or metal containing aluminum, without any further treatment, and such sur face or film becomes so much an integral part of the metal ornamented, that the latter can be brought to any desired shape by mechanical manipulation without cracking or injuring the film.
  • he method herein described is not the mere duplication of steps for the purpose of obtaining a thickness of film, for the latter can be obtained by applying a layer of the solution to the article, allowing such layer to dry or harden and then applying a second or third layer.
  • the method herein described has the effect of producing a more durable and more firmly adherent film, which can not be effected by forming a plurality of layers of the solution and the reduction of the salt contained in such layers by a single heating.
  • the method ing on the surface of an article containing aluminum, a smooth, polished surface of another metal, which consists in applying a solution of a metallic salt to the surface of an article containing aluminum in suchmanner as to produce a thin layer of the salt, and subjecting the article so coated to sufficient heat to effect a reduction of such salt and the herein described of form-' adherence of the metal so freed to the underlying metal.
  • wvhich consists in applying to the surface of the article a thin layer of a solution of the salt of a metal differing from that of which the article is formed,'subjecting the article so coated to sufficient heat to effect a reduction of the salt and the adherence of the freed metal to the article, applying a layer of a solution of a salt of metal differing from that first employed to the previously formed film and again subjecting the article to a temperature sufficient to effect a reduction of the salt and the adherence .of the freed metal to the article.

Description

UNITED STATES PATENT OFFICE.
ORNAMENTING AND PROTECTING METAL SURFACES.
No Drawing. Application filed May 16, 1918, Serial No. 235,008.
Specification of Letters Patent.
Patented Mar. 8, 1921. Renewed August 5,, 1920. Serial No.
To all whom it may concern:
Be it known that I, OSCAR HoMMEL residing at Pittsburgh, in the county of Hegheny and State of Pennsylvania, 'a citizen of the United States, have invented or discovered certain new and useful Improvements in Ornamenting and Protecting Metal Surfaces, of which improvements the following is a specification.
The invention described herein relates to an improvement in the method of the ornamenting of metal surfaces described and claimed in an application Serial Number 141,582 filed January 10th, 1917, and consists in forming thereon a thin film of another metal, such film having a bright lustrous surface of a coloring differing from that of the metal surface to which the film is applied. The invention is hereinafter more fully described and claimed.
In the practice ofthe invention, a salt of the metal of which the film is to be formed, in a finely divided condition, is applied in a thin or attenuated layer On the surface of the article to be ornamented, such surface being in a highly heated condition, 6. 9., from about 450 to 7 50. degrees C. at the time of applying the salt, or brought to the high temperature mentioned after' the salt has been applied. The salt employed should be of such a character as to be capable of being reduced to a metallic condition by the heat to which it is subjected. It has been found that the metallic film formed by the reduction of the salt, will adhere so tightly that the surface thus ornamented-may be bent without injury to the film.
In ornamenting surfaces formed of aluminum or containing aluminum, a large variety of metallic salts may be employed, as for example, iron chlorid, gold sulfid, uranium nitrate, copper acetate, etc., or a mixture of two or more of such salts.
Generally the film should be quite thin, and to attain this result, the salt should be in as fine a state of division as possible, and the layers should be uniformly distributed on the surface of the article. These conditions can be attained conveniently by dissolving the metal or saltof liquid, and the solution thus formed sprayed onto the metal or spread thereon with a brush. If it is desired to form a design, a
which Will not the metal in' pattern is formed of rubber, the solution applied thereto and then transferred to the metal surface. The solvent employed should not chemically combine with the surface to which it is applied, but simply serve as a carrier. A convenient manner of preparing the salt for application to'the metal surface consists in mixing the salt with resin and dissolving the mixture in a solvent, as turpentine. Generally what is known and sold as liquid metallic lusters may be employed for formlng the layer on the surface of the metal article.
The desired lustrous effect is believed to be largely due to the attenuation of the metal film, and as the desired attenuation can be attained only by employing material in such a finely divided condition, to which it is impossible to reduce almost all metals, hence, a salt of the desired metal is dissolved in an inert carrier, which is applied to the surface of the article and the salt reduced to a metallic condition when the article, having the solution thereon, is subjected to a high temperature, as stated.
It has been found that if a foundation film consisting of a metal having an affinit for the metal of the article and that of the finishing film, the latter will withstand severe rubbing.- In forming this foundation film, the salt of a metal having the characteristic above stated, is dissolved in a liquid chemically combine with thesurface of the article. For example, if it be desired to apply a gold film to the surface of an article, it is preferred to form the foundation film of bismuth and in such case nitrate of bismuth is employed to form the solution. I In order that the solution may have sufficient consistency to form a continuous layer over the surface to which it is applied, flour, ocher, or other neutral material is added to the solution which is then so applied to the surface of the article by spraying or otherwise as to form an attenuated continuous layer. The article with this layer thereon 'is subjected to sufficient heat to reduce the salt to a metallic state and the metal to form a thin continuous film on the surface.- The material used to thicken the solution and any undissolved salt is brushed off and a thin layer of the solution of the salt of the metal to which the final film is to be formed, is applied to the first or foundation film, as hereinbefore described and the article with such final layer thereon is subjected to sufficient heat to reduce all the salt held in solution on the article.
The attenuation of the film or films will be proportional to the quantity or thickness of the salt covering deposited on the evaporation of the solvent. The thickness of such salt covering will be dependent upon the degree of saturation of the solution so that by adjusting the degree of saturation of the so lution, the thickness of the coating may be changed. If a relatively thick film or films are desired, successive applications of the respective solutions may be made, the second or third layer being applied after the preceding coat has dried or hardened. I
In the practice of the method, a smooth polished lustrous surface is formed on the aluminum or metal containing aluminum, without any further treatment, and such sur face or film becomes so much an integral part of the metal ornamented, that the latter can be brought to any desired shape by mechanical manipulation without cracking or injuring the film.
he method herein described is not the mere duplication of steps for the purpose of obtaining a thickness of film, for the latter can be obtained by applying a layer of the solution to the article, allowing such layer to dry or harden and then applying a second or third layer. The method herein described has the effect of producing a more durable and more firmly adherent film, which can not be effected by forming a plurality of layers of the solution and the reduction of the salt contained in such layers by a single heating. I claim herein as my invention: 1. The method ing on the surface of an article containing aluminum, a smooth, polished surface of another metal, which consists in applying a solution of a metallic salt to the surface of an article containing aluminum in suchmanner as to produce a thin layer of the salt, and subjecting the article so coated to sufficient heat to effect a reduction of such salt and the herein described of form-' adherence of the metal so freed to the underlying metal.
2. The method herein described of forming on the surface of a metal article, a smooth polished surface of another metal, which consists in applying a solution of a metallic salt to the surface of the article in such manner 'as to form a thin continuous layer of the solution, subjecting the article so coated to sufficient heat to effect a reduction of the salt,
and the adherence of the metal so freed to the surface of the article, applying another layer of a solution of a metallic salt to the surface of previously formed metallic film, and again subjecting the article to sufficient heat to effect a reduction of the salt in the second layer.
3. The method herein described of forming .on the surface of a metal article, a
smooth, polished surface of another metal,
wvhich consists in applying to the surface of the article a thin layer of a solution of the salt of a metal differing from that of which the article is formed,'subjecting the article so coated to sufficient heat to effect a reduction of the salt and the adherence of the freed metal to the article, applying a layer of a solution of a salt of metal differing from that first employed to the previously formed film and again subjecting the article to a temperature sufficient to effect a reduction of the salt and the adherence .of the freed metal to the article. i
4:. The method herein described of forming on the surface of a metal article, a smooth polished surface of another metal, which consists inapplying to the surface of the article a thin layer of a solution of a salt of said coating material, subjecting the article so coated to sufficient heat to effect a reduction of the salt and the adherence of the freed metal to the article, applying a-layer of a solution of a salt metal differing from that first employed to the previously formed film, and again-subjecting the articleto a temperature sufficient to effect a reduction of the salt and the adherence of the freed metal to the article.
In testimony whereof I have hereunto set my hand.
OSCAR HOMMEL.
US235008A 1918-05-16 1918-05-16 Ornamenting and protecting metal surfaces Expired - Lifetime US1370967A (en)

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Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2576129A (en) * 1944-12-20 1951-11-27 Levin Irvin Nonemitting electron tube grid
US2737463A (en) * 1952-04-19 1956-03-06 Gen Motors Corp Method of copperizing aluminum and aluminum alloys
US3096567A (en) * 1959-11-20 1963-07-09 Chrysler Corp Process and composition for metallizing aluminum with another metal
US3281264A (en) * 1963-01-31 1966-10-25 Coast Metals Inc Method of gold-plating aluminum
US4818568A (en) * 1985-08-29 1989-04-04 Nisshin Steel Co., Ltd. Hot dip coated steel sheet and process for producing the same

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2576129A (en) * 1944-12-20 1951-11-27 Levin Irvin Nonemitting electron tube grid
US2737463A (en) * 1952-04-19 1956-03-06 Gen Motors Corp Method of copperizing aluminum and aluminum alloys
US3096567A (en) * 1959-11-20 1963-07-09 Chrysler Corp Process and composition for metallizing aluminum with another metal
US3281264A (en) * 1963-01-31 1966-10-25 Coast Metals Inc Method of gold-plating aluminum
US4818568A (en) * 1985-08-29 1989-04-04 Nisshin Steel Co., Ltd. Hot dip coated steel sheet and process for producing the same

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