US1997007A - Method of preparing and nitriding a ferrous article - Google Patents
Method of preparing and nitriding a ferrous article Download PDFInfo
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- US1997007A US1997007A US741514A US74151434A US1997007A US 1997007 A US1997007 A US 1997007A US 741514 A US741514 A US 741514A US 74151434 A US74151434 A US 74151434A US 1997007 A US1997007 A US 1997007A
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- ferrous
- nitrogen
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- C—CHEMISTRY; METALLURGY
- C23—COATING 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
- C23C—COATING 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
- C23C12/00—Solid state diffusion of at least one non-metal element other than silicon and at least one metal element or silicon into metallic material surfaces
- C23C12/02—Diffusion in one step
Definitions
- My improved method consists in impregnating the surface of the ferrous article to be treated to a suitable depth with a metal or alloy affinity for nitrogen. The article thus treated is then subjected to the action of nitrogen so that a hard nitrided surface will be obtained on the article and whereby the core or center of the article will be practically untreated and will retain the characteristics due to its original composition or alloy.
- My method may be carried out as follows:-
- I can increase both the depth and amount of the impregnation of the ferrous article by subjecting the bath of molten metal having aihnity for nitrogen, to the action of nitrogen on the surface of the bath.
- the improved method may be carried out by many forms of apparatus, a preferred form being illustrated in the accompanying sheet of drawing forming part of this application for patent.
- Fig. l is a cross sectional elevation
- Fig. 2 is a plan view of the apparatus shown in Fi 1.
- A designates a heating chamber
- B a suitable crucible which can be placed in the chamber A, the crucible having lugs G which position the same in the heating chamber.
- Gas pipes DD extend through the walls of the chamber A and a mixture of air and gas may be lead through these pipes, tangentially into the annular space between the heating chamber and crucible so that the metal in the crucible can be kept in molten condition and at a suitable temperature.
- E designates a cover plate which is adapted to rest upon the top rim of the crucible B.
- This cover plate may be tightly clamped to the top of the crucible by screws F, which are pivoted in the lugs G on the crucible and which screws fit between ears C formed on the rim of the cover plate E, nuts H being threaded on the screws FL k A packing or bearing washer may be placed on top of the crucible.
- Extending from the cover plate is a notched flange K for holding the fer-' rous articles to be treated.
- These shafts or ferrous articles tobe treated when placed in position should be very hot, pref erably heated to a temperature above 1200 Fahrenheit. This temperature can be obtained by taking the articles while they are hot from forg- 50 mg or casting or they can be heated to the desired temperature before being placed in the notches.
- the crucible is filled with a bath of molten metal or alloy having amnity for nitrogen.
- the 5 metal or alloy thus employed is preferably aluminum or any alloy that is known in the art as useful for affecting nitrogenization.
- This bath is kept at the proper temperature 5 by the gas jets DD previously described.
- the cover plate is then placed in position on the crucible and tightly clamped thereto so that the hot ferrous articles will be immersed or dipped in the bath of molten metal.
- the articles are kept in the bath a suitable length of time.
- the metal or alloy having affinity for nitrogen will penetrate to a sufficient depth into the surface of the ferrous articles being treated to permit them to be nitrided after being machined to size.
- the cover plate E has a pipe M extending through the same, which pipe has a valve M.
- the cover plate E also has a pipe N provided with a valve N extending through the same.
- the air in the top of the crucible above the bath may be withdrawn through the pipe M and nitrogen in proper form, i. e., nascent, or dissociated or in the form of ammonia may be introduced through the pipe N.
- nitrogen in proper form i. e., nascent, or dissociated or in the form of ammonia
- the surface impregnation is started toward nitridation.
- I may, if desired, apply free nitrogen to the articles after they are removed from the bath.
- the cover plate is removed and the ferrous articles are allowed to cool. They then may be subjected to a finishing process such as grinding or machining to get the same to exact size.
- Impregnation of surfaces not to be nitrided later may be prevented by protecting said surfaces by a suitable plating or paint. This also ,can be done after impregnation and before the time for nitridation.
- all of the surfaces of the cam shafts under treatment in the apparatus, except the bearing surfaces may be protected so that the only surfaces "which will be hardened or nitrided will be the bearings and thecams.
- the nitrogen will unit with the metal having an affinity for nitrogen which has impregnated into the surface of the ferrous article.
- a ferrous article will be produced having any desired ferrous composition in its core and having a hard nitrided surface or surfaces.
- This article will thus have the advantages previously described, and is particularly adapted for heat treatment.
- the method of nitriding a ferrous article which consists in immersing the article while heated in a bath of molten metal having aflinity for nitrogen and comprising a major portion of aluminum, to obtain a surface impregnation of the ferrous article with said aluminum or aluminum alloy, subjecting the bath to the action of nitrogen by introducing a stream of nitrogen thereto in a substantially closed container, and thereby displacing gases above the molten metal, removing the article from the bath and thereafter hardening the surface thereof by nitridation.
- the method of nitriding a ferrous article which consists in heating the article to a temperature of at least 1200 F., and immersing the article while heated in a bath of molten metal having affinity for nitrogen and comprising a major portion of aluminum, to obtain a surface impregnation of the ferrous article with said aluminum or aluminum alloy, subjecting the bath to the action of nitrogen by introducing a stream of nitrogen thereto in a substantially closed container, and thereby displacing gases above the molten metal, removing thearticle from the bath and thereafter hardening the surface thereof by nitridation.
- the method of treating a ferrous article which consists in heating the article to a temperature of at least 1200 F., and inunersing the article while heated ina bath of molten metal having affinity for nitrogen and composed at least in part of aluminum, to obtain a surface impregnation of the ferrous article with said metal, withdrawing the air from the surface of the bath during immersion and thereafter removing the article from the bath and subjecting same to hardening by nitridation.
- the method of treating a ferrous article which consists in heating the article to a temperature of at least 1200 F., and immersing the article while heated in a bath of molten metal having aflinity for nitrogen and composed at least in part of aluminum, to obtain a surface impregnation of the ferrous article with said metal, withdrawing the air and supplying nitrogen to the top of the bath during immersion and thereafter removing the article from the bath and subjecting same to hardening by nitridation.
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- Chemical & Material Sciences (AREA)
- Chemical Kinetics & Catalysis (AREA)
- Engineering & Computer Science (AREA)
- Materials Engineering (AREA)
- Mechanical Engineering (AREA)
- Metallurgy (AREA)
- Organic Chemistry (AREA)
- Solid-Phase Diffusion Into Metallic Material Surfaces (AREA)
- Coating With Molten Metal (AREA)
Description
April 9, '1935.
A. w. MORRIS METHOD OF PREPARING AND NITRIDING A FERROUS ARTICLE Original Filed Dec. 17, 1931 1 Mof 6am @1 F Mg V M J 1/ J i v y U m N \I W/ M 7 Patented Apr. 9,1935
UNITED STATES gnaw:
PAT
NT OFFiCE METHOD OF PREPARWG AND NH'ERIDING A FERROUS AETECLE Original application December 17, 193i, Seriai No. 581,701. Divided and this application August 25, 1934,,Serial No. 741,514
paring and nitriding a ferrous article, the present case being a divisional application of my co= pending application, Serial No.'58l,701, flled December 17, 1931.
Heretofore, so far as I am informed, in preparing a ferrous article for surface nitrogenization, all the metal in the article has been made of the same mixture or alloy. In other words. to get a surface suitable for nitridation, the entire piece has been made of a nitridable alloy or of the same composition throughout its mass.
This generally is a disadvantage, first because of the cost, and second because the elements included in the article to make it nitridable are usually detrimental to the texture of the article and often interfere with or prevent heat treatment.
My improved method consists in impregnating the surface of the ferrous article to be treated to a suitable depth with a metal or alloy affinity for nitrogen. The article thus treated is then subjected to the action of nitrogen so that a hard nitrided surface will be obtained on the article and whereby the core or center of the article will be practically untreated and will retain the characteristics due to its original composition or alloy.
By my method almost any ferrous alloy having good properties of strength and that will be insensible to-tempering brittleness can be used, thus insuring better castings, iorgings and permitting heat treatment of ferrous articles having nitrided surfaces.
My method may be carried out as follows:-
After making the'ferrous article in the form desired, either by casting or Iorging I immerse or dip it, while hot, and preferably'heated to a temperature above 1200 Fahrenheit, in a bath of molten metal having aflinity for nitrogen. This bath is preferably molten aluminum either pure or alloyed witlr zirconium, titanium, chromium, vanadium, magnesium, beryllium, silicon,
nickel, molybdenum, manganese, or any desired,
combination of these, known in the art for alloying with iron to make up a nitridable alloy.
K have found by thus treating a ferrous article that there will be a surface impregnation thereof to a considerable depth bythe metal or alloy having affinity for nitrogen.
i have also found that I can increase both the depth and amount of the impregnation of the ferrous article by subjecting the bath of molten metal having aihnity for nitrogen, to the action of nitrogen on the surface of the bath.
(Cl. MKS-=36) by removing air from within the container and replacing same with such nitrogen.
The improved method may be carried out by many forms of apparatus, a preferred form being illustrated in the accompanying sheet of drawing forming part of this application for patent.
Referring to the drawing:
Fig. l is a cross sectional elevation, and
Fig. 2 is a plan view of the apparatus shown in Fi 1.
' Referring more specifically to the drawing in which like reference numerals designate like parts, A designates a heating chamber, and B a suitable crucible which can be placed in the chamber A, the crucible having lugs G which position the same in the heating chamber. Gas pipes DD extend through the walls of the chamber A and a mixture of air and gas may be lead through these pipes, tangentially into the annular space between the heating chamber and crucible so that the metal in the crucible can be kept in molten condition and at a suitable temperature.
E designates a cover plate which is adapted to rest upon the top rim of the crucible B. This cover plate may be tightly clamped to the top of the crucible by screws F, which are pivoted in the lugs G on the crucible and which screws fit between ears C formed on the rim of the cover plate E, nuts H being threaded on the screws FL k A packing or bearing washer may be placed on top of the crucible. Extending from the cover plate is a notched flange K for holding the fer-' rous articles to be treated.
Practically any ferrous article can be treated in the apparatus above described. As shown a number of automobile shafts L are being treated. with the above described apparatus, the shafts L after being shaped either by forging or casting are placed in the notches in the flange K. I
Care should be taken to keep the articles from touching each other, while in the bath, as such touching would hinder impregnation of the articles at the points of contact and would result in thin spots in the coating.
These shafts or ferrous articles tobe treated when placed in position should be very hot, pref erably heated to a temperature above 1200 Fahrenheit. This temperature can be obtained by taking the articles while they are hot from forg- 50 mg or casting or they can be heated to the desired temperature before being placed in the notches.
The crucible is filled with a bath of molten metal or alloy having amnity for nitrogen. The 5 metal or alloy thus employed is preferably aluminum or any alloy that is known in the art as useful for affecting nitrogenization.
This bath is kept at the proper temperature 5 by the gas jets DD previously described.
The cover plate is then placed in position on the crucible and tightly clamped thereto so that the hot ferrous articles will be immersed or dipped in the bath of molten metal. The articles are kept in the bath a suitable length of time.
During the treatment in the bath, care should be used to see that the surface "of the ferrous articles to be impregnated are clean and free from scale.
I found that under these conditions, the metal or alloy having affinity for nitrogen will penetrate to a sufficient depth into the surface of the ferrous articles being treated to permit them to be nitrided after being machined to size.
Means are provided for accelerating this impregnation, and as shown the cover plate E has a pipe M extending through the same, which pipe has a valve M. The cover plate E also has a pipe N provided with a valve N extending through the same.
The air in the top of the crucible above the bath may be withdrawn through the pipe M and nitrogen in proper form, i. e., nascent, or dissociated or in the form of ammonia may be introduced through the pipe N. Obviously suitable temperatures, maintained by the gas jets DD Willbe employed.
By using nitrogen in this manner, the surface impregnation is started toward nitridation. I may, if desired, apply free nitrogen to the articles after they are removed from the bath.
After the above treatment the cover plate is removed and the ferrous articles are allowed to cool. They then may be subjected to a finishing process such as grinding or machining to get the same to exact size.
Then the articles are subjected to the action of free or nascent nitrogen as in any ordinary nitrogenization or nitridation process.
Impregnation of surfaces not to be nitrided later may be prevented by protecting said surfaces by a suitable plating or paint. This also ,can be done after impregnation and before the time for nitridation.
For example, all of the surfaces of the cam shafts under treatment in the apparatus, except the bearing surfaces may be protected so that the only surfaces "which will be hardened or nitrided will be the bearings and thecams.
The nitrogen will unit with the metal having an affinity for nitrogen which has impregnated into the surface of the ferrous article.
Thus a ferrous article will be produced having any desired ferrous composition in its core and having a hard nitrided surface or surfaces. This article will thus have the advantages previously described, and is particularly adapted for heat treatment.
While I have shown a preferred form of apparatus for practicing my improved method, other forms of apparatus may be devised whereby the surface impregnation, which is the principal feature of my invention, can be practiced, and I do not intend to be limited other than in the appended claims.
Having thus described my invention, what I claim as new and desire to secure by Letters Patent of the United States is:-
1. The method of nitriding a ferrous article, which consists in immersing the article while heated in a bath of molten metal having aflinity for nitrogen and comprising a major portion of aluminum, to obtain a surface impregnation of the ferrous article with said aluminum or aluminum alloy, subjecting the bath to the action of nitrogen by introducing a stream of nitrogen thereto in a substantially closed container, and thereby displacing gases above the molten metal, removing the article from the bath and thereafter hardening the surface thereof by nitridation.
2. The method of treating a ferrous article, which consists in immersing the article while heated in a bath of molten metal having affinity for nitrogen and composed at least in part of aluminum, to obtain a surface impregnation of the ferrous article with said metal, withdrawing the air from the surface of the bathduring immersion and thereafter removing the article from the bath and subjecting same to hardening by nitridation.:
3. The method of treating a ferrous article, which consists in immersing the article while heated in a bath of molten metal having affinity for nitrogen and composed at least in part of aluminum, to obtain a surface impregnation of the ferrous article with said metal, withdrawing the air and supplying nitrogen to the top of the bath during immersion and thereafter removing the article from the bath and subjecting same to hardening by nitridation.
4. The method of nitriding a ferrous article, which consists in heating the article to a temperature of at least 1200 F., and immersing the article while heated in a bath of molten metal having affinity for nitrogen and comprising a major portion of aluminum, to obtain a surface impregnation of the ferrous article with said aluminum or aluminum alloy, subjecting the bath to the action of nitrogen by introducing a stream of nitrogen thereto in a substantially closed container, and thereby displacing gases above the molten metal, removing thearticle from the bath and thereafter hardening the surface thereof by nitridation.
5. The method of treating a ferrous article, which consists in heating the article to a temperature of at least 1200 F., and inunersing the article while heated ina bath of molten metal having affinity for nitrogen and composed at least in part of aluminum, to obtain a surface impregnation of the ferrous article with said metal, withdrawing the air from the surface of the bath during immersion and thereafter removing the article from the bath and subjecting same to hardening by nitridation.
6. The method of treating a ferrous article, which consists in heating the article to a temperature of at least 1200 F., and immersing the article while heated in a bath of molten metal having aflinity for nitrogen and composed at least in part of aluminum, to obtain a surface impregnation of the ferrous article with said metal, withdrawing the air and supplying nitrogen to the top of the bath during immersion and thereafter removing the article from the bath and subjecting same to hardening by nitridation.
' ALBERT W. MORRIS.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US741514A US1997007A (en) | 1931-12-17 | 1934-08-25 | Method of preparing and nitriding a ferrous article |
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US581701A US1997004A (en) | 1931-12-17 | 1931-12-17 | Method of preparing and nitriding a ferrous article |
US741514A US1997007A (en) | 1931-12-17 | 1934-08-25 | Method of preparing and nitriding a ferrous article |
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US1997007A true US1997007A (en) | 1935-04-09 |
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US741514A Expired - Lifetime US1997007A (en) | 1931-12-17 | 1934-08-25 | Method of preparing and nitriding a ferrous article |
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1934
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