US1805982A - Method of and material for preventing metal from corroding - Google Patents

Method of and material for preventing metal from corroding Download PDF

Info

Publication number
US1805982A
US1805982A US425822A US42582230A US1805982A US 1805982 A US1805982 A US 1805982A US 425822 A US425822 A US 425822A US 42582230 A US42582230 A US 42582230A US 1805982 A US1805982 A US 1805982A
Authority
US
United States
Prior art keywords
metal
corroding
phosphoric acid
phosphate
admixture
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
US425822A
Inventor
James H Gravell
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Henkel Corp
Original Assignee
Amchem Products Inc
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Amchem Products Inc filed Critical Amchem Products Inc
Priority to US425822A priority Critical patent/US1805982A/en
Application granted granted Critical
Publication of US1805982A publication Critical patent/US1805982A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Classifications

    • 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
    • C23C22/00Chemical surface treatment of metallic material by reaction of the surface with a reactive liquid, leaving reaction products of surface material in the coating, e.g. conversion coatings, passivation of metals
    • C23C22/73Chemical surface treatment of metallic material by reaction of the surface with a reactive liquid, leaving reaction products of surface material in the coating, e.g. conversion coatings, passivation of metals characterised by the process
    • C23C22/74Chemical surface treatment of metallic material by reaction of the surface with a reactive liquid, leaving reaction products of surface material in the coating, e.g. conversion coatings, passivation of metals characterised by the process for obtaining burned-in conversion coatings

Definitions

  • This invention relates to the art of preventing metal from .corrodmg and has to do with a self-cleaning paint-like material or .coating adapted for finishing fabricated metal, and according to my invention this is done by the application and heating of anadmixtureadapted, uponthe' application of heat, to liberate both cleaning acid, and a substance with which and with the metal the liberated acid chemically reacts, forming a protective finish which remainson the metal.
  • the invention comprises the improvements to befpresently described and finally claimed and generally stated it consists in forming a protective coating'on metal, particularly steel, by applying an admixture comprising a thermally decomposable phosphate and a neutralizer for phosphoric acid, to the metal, then heating the metal to l1berate phosphoric acid and permit it to attack the neutralizer and the metal to' form the protective coating.
  • the thermally decomposable phosphate may be an inorganic one like ammonium 4.3 phosphate, or an organic one like aniline phosphate and the neutralizer for phosphoric acid may be any suitable material for accomplishing my purposes, but Iprefer a water insoluble metallic oxide such as the oxide of manganese, magnesium, zincor iron; or it may 1 Application flied February '4, 19am Serial 1%. 425,822.
  • dianiline phosphate as the decomposable phosphate
  • iron oxide Fe O as the neutral izer for phosphoric acid
  • a very satisfactory material is made by dissolving varnish gums'su'ch as gils'onite and stearine pitch in kerosene to form a varnish and then admixingit with the above described powder -to form a paint-like product having the following composition:
  • the coating on steel produced by the above admixture, used as described, is darkred, or, black, has a glossy appearance, has suiiieient hardness to resist scratching with the finger nail, is flexible enough to Withstand sharp bends and shows great resistance to corrosion when subjected to humidity or salt spray tests.
  • one or more coats of paint, lacquer, varnish, or japan may be applied over the prime coating described, for decoration or to augment the resistance to corrosion.
  • a material for preventing metal from corroding being an admixture of a material adapted tolibera-te phosphoric acid upon the application of heat and a neutralizer for phosphoric acid.
  • a material for preventing metalfrom corroding being an admixture comprising a thermally decomposable phosphate and a neutralizer' for phosphoric acid.
  • a material for preventing metal from 9 corroding being an admixture comprising a thermally decomposable phosphate, a neutralizer for phosphoric acid and a vehicle.
  • a material for preventing metal from corroding being an admixture comprising a thermally decomposable. phosphate, a neutralizer for phosphoric acid, a vehicle and'a varnish gum. v
  • a material for preventing metal from corroding being an admixture comprising aniline phosphate, a neutralizer for phosphoric acid, a vehicle and a varnish gum.
  • a material for preventing metal from corroding being an admixture comprising a thermally decomposable phosphate, iron oxide, a vehicle and a varnish gum.
  • a material for preventing metal from corrodmg being an admlxture comprlslng a thermally decomposable phosphate, a neutralizer for phosphoric acid, a liquid hydro- 9 carbon and a varnish gum.
  • a material for preventing metal from corroding being an admixture comprising a thermally decomposable phosphate, :1. neutralizer for phosphoric acid, a vehicle and stearine pitch.
  • a material for preventing metal from corroding being an admixture comprising aniline phosphate, iron oxide, a liquid bydrocarbon and stearine pitch.
  • the method of preventing metal from corroding comprising applying to said metal an admixture comprising a material adapted to liberate phosphoric acid upon the application of heat and aheutralizer for phosphoric acid, and heating the coating to liberate phosphoric acid and permit it to combine With the said neutralizer and the said metal, to form a protective coating for the said metal.
  • the method of preventing metal from corroding comprising applying to the said metal an admixture comprising a thermally decomposable phosphate and a neutralizer for phosphoric acid, and heating the coated metal to liberatephosphoric acid and permit it to combine with-the said neutralizer and the said metal, to form a protective coating for the said metal.
  • the method'of preventing metal 'from corroding comprising applying to the said metal an admixture comprising aniline phosphate and a neutralizer for phosphoric acid, and heating the coated metal to liberate phosphoric acid and permit it to combine with the said neutralizer and the said metal to form a protective coating for the said metaL.
  • the method of preventing metal ,from corroding comprising applying to the said metal an admixture comprising a thermally decomposable phosphate and iron oxide, and heating the coated metal to liberate phosphoric acid and permit it to combine with the said iron oxide and the said metal to form a protective coating for the said metal.
  • the method of preventing metal from corroding comprising applying to the said metal an admixture comprising aniline phosphate and iron oxide, and heating the coated. metal to liberate phosphoric acid and permit it to combine with the said ironoxide and the said metal to form a protective coating for the said metal.

Description

Patented as 19.1933.
UNITED-STATES PA NT o F'Ic auras a. enema, or ELxms max, rannsvnvmm, assmnon "r macaroni:
03mm. mm'r comm, or Alumna, rnmrsnvanm, A 'comoaarxon or DELAWARE zeta-anon or ANDY m'rnamr. FOR eanvnnma man 'raom conaonrnc no Drawing.
4 This invention relates to the art of preventing metal from .corrodmg and has to do with a self-cleaning paint-like material or .coating adapted for finishing fabricated metal, and according to my invention this is done by the application and heating of anadmixtureadapted, uponthe' application of heat, to liberate both cleaning acid, and a substance with which and with the metal the liberated acid chemically reacts, forming a protective finish which remainson the metal.
Other objects of the invention are: to overcome the necessity of preparing metal for painting; to reduce the cost of painting metal; to reduce the number of operations required in painting 'metalyto improve the quality of painted finishes; to increase the life of painted finishes and. to generally 1mprove the art of preventing metals from corroding.
The invention comprises the improvements to befpresently described and finally claimed and generally stated it consists in forming a protective coating'on metal, particularly steel, by applying an admixture comprising a thermally decomposable phosphate and a neutralizer for phosphoric acid, to the metal, then heating the metal to l1berate phosphoric acid and permit it to attack the neutralizer and the metal to' form the protective coating.
The thermally decomposable phosphate may be an inorganic one like ammonium 4.3 phosphate, or an organic one like aniline phosphate and the neutralizer for phosphoric acid may be any suitable material for accomplishing my purposes, but Iprefer a water insoluble metallic oxide such as the oxide of manganese, magnesium, zincor iron; or it may 1 Application flied February '4, 19am Serial 1%. 425,822.
be finely divided metal such as iron, aluminum or zinc. Of course these neutralizers may be used individually or collectively. In the following specification I will select dianiline phosphate asthe decomposable phosphate, and iron oxide (Fe O as the neutral izer for phosphoric acid as I find these materials produce satisfactory commercial admixturesalthough it should be understood that other materials may be used without departing from my invention.
To produce a satisfactory material I may use 4 Dianiline phosphate L 6.44 pounds Iron oxide (F6203) 1.60 pounds .Both ingredients are finely divided and thoroughly admixed and may be applied to the metal as a dusting powder. If the metal is first heated to a-suliicient temperature to melt the aniline phosphate, adhesion of the powder to the metal is immediately secured and a more even coating obtained. Or water may be added to the powder to form a paste or more water may be added to form a material .of paint-like constituency. Other'vehicles besides the water may be employed i desired, such as denatured, ethyl, methyl, butyl, propal alcohol;fhydrocarbon oils or solvents; paints or varnishes.
A very satisfactory material is made by dissolving varnish gums'su'ch as gils'onite and stearine pitch in kerosene to form a varnish and then admixingit with the above described powder -to form a paint-like product having the following composition:
Dianiline phosphate 6.44 pounds Iron oxide (Fe O 1.60 pounds Kerosene 6.87 gallons Stearine pitch 8.69 pounds Gilsonite ..a 9.81 pounds It is well to thoroughly grind the admixture in a suitable paint mill and themsieve or centrifuge out all undesired-specks to insurea finished coatingon' the metal free from objectionable blemishes.
Before applying this admixture to the metal as, for instance, a sheet steel automobile fender, it is well to free it from extrabrushing s am in" or di in. and after the coated metal has been permitted to drain and air dry for a short time, say approximately ten minutes, it is placed in an oven heated sufiiciently to decompose the aniline phosphate, and kept there suiiiciently long to complete the chemical action between the liberated phosphoric acid and the iron' oxide 1 and the metal. In practice, I have found that a. temperature of 450 F. for a period ofv 30 minutes produces satisfactory results.
The coating on steel produced by the above admixture, used as described, is darkred, or, black, has a glossy appearance, has suiiieient hardness to resist scratching with the finger nail, is flexible enough to Withstand sharp bends and shows great resistance to corrosion when subjected to humidity or salt spray tests.
If desired, one or more coats of paint, lacquer, varnish, or japan may be applied over the prime coating described, for decoration or to augment the resistance to corrosion.
I claim:
1. A material for preventing metal from corroding being an admixture of a material adapted tolibera-te phosphoric acid upon the application of heat and a neutralizer for phosphoric acid.
2. A material for preventing metalfrom corroding, being an admixture comprising a thermally decomposable phosphate and a neutralizer' for phosphoric acid.
3. A material for preventing metal from 9 corroding being an admixture comprising a thermally decomposable phosphate, a neutralizer for phosphoric acid and a vehicle.
4. A material for preventing metal from corroding, being an admixture comprising a thermally decomposable. phosphate, a neutralizer for phosphoric acid, a vehicle and'a varnish gum. v
5. A material for preventing metal from corroding, being an admixture comprising aniline phosphate, a neutralizer for phosphoric acid, a vehicle and a varnish gum.
6. A material for preventing metal from corroding, being an admixture comprising a thermally decomposable phosphate, iron oxide, a vehicle and a varnish gum.
7 A material for preventing metal from corrodmg, being an admlxture comprlslng a thermally decomposable phosphate, a neutralizer for phosphoric acid, a liquid hydro- 9 carbon and a varnish gum.
8. A material for preventing metal from corroding, being an admixture comprising a thermally decomposable phosphate, :1. neutralizer for phosphoric acid, a vehicle and stearine pitch.
9. A material for preventing metal from corroding, being an admixture comprising aniline phosphate, iron oxide, a liquid bydrocarbon and stearine pitch.
10. The method of preventing metal from corroding, comprising applying to said metal an admixture comprising a material adapted to liberate phosphoric acid upon the application of heat and aheutralizer for phosphoric acid, and heating the coating to liberate phosphoric acid and permit it to combine With the said neutralizer and the said metal, to form a protective coating for the said metal.
11. The method of preventing metal from corroding, comprising applying to the said metal an admixture comprising a thermally decomposable phosphate and a neutralizer for phosphoric acid, and heating the coated metal to liberatephosphoric acid and permit it to combine with-the said neutralizer and the said metal, to form a protective coating for the said metal.
12. The method'of preventing metal 'from corroding, comprising applying to the said metal an admixture comprising aniline phosphate and a neutralizer for phosphoric acid, and heating the coated metal to liberate phosphoric acid and permit it to combine with the said neutralizer and the said metal to form a protective coating for the said metaL.
13. The method of preventing metal ,from corroding, comprising applying to the said metal an admixture comprising a thermally decomposable phosphate and iron oxide, and heating the coated metal to liberate phosphoric acid and permit it to combine with the said iron oxide and the said metal to form a protective coating for the said metal.
14. The method of preventing metal from corroding, comprising applying to the said metal an admixture comprising aniline phosphate and iron oxide, and heating the coated. metal to liberate phosphoric acid and permit it to combine with the said ironoxide and the said metal to form a protective coating for the said metal. 7
JAMES H. GRAVELL.
US425822A 1930-02-04 1930-02-04 Method of and material for preventing metal from corroding Expired - Lifetime US1805982A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US425822A US1805982A (en) 1930-02-04 1930-02-04 Method of and material for preventing metal from corroding

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US425822A US1805982A (en) 1930-02-04 1930-02-04 Method of and material for preventing metal from corroding

Publications (1)

Publication Number Publication Date
US1805982A true US1805982A (en) 1931-05-19

Family

ID=23688172

Family Applications (1)

Application Number Title Priority Date Filing Date
US425822A Expired - Lifetime US1805982A (en) 1930-02-04 1930-02-04 Method of and material for preventing metal from corroding

Country Status (1)

Country Link
US (1) US1805982A (en)

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2501846A (en) * 1945-10-03 1950-03-28 Armco Steel Corp Production of silicon steel sheet stock having the property of high surface resistivity
US2766154A (en) * 1952-03-26 1956-10-09 Parker Rust Proof Co Method of coating metals with amine phosphate coating and composition therefor
US2766153A (en) * 1952-03-26 1956-10-09 Parker Rust Proof Co Method of coating metals with amine phosphate coating and composition therefor
US2769737A (en) * 1952-03-26 1956-11-06 Parker Rust Proof Co Amine phosphate coating solutions and method of coating
US2901438A (en) * 1956-10-25 1959-08-25 Union Carbide Corp Corrosion inhibitors
US2979430A (en) * 1955-06-04 1961-04-11 Parker Rust Proof Co Heat resistant phosphate coatings, methods and articles produced therefrom

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2501846A (en) * 1945-10-03 1950-03-28 Armco Steel Corp Production of silicon steel sheet stock having the property of high surface resistivity
US2766154A (en) * 1952-03-26 1956-10-09 Parker Rust Proof Co Method of coating metals with amine phosphate coating and composition therefor
US2766153A (en) * 1952-03-26 1956-10-09 Parker Rust Proof Co Method of coating metals with amine phosphate coating and composition therefor
US2769737A (en) * 1952-03-26 1956-11-06 Parker Rust Proof Co Amine phosphate coating solutions and method of coating
US2979430A (en) * 1955-06-04 1961-04-11 Parker Rust Proof Co Heat resistant phosphate coatings, methods and articles produced therefrom
US2901438A (en) * 1956-10-25 1959-08-25 Union Carbide Corp Corrosion inhibitors

Similar Documents

Publication Publication Date Title
US4265936A (en) Vehicle refinishing process
JP3184614B2 (en) Corrosion protection coating method for steel
US1805982A (en) Method of and material for preventing metal from corroding
JPS6031903B2 (en) Composition for metal surface treatment and method thereof
US2201981A (en) Protective coating
JP2003301274A (en) Surface-treated metallic material
JPS593230B2 (en) Method for manufacturing metal substrates with enhanced erosion-resistant coatings
US1837430A (en) Method of preparing metal for painting
JPS6162568A (en) Method of preventing steel material corrosion
US2486664A (en) Rustproof coating of ferrous metals
US4020220A (en) Composite coating having enhanced corrosion resistance
US1647666A (en) Painting process and composition therefor
US4724249A (en) Compositions for rust treatment
US1565536A (en) Process of removing rust
US1926766A (en) Rust proofing composition and method of producing the same
US1906436A (en) Process of securing rubber to iron or steel
US1872614A (en) Coating for ferrous metals
US3019118A (en) Composition for anti-corrosion coating and method of preparing same
Winston et al. Surface Preparation and Painting of Magnesium Alloys
DE1191200B (en) Process for the formation of coatings on metal surfaces
JPH0214252A (en) Powder coating compound composition for undercoating
US2081160A (en) Method and material for coating metal
GB2138703A (en) Process for protecting metals against corrosion
DE624822C (en) Process for the production of coatings from lacquers, stand oils, lacquer and stand oil paints
AT133119B (en) Coating compound for the production of anti-corrosive coatings on metals and processes for their application.