US2567791A - Method of heat-treating gray cast iron - Google Patents

Method of heat-treating gray cast iron Download PDF

Info

Publication number
US2567791A
US2567791A US109613A US10961349A US2567791A US 2567791 A US2567791 A US 2567791A US 109613 A US109613 A US 109613A US 10961349 A US10961349 A US 10961349A US 2567791 A US2567791 A US 2567791A
Authority
US
United States
Prior art keywords
casting
cast iron
gray cast
castings
hardness
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
US109613A
Inventor
Frederick G Sefing
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.)
Huntington Alloys Corp
Original Assignee
International Nickel Co 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 International Nickel Co Inc filed Critical International Nickel Co Inc
Priority to US109613A priority Critical patent/US2567791A/en
Application granted granted Critical
Publication of US2567791A publication Critical patent/US2567791A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Classifications

    • CCHEMISTRY; METALLURGY
    • C21METALLURGY OF IRON
    • C21DMODIFYING 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
    • C21D6/00Heat treatment of ferrous alloys
    • C21D6/04Hardening by cooling below 0 degrees Celsius
    • CCHEMISTRY; METALLURGY
    • C21METALLURGY OF IRON
    • C21DMODIFYING 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
    • C21D5/00Heat treatments of cast-iron
    • CCHEMISTRY; METALLURGY
    • C22METALLURGY; FERROUS OR NON-FERROUS ALLOYS; TREATMENT OF ALLOYS OR NON-FERROUS METALS
    • C22CALLOYS
    • C22C37/00Cast-iron alloys
    • C22C37/10Cast-iron alloys containing aluminium or silicon

Definitions

  • the present invention relates .to the production of special hardened gray cast iron compositions and castings made thereof characterized by high hardness and by high resistance to the effects of corrosion, abrasion and wear.
  • a special al- 10y gray cast iron composition can be softened to a Satisfactory hardness level for machining and is vthereafter, in cooperation with a special thermal vtreatment,hardened to a high hardness level, e. g., about ,450.Brinell or more.
  • Another object of the invention is ,to provide a hardenedgray cast iron resistant to the corrosive effects of salty, acidic or basic environments.
  • the invention also contemplates providing a hardened gray cast iron resistant to the deleterious action of abrasives and resistant to metal-to-metal wear.
  • the invention comprises a special hardened nickel-copper alloy gray cast iron characterized by a high hardness and a special process for the production of said hardened alloy'gray cast iron.
  • the special hardened a1- loy gray cast iron provided by the invention contains about 2.25% to about 3.25% total carbon,
  • nickel about 7% to about 10.5% nickel, about 3% to about 4.7% coppenabout 1% to about 4% chromium, about 1.5% to about 3% silicon, about 0.3% to about 1% manganese, and the balance essentially iron, said balance being at least about 73% iron.
  • the special alloycast iron composition provided by the invention is hardened to a high hardness level by a special treatment which comprises subjecting castings made of said cast iron to sub-Zero temperatures, e. g., temperatures of about minus 70 F. to about minus 320 F. or lower, for relatively short periods of time, e. g., for periods of time sufficient to thoroughly cool saidcastings to the temperature of the treating medium.
  • sub-Zero temperatures e. g., temperatures of about minus 70 F. to about minus 320 F. or lower
  • alloy cast iron compositions containingabout 2.5% to about 3% total carh about 75% i a ou 9% b i 3.
  • compositions are characterized by improved vhardening in the subzerotreatment and .by improved corrosion ,resistance.
  • Castings containingiless than about 12% copper plus nickel and/or more than about 2.5% chromiumhave been .found frequently to be undesirably hard and/or, to have a non-uniform hardness in the as-cast condition, with the recult that such castingsare machinable only with difilculty. It is desirable therefore, before machining such ,castings, to heat said castings to a temperature of about to; about .1800" F., e. g., 1700813 and to thereafter rapidly cool said castings, e. g., to oil quench said castings. The aforesaid rapidcoolin gpr quenching iscarried out ata rate .ofnot less than about 325 F.
  • the quenching treatment is desirable to overcome the effect of possible production variables and to insure that the cast compositions provided by the processembodying the invention will have a uniform mac'hinable hardness level within a range of about 160 to about 250 -Brinell, e. g., a hardness levelof about 225 Brinell.
  • the-aforesaid quenching treatment is not essential to insure hardening :toa satisfactory hardness llevel upon the subsequent sub-zero treatments
  • the special process contemplated by the invention thus provides alloy gray cast iron castings which may be thermallysoftened to a satisfactory machinable hardness level and which may be hardened after any required machining to a high hard-ness'level. 0.004 inches per inch usually occurs duringthe thermal hardening treatment.
  • the special compositions contemplated by the invention cooperate with the special hardening treatment-providedbythe invention to. produce graycast iron castings having high hardness, e.
  • the total content of nickel plus copper in the special alloy castiron provided by the invention is maintained within the range of about to about because when the total content of these two elements is substantially below about 10%, quenched castings are too hard to be machinable, and when the total content of these two elements is substantially above about 15%, the castings are not hardenable to a high level, e. g., a level of 450 Brinell or above.
  • the chromium content in combination with the total content of nickel plus copper is also a critical factor as it has been found that with the total nickel plus copper contents set forth hereinbefore, castings containing less than about 1% chromium are not hardenable to a high hardness value and, on the other hand, castings containing more than about 4% chromium are not practically machinable, even after the rapid cooling treatment described hereinbefore.
  • the special alloy gray cast iron castings provided by the invention contain at least about 1% graphite up to about 2.6% graphite, e. g., the preferred compositions set forth hereinbefore will contain about 1.25% to about 2% graphite.
  • the manganese content low, e. g., below about 0.5%.
  • Example 1 A gray cast iron casting containing about 2.6% total carbon, about 1.7% silicon, about 7.6% nickel, about 3.4% copper and about 2% chromium was produced. In the as-cast condition, this casting had a hardness of about 255 Brinell. The casting was heated to about 1700 F. and was quenched in oil. The hardness of the quenched casting was about 200 Brinell. The casting was then hardened by immersion in a bath having a temperature of about minus 70 F. After the hardening treatment, the casting had a hardness of 429 Brinell. After hardening at minus 320 F., another casing of the same composition and similarily oil-quenched developed a hardness of about 514 Brinell.
  • Example 2 A gray cast iron casting containing about 2.6% total carbon, about 1.7% silicon, about 9.3% nickel, about 4.1% copper and about 2% chromium was produced. In the as-cast condition, this casting had a hardness of about Brinell. The casting was hardened by immersion in a bath of liquid nitrogen at a temperature of about minus 320 F. After the hardening treatment, the casting had a hardness of about 485 Brinell.
  • the alloy gray cast iron provided by the invention may also contain usual small. amounts of incidental impurities and other elements found in gray cast iron and which do not materially affect the properties of the castings provided by the invention.
  • the castings may contain up to about 0.14% sulfur, up to about 0.5% phosphorus, etc.
  • Castings contemplated by the invention may be produced by the usual methods and in the usual equipment employed in the production of high quality gray iron castings.
  • the are or induction electric furnaces, etc. have been employed successfully in the production of castings contemplated by the invention.
  • the special hardened alloy gray cast iron compositions provided by the invention having the high hardness described hereinbefore are characterized by a high combination of corrosion resistance, abrasion resistance, metal-to-metal Wear resistance and heat resistance.
  • the special cast iron has been found to be particularly resistant to the corrosive effect of salt water and to have a highly useful resistance to the corrosive effects of both acids and alkalies.
  • the improved process for producing a hard, wear-resistant, cast iron casting which comprises subjecting an alloy gray cast iron casting containing about 2.5% to about 3% carbon, about 7.5% to about 9% nickel, about 3.5% to about 4% copper, about 2% to about 2.5% chromium, about 1.75% to 2.25% silicon, and the balance essentially iron to a thermal treatment comprising heating said casting to a temperature of about 1600 F. to about 1800 F., rapidly cooling said heated casting to a temperature below about 900 F. to soften said casting to a machinable hardness level of about 180 to about 250 Brinell, and there.

Landscapes

  • Chemical & Material Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Materials Engineering (AREA)
  • Metallurgy (AREA)
  • Organic Chemistry (AREA)
  • Physics & Mathematics (AREA)
  • Thermal Sciences (AREA)
  • Crystallography & Structural Chemistry (AREA)
  • Heat Treatment Of Articles (AREA)
  • Refinement Of Pig-Iron, Manufacture Of Cast Iron, And Steel Manufacture Other Than In Revolving Furnaces (AREA)

Description

Patented Sept. 11, 1951 METHOD OF HEAT-TREATING GRAY CAST IRON Frederick -G. .Sefing, Cranford, N. 'J-, .assignorito The International Nickel Company, ,Inc., New York, N. Y a corporation ,of Delaware No Drawing, Application August '10, 1949,
SerialNo. 10.9;613
The present invention relates .to the production of special hardened gray cast iron compositions and castings made thereof characterized by high hardness and by high resistance to the effects of corrosion, abrasion and wear.
It has now been discovered that a special al- 10y gray cast iron composition can be softened to a Satisfactory hardness level for machining and is vthereafter, in cooperation with a special thermal vtreatment,hardened to a high hardness level, e. g., about ,450.Brinell or more.
It is an obiectof thepresent invention to provide alloy gray ,cast iron castings which can be machined and which thereafter can be hardened to a high hardness level. i W
Another object of the invention is ,to provide a hardenedgray cast iron resistant to the corrosive effects of salty, acidic or basic environments. r
The invention also contemplates providing a hardened gray cast iron resistant to the deleterious action of abrasives and resistant to metal-to-metal wear.
It is a further object of the invention to provide a special thermal hardening treatment cooperating with a special alloy gray cast iron composition to produce a high hardness level therein.
Broadly stated, the invention comprises a special hardened nickel-copper alloy gray cast iron characterized by a high hardness and a special process for the production of said hardened alloy'gray cast iron. The special hardened a1- loy gray cast iron provided by the invention contains about 2.25% to about 3.25% total carbon,
about 7% to about 10.5% nickel, about 3% to about 4.7% coppenabout 1% to about 4% chromium, about 1.5% to about 3% silicon, about 0.3% to about 1% manganese, and the balance essentially iron, said balance being at least about 73% iron. I
The special alloycast iron composition provided by the invention is hardened to a high hardness level by a special treatment which comprises subjecting castings made of said cast iron to sub-Zero temperatures, e. g., temperatures of about minus 70 F. to about minus 320 F. or lower, for relatively short periods of time, e. g., for periods of time sufficient to thoroughly cool saidcastings to the temperature of the treating medium.
In carrying the invention into practice, it is preferred to employ alloy cast iron compositions containingabout 2.5% to about 3% total carh about 75% i a ou 9% b i 3.
2"ClaimS; (Cl. 148-2137) to about 4% copper, about 12% .to about 25% chromium, about .1;% to about 2.25% silicon, up to about 0.8% manganese, and the balance essentially iron. .T-heaforesaid .preferred hardened alloygraycast iron. compositions are characterized by improved vhardening in the subzerotreatment and .by improved corrosion ,resistance.
Castings ,containingiless than about 12% copper plus nickel and/or more than about 2.5% chromiumhave been .found frequently to be undesirably hard and/or, to have a non-uniform hardness in the as-cast condition, with the recult that such castingsare machinable only with difilculty. It is desirable therefore, before machining such ,castings, to heat said castings to a temperature of about to; about .1800" F., e. g., 1700813 and to thereafter rapidly cool said castings, e. g., to oil quench said castings. The aforesaid rapidcoolin gpr quenching iscarried out ata rate .ofnot less than about 325 F. per second (at 1300 F.) and the temperature of the castings is reduced belowrabout 900 F. by means of the rapid cooling treatment. The quenching treatment is desirable to overcome the effect of possible production variables and to insure that the cast compositions provided by the processembodying the invention will have a uniform mac'hinable hardness level within a range of about 160 to about 250 -Brinell, e. g., a hardness levelof about 225 Brinell. In those-castings having asatisfactory-machinable hardness in the --as -cast condition, the-aforesaid quenching treatment is not essential to insure hardening :toa satisfactory hardness llevel upon the subsequent sub-zero treatments The special process contemplated by the invention thus provides alloy gray cast iron castings which may be thermallysoftened to a satisfactory machinable hardness level and which may be hardened after any required machining to a high hard-ness'level. 0.004 inches per inch usually occurs duringthe thermal hardening treatment. As indicated hereinbefore, the special compositions contemplated by the inventioncooperate with the special hardening treatment-providedbythe invention to. produce graycast iron castings having high hardness, e. g., castings having hardnesses of about 450 to about.575 iBrinell are produced according to the invention. 'In general, it can be said that when the higher .hardnesses are required, e. g.,,hardnesses of about 450 Brinell-or more, thelower treating temperatures should do employed in the hardening operation,
"An expansion of about The amounts of alloying elements in the cast iron compositions contemplated by the invention set forth hereinbefore are critical and the novel results provided by the invention are not achieved unless the aforesaid amounts of alloying elements are employed. Thus, when the carbon content is below about 2.25%, trouble is encountered by way of poor castability, poor machinability and poor metal-to-metal wear resistance. On the other hand, at carbon contents above about 3.25%, the high hardness values contemplated by the invention are not achieved. The total content of nickel plus copper in the special alloy castiron provided by the invention is maintained within the range of about to about because when the total content of these two elements is substantially below about 10%, quenched castings are too hard to be machinable, and when the total content of these two elements is substantially above about 15%, the castings are not hardenable to a high level, e. g., a level of 450 Brinell or above. The chromium content in combination with the total content of nickel plus copper is also a critical factor as it has been found that with the total nickel plus copper contents set forth hereinbefore, castings containing less than about 1% chromium are not hardenable to a high hardness value and, on the other hand, castings containing more than about 4% chromium are not practically machinable, even after the rapid cooling treatment described hereinbefore.
. as when the silicon content exceeds about 3% it is diflicult to achieve the machinable hardnesses of less than about 250 Brinell in the ascast and/or quenched conditions. The special alloy gray cast iron castings provided by the invention contain at least about 1% graphite up to about 2.6% graphite, e. g., the preferred compositions set forth hereinbefore will contain about 1.25% to about 2% graphite. For best response to the sub-zero hardening treatment, it is preferred to keep the manganese content low, e. g., below about 0.5%.
For the purpose of giving those skilled in the art a better appreciation of the advantages of the invention, the following illustrative examples are given:
Example 1 A gray cast iron casting containing about 2.6% total carbon, about 1.7% silicon, about 7.6% nickel, about 3.4% copper and about 2% chromium was produced. In the as-cast condition, this casting had a hardness of about 255 Brinell. The casting was heated to about 1700 F. and was quenched in oil. The hardness of the quenched casting was about 200 Brinell. The casting was then hardened by immersion in a bath having a temperature of about minus 70 F. After the hardening treatment, the casting had a hardness of 429 Brinell. After hardening at minus 320 F., another casing of the same composition and similarily oil-quenched developed a hardness of about 514 Brinell.
4 Example 2 A gray cast iron casting containing about 2.6% total carbon, about 1.7% silicon, about 9.3% nickel, about 4.1% copper and about 2% chromium was produced. In the as-cast condition, this casting had a hardness of about Brinell. The casting was hardened by immersion in a bath of liquid nitrogen at a temperature of about minus 320 F. After the hardening treatment, the casting had a hardness of about 485 Brinell.
In addition to the alloying elements set forth hereinbefore, the alloy gray cast iron provided by the invention may also contain usual small. amounts of incidental impurities and other elements found in gray cast iron and which do not materially affect the properties of the castings provided by the invention. Thus, the castings may contain up to about 0.14% sulfur, up to about 0.5% phosphorus, etc.
Castings contemplated by the invention may be produced by the usual methods and in the usual equipment employed in the production of high quality gray iron castings. Thus, the are or induction electric furnaces, etc., have been employed successfully in the production of castings contemplated by the invention.
The special hardened alloy gray cast iron compositions provided by the invention having the high hardness described hereinbefore are characterized by a high combination of corrosion resistance, abrasion resistance, metal-to-metal Wear resistance and heat resistance. Thus, the special cast iron has been found to be particularly resistant to the corrosive effect of salt water and to have a highly useful resistance to the corrosive effects of both acids and alkalies.
The high combination of corrosion resistance, abrasion resistance and metal-to-metal wear re-.
sistance which characterize the hardened alloy geously made from the new cast product pro-.
vided by the invention. In addition, parts for equipment used in handling abrasive materials at elevated temperature are also made with great advantage from the new product.
Although the present invention has been described in conjunction with preferred embodiments, it is to be understood that modifications and variations may be resorted to Without departing from the spirit and scope of the invention as those skilled in the art will understand. Such modifications and variations are considered to be within the purview and scope of the invention and of the appended claims.
I claim:
1. The improved process for producing a hard, wear-resistant, cast iron casting which comprises subjecting an alloy gray cast iron casting containing about 2.5% to about 3% carbon, about 7.5% to about 9% nickel, about 3.5% to about 4% copper, about 2% to about 2.5% chromium, about 1.75% to 2.25% silicon, and the balance essentially iron to a thermal treatment comprising heating said casting to a temperature of about 1600 F. to about 1800 F., rapidly cooling said heated casting to a temperature below about 900 F. to soften said casting to a machinable hardness level of about 180 to about 250 Brinell, and there.
corrosion-resistant alloy gray after subjecting said casting to a hardening treatment at a temperature below about minus 70 F. to harden said casting to a, hardness of at least about 450 Brinell.
2. In the process for producing a hard, wearresistant, corrosion-resistant alloy gray cast iron casting, the improvement which comprises thermally treating a gray cast iron casting containing about 2.25% to 3.25% carbon, about 7% to about 10.5% nickel, about 3% to about 4.7% copper, the sum of said nickel and said copper contents being about 10% to about 15%, about 1% to about 4% chromium, about 1.5% to about 8% silicon, up to about 1% manganese, and the balance essentially iron, at a temperature of about 1600 F. to about 1800" F., rapidly cooling said thermally-treated casting below about 900 F. to soften said casting to a low machinable REFERENCES CITED The following references are of record in the file of this patent:
UNITED STATES PATENTS Name Date Sefing Nov. 21, 1950 OTHER REFERENCES Machinery, January 8, 1948, page 43. "Cold-Treating Practice with Deepfreeze, page 13, published by Motor Products Corp., 1944.
Number

Claims (1)

1. THE IMPROVED PROCESS FOR PRODUCING A HARD, WEAR-RESISTANT, CORROSION-RESISTANT ALLOY GRAY CAST IRON CASTING WHICH COMPRISES SUBJECTING AN ALLOY GRAY CAST IRON CASTING CONTAINING ABOUT 2.5% TO ABOUT 3% CARBON, ABOUT 7.5% TO ABOUT 9% NICKEL ABOUT 3.5% TO ABOUT 4% COPPER, ABOUT 2% TO ABOUT 2.5% CHROMIUM, ABOUT 1.75% TO 2.25% SILICON, AND THE BALANCE ESSENTIALLY IRON TO A THERMAL TREATMENT COMPRISING HEATING SAID CASTING TO A TEMPERATURE OF ABOUT 1600* F. TO ABOUT 1800* F., RAPIDLY COOLING SAID HEATED CASTING TO A TEMPERATURE BELOW ABOUT 900* F. TO SOFTEN SAID CASTING TO A MACHINABLE HARDNESS LEVEL OF ABOUT 180 TO ABOUT 250 BRINELL, AND THEREAFTER SUBJECTING SAID CASTING TO A HARDENING TREATMENT AT A TEMPERATURE BELOW ABOUT MINUS 70* F. TO HARDEN SAID CASTING TO A HARDNESS OF AT LEAST ABOUT 450 BRINELL.
US109613A 1949-08-10 1949-08-10 Method of heat-treating gray cast iron Expired - Lifetime US2567791A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US109613A US2567791A (en) 1949-08-10 1949-08-10 Method of heat-treating gray cast iron

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US109613A US2567791A (en) 1949-08-10 1949-08-10 Method of heat-treating gray cast iron

Publications (1)

Publication Number Publication Date
US2567791A true US2567791A (en) 1951-09-11

Family

ID=22328612

Family Applications (1)

Application Number Title Priority Date Filing Date
US109613A Expired - Lifetime US2567791A (en) 1949-08-10 1949-08-10 Method of heat-treating gray cast iron

Country Status (1)

Country Link
US (1) US2567791A (en)

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3485683A (en) * 1966-12-15 1969-12-23 Int Nickel Co Method of heat treating a ductile austenitic ductile iron casting including refrigeration treatment and article produced thereby
US4484988A (en) * 1981-12-09 1984-11-27 Richmond Metal Finishers, Inc. Process for providing metallic articles and the like with wear-resistant coatings

Citations (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2530545A (en) * 1949-08-06 1950-11-21 Int Nickel Co Hardenable cast iron

Patent Citations (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2530545A (en) * 1949-08-06 1950-11-21 Int Nickel Co Hardenable cast iron

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3485683A (en) * 1966-12-15 1969-12-23 Int Nickel Co Method of heat treating a ductile austenitic ductile iron casting including refrigeration treatment and article produced thereby
US4484988A (en) * 1981-12-09 1984-11-27 Richmond Metal Finishers, Inc. Process for providing metallic articles and the like with wear-resistant coatings

Similar Documents

Publication Publication Date Title
US2767836A (en) Process of extruding steel
JPH0461047B2 (en)
US2370225A (en) Malleable iron
JPS6338418B2 (en)
US2331886A (en) Alloy malleable iron
US2567791A (en) Method of heat-treating gray cast iron
US2530545A (en) Hardenable cast iron
US2610912A (en) Steel-like alloy containing spheroidal graphite
US2646375A (en) Process for hardening alloy gray cast iron
US2875109A (en) Method for the isothermal treatment of alloys after casting
US2501059A (en) Manufacture of black-heart malleable cast iron
US2924544A (en) Metallurgical process for cold-finishing steel
US2809888A (en) Cast iron with high creep resistance and method for making same
US2489529A (en) Method of heat treating a cast aluminum-bronze alloy
US1984458A (en) Cast iron alloy articles
US2494238A (en) Method of making gray cast iron
US3113861A (en) Austenitic steel alloy
US2885284A (en) Ferrous alloy
US3042512A (en) Wear resistant cast iron
CN112795722A (en) Austempering technology for austempered ductile iron
US2955933A (en) Inoculants for cast iron
US2901386A (en) Method of heat treating cast iron
US2058039A (en) Hardened malleable iron
US2201555A (en) Copper and copper base alloys
US2105220A (en) Ferrous metal