US755763A - Process of tempering or hardening cast-iron. - Google Patents
Process of tempering or hardening cast-iron. Download PDFInfo
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- US755763A US755763A US13059802A US1902130598A US755763A US 755763 A US755763 A US 755763A US 13059802 A US13059802 A US 13059802A US 1902130598 A US1902130598 A US 1902130598A US 755763 A US755763 A US 755763A
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- Prior art keywords
- iron
- tempering
- bath
- hardening
- cast
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- C—CHEMISTRY; METALLURGY
- C21—METALLURGY OF IRON
- C21D—MODIFYING THE PHYSICAL STRUCTURE OF FERROUS METALS; GENERAL DEVICES FOR HEAT TREATMENT OF FERROUS OR NON-FERROUS METALS OR ALLOYS; MAKING METAL MALLEABLE, e.g. BY DECARBURISATION OR TEMPERING
- C21D1/00—General methods or devices for heat treatment, e.g. annealing, hardening, quenching or tempering
- C21D1/34—Methods of heating
- C21D1/44—Methods of heating in heat-treatment baths
- C21D1/46—Salt baths
Definitions
- Our invention relates to an improved. process whereby cast-iron in the rough or in the finished state may be hardened or tempered, the hardness extending completely through articles of comparatively large dimensions; and one of the objects in view in inventing the process is to devise a cheap and simple method of rendering iron castings so hard as to be able for many purposes to take the place of steel, thus reducing the cost of manufacturing of a large number of articles, the various steps of the process and the manner of carrying it out being hereinafter more particularly described.
- FIG. 1 represents a fire.
- Fig. 2 represents a vessel containing a substance to be hereinafter described
- Fig. 3 represents a vessel containing water.
- the castings which are to be treated by our process may be completely finished as regards machine-work before they are hardened, and it will thus be seen that the wear on the machines is greatly reduced and the necessary labor is also less than where similar articles are made from hardened steel.
- the casting is first heated in any suitable or convenient heating device until it reaches the temperature sufficient to cause th casting to glow, or, in other words, to what is known as a cherryred heat. It is then dipped in a bath which consists of a practically anhydrous acid of high heat-conducting power, preferably sulfuric acid of a specific gravity of from 1.8 to 1.9, to which is added a suitable quantity of one or more of the heavy metals or their compoundssuch, for example, as arsenic or the like.
- the preferable ingredients of the bath are sulfuric acid of a specific gravity of approximately 1.84 and red arsenic in the pro portions of three quarters of a pound of red-arsenic crystals to one gallon of sulfuric acid.
- the castings may be either suddenly dipped in the aforementioned mixture and then taken out and cooled in water or they may be left in the bath until cool.
- the bath must be of high heat-conducting power, and this requirement isobtained by the use of the ingredients above referred to.
- the bath must fu ther be practically free from water, as it is found that when the acid contains water in any considerable quantities a steam-cushion is formed between the acid and the metal, which prevents their coming in contact, with the result that the cooling is less rapid, and the iron is consequently not so hard.
- A represents a suitable furnace in which the casting B is heated to a suitable temperature, preferably to a cherry-red as above mentioned. ⁇ Vhen the desired temperature has been reached the castingB is dipped in the vessel C, containing the solution.
- the vessel (1 may be inclosed in an outer vessel 0, through which water is caused to continuously circulate, whereby the water is kept cool.
- the next step is to cool the casting by immersing it in the vessel D, containing water. It might be further pointed out that if it is desired to harden one portion of a casting while leaving the remaining portion soft this may be accomplished very readily by immersing only the portions to be hardened.
Description
No. 755,763. PATENTED MAR. 29, 1904.
W. GILMOUR a; A. LINDSAY.
PROCESS OF TEMPERING 0R HARDENING CAST IRON.
APPLICATION FILED NOV. 8, 1902.
K0 MODEL.
m: Momus P572455 0a.. rmmmxrnu, wAsumcq'omD Patented March 29, 1904.
EEIcE.
PATENT WILLIAM GILMOUR AND ALEXANDER LINDSAY, OF MONTREAL, CANADA, ASSIGNORS OF ONE-HALF TO CHARLES AUGUSTUS MYERS AND HERBERT HENRY BRADFIELD, OF MORRISBURG, CANADA.
PROCESS OF TEMPERING OR HARDENING CAST-IRON.
SPECIFICATION forming partof Letters Patent No. 7 55,7 63, dated March 29, 1904;.
Application filed November 8, 1902. Serial No. 130,598. (No specimens.)
To all whrmt it nan/y concern:
Be it known that we, WILLIAM GILMoUR and ALEXANDER LINDsAY, machinists, and residents of the city and district of Montreal, in the Province of Quebec, Dominion of Canada, have jointly invented certain new and useful Improvements in Processes of Tempering or Hardening Cast- Iron, of which the following is a specification.
Our invention relates to an improved. process whereby cast-iron in the rough or in the finished state may be hardened or tempered, the hardness extending completely through articles of comparatively large dimensions; and one of the objects in view in inventing the process is to devise a cheap and simple method of rendering iron castings so hard as to be able for many purposes to take the place of steel, thus reducing the cost of manufacturing of a large number of articles, the various steps of the process and the manner of carrying it out being hereinafter more particularly described.
In the drawings we have illustrated simple apparatus which may be employed in using our process, in which Figure 1 represents a fire. Fig. 2 represents a vessel containing a substance to be hereinafter described, and Fig. 3 represents a vessel containing water.
The castings which are to be treated by our process may be completely finished as regards machine-work before they are hardened, and it will thus be seen that the wear on the machines is greatly reduced and the necessary labor is also less than where similar articles are made from hardened steel. The casting is first heated in any suitable or convenient heating device until it reaches the temperature sufficient to cause th casting to glow, or, in other words, to what is known as a cherryred heat. It is then dipped in a bath which consists of a practically anhydrous acid of high heat-conducting power, preferably sulfuric acid of a specific gravity of from 1.8 to 1.9, to which is added a suitable quantity of one or more of the heavy metals or their compoundssuch, for example, as arsenic or the like. The preferable ingredients of the bath are sulfuric acid of a specific gravity of approximately 1.84 and red arsenic in the pro portions of three quarters of a pound of red-arsenic crystals to one gallon of sulfuric acid. The castings may be either suddenly dipped in the aforementioned mixture and then taken out and cooled in water or they may be left in the bath until cool. We find, however, that by dipping the castings in the bath and holding them there for a time, which varies according to the size of the castings, and then completely cooling in water is quite as satisfactory and produces a material which is just as hard as if the castings were allowed to remain in the bath until cool, and the former method is preferable if a large number of castings are to be hardened, as the bath is thus prevented from becoming overheated. In preparing the bath when sulfuric acid and red arsenic are used we find that better results are obtained when the crystals are added to the sulfuric acid and the bath is allowed to stand for about a week before using, the reason' probably being that the bath becomes more saturated with arsenical compound when the dissolved red arsenic has been long in the sulfuric acid.
The proportions above stated, although found to work very well, may of course be varied, if desirable, without departing from the spirit of our invention. We may also mention that it is not necessarythat the castings should be completed before hardening, as rough unfinished castings may be hardened equally well.
It is found that in castings of comparatively large dimensions the hardening extends completely through the material, and thus the results obtained are far preferable to those obtained by what is known as case-hardening. The change which takes place in the metal is in the nature of a molecular rearrangement or recrystallization coincident with an increase in the combined carbon at the expense of the graphitic carbon, and in this change lies the diiference between the results obtained by our bath and ordinary case-hardening processes in which a certain portion of the carbon contained in the materials of the bath is actually given up to the metal.
It is found that the more rapid the cooling of the metal the harder will it become. For this reason the bath must be of high heat-conducting power, and this requirement isobtained by the use of the ingredients above referred to. The bath must fu ther be practically free from water, as it is found that when the acid contains water in any considerable quantities a steam-cushion is formed between the acid and the metal, which prevents their coming in contact, with the result that the cooling is less rapid, and the iron is consequently not so hard. By having one or more of the heavy metals or their compounds dissolved in the acid the heat-conducting and heat-absorbing powers of the bath are considerably increased.
It will now be seen that we have invented an extremely useful process for hardening or tempering cast-iron.
The uses to which the process might be put are numerous. Among others may be mentioned the hardening or tempering of such articles as worms, pinions, journals, bushings, and the like.
Referring now to the drawings, A represents a suitable furnace in which the casting B is heated to a suitable temperature, preferably to a cherry-red as above mentioned. \Vhen the desired temperature has been reached the castingB is dipped in the vessel C, containing the solution. The vessel (1 may be inclosed in an outer vessel 0, through which water is caused to continuously circulate, whereby the water is kept cool. The next step is to cool the casting by immersing it in the vessel D, containing water. It might be further pointed out that if it is desired to harden one portion of a casting while leaving the remaining portion soft this may be accomplished very readily by immersing only the portions to be hardened.
What we claim as our invention is- 1. The herein-described process of hardening or tempering cast-iron which consists in heating the metal; then dipping it in a bath consisting of a practically anhydrous acid of high heat conducting and absorbing quality in which is dissolved a heavy metal as and for the purpose specified.
2. The herein-described process of hardening or tempering cast-iron which consists in heating the metal; then dipping it in a bath consisting of a practically anhydrous acid of high heat conducting and absorbing quality in which is dissolved a heavy metal combined with a non-metallic substance as and for the purpose specified.
3. The herein-described process of hardening or tempering cast-iron which consists in heating the metal; then dipping it in a bath consisting of sulfuric acid of a specific gravity of between 1.8 and 1.9 or thereabout, and red arsenic as and for the purpose specified.
4. The herein-described process of hardening or tempering cast-iron which consists in heating of metal; then dipping it in a bath consisting of sulfuric acid of a specific gravity of between 1.8 and 1.9 or thereabout and red arsenic, the proportions being approximately one gallon of the former to three-quarters of a pound of the latter as and for the purpose specified.
Signed at Montreal, in the Province of Quebec, this 5th day of November, 1902.
WVILLIAM GILMOUR. ALEXANDER LINDSAY.
Witnesses:
ROBERT BENNETT HUTCHESON, J ESSIE AlRD STEPHEN.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US13059802A US755763A (en) | 1902-11-08 | 1902-11-08 | Process of tempering or hardening cast-iron. |
Applications Claiming Priority (1)
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US13059802A US755763A (en) | 1902-11-08 | 1902-11-08 | Process of tempering or hardening cast-iron. |
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US755763A true US755763A (en) | 1904-03-29 |
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US13059802A Expired - Lifetime US755763A (en) | 1902-11-08 | 1902-11-08 | Process of tempering or hardening cast-iron. |
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1902
- 1902-11-08 US US13059802A patent/US755763A/en not_active Expired - Lifetime
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