US2536204A - Manufacture of iron castings - Google Patents
Manufacture of iron castings Download PDFInfo
- Publication number
- US2536204A US2536204A US720924A US72092447A US2536204A US 2536204 A US2536204 A US 2536204A US 720924 A US720924 A US 720924A US 72092447 A US72092447 A US 72092447A US 2536204 A US2536204 A US 2536204A
- Authority
- US
- United States
- Prior art keywords
- bath
- iron
- metal
- zirconium
- amount
- 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
Links
Classifications
-
- C—CHEMISTRY; METALLURGY
- C21—METALLURGY OF IRON
- C21C—PROCESSING OF PIG-IRON, e.g. REFINING, MANUFACTURE OF WROUGHT-IRON OR STEEL; TREATMENT IN MOLTEN STATE OF FERROUS ALLOYS
- C21C1/00—Refining of pig-iron; Cast iron
- C21C1/08—Manufacture of cast-iron
Definitions
- the graphite structure of a grey cast iron can exist in either of two forms. In the one, which is the more frequent, this constituent is in the form of flakes or lamallae.
- the other form consists of very finely divided graphite known variously as eutectiform, super-cooled or undercooled, etc. This form will be referred to here as undercooled graphite.
- Undercooled graphite forms when a casting solidifies at a temperature below the normal solidification temperature. Undercooled graphite confers certain characteristic properties to the casting, including improved soundness, good machinability, good heat-resistance and, in irons of high carbon content, an improved tensile strength. This has been known for some time, but the methods hitherto proposed for producing it commercially have proved of limited application.
- British Patent Specification No. 425,227 describes a process for the production of undercooled graphite structures which involves the treatment of the molten metal with titanium in the form of a suitable alloy, followed by bubbling carbon dioxide through the metal before casting.
- the object of the present invention is to provide an improved method of enabling castings with undercooled graphite to be produced in a convenient and reliable manner.
- the invention comprises the addition of a small amount of zirconium or bismuth to the molten metal before pouring, followed by (if enhanced effect is required) bubbling carbon dioxide through the melt for a short period.
- zirconium in a suitable form is added to the molten metal befor pouring. Not more than 1% is required, and frequently 0.2% will suffice.
- the zirconium may be added in almost any form-as pure metal or as a ferro-ailoy. Those most suitable are ferro-zirconum or ferro-silicon-zirconium.
- the ferro-alloy should be finely divided and packed in a sheet steel container.
- the influence of the zirconium may be enhanced by bubbling carbon dioxide through th molten metal, after making the addition, for periods of up to five minutes.
- zirconium For zirconium to give the desired effect, sufficient must be added to cause zirconium carbide to appear in the micro-structure and sufficient manganese must be present to balance the sulphur content (that is, the amount of manganese must be greater than 1.7 %S+0.3).
- the invention may be carried into eifect by adding a small amount of metallic bismuth not exceeding 0.5% to the iron before pouring.
- the form of the bismuth Whether in the lump or powdered form, is immaterial. It should preferably be placed in the bottom of the ladle and the molten metal is then run on to it to ensure good mixing. During solution of the bismuth, some of the metal vaporises, giving a bubbling eiiect, and when this is sufficient no gain is obtained by the carbon dioxide bubbling above mentioned.
- the element bismuth is a carbide stabiliser and therefore it can only be used to produce a fine graphite structure in relatively large sections. But, the influence of zirconium is neutral and it can be used for thin and thick sections.
- castings in a wide range of section sizes can be produced with the graphitic or free carbon entirely in the undercooled form, the castings being very dense, free from internal porosity and having good mechanical properties.
- a method of producing iron castings having a finely divided eutectiform graphitio structure which comprises preparing a bath of sulphurcontaining, high-carbon iron; introducing manganese into said bath in an amount greater than 1.? times the percentage of sulphur in said bath plus 0.3; and adding to said bath at least one metal from the group consi ting of zirconium and bismuth in an amount sufficient to form and introduce the carbide of said metal into the micro gagture of the high-carbon iron, said amount of added metal being not less than 0.2%.
- a method of producing iron castings having a finely divided eutectiform graphitic structure which comprises preparing a bath. of sulphurcontaining. hi h-carbon iron; introducing mangane e into said bath in an amount greater than 1.7 times the percenta e of sulphur in said bath plus 0.3; adding to said bath at least one metal from the group consisting of zirconium and bismuth in an amount sufficient to form and introduce the carbide of said metal into the microstructure of the high-carbon iron, said amount of added metal being not less than 0.2%; and agitating said bath by bubbling carbon dioxide gas therethrough for an interval of time approximating five minutes.
- a method of producing iron castings having a finely divided eutectiform graphitic structure which comprises preparing a bath of sulphurcontaining, high-carbon iron; introducing manganese into said bath in an amount greater than 1.7 times the percentage of sulphur in said bath plus 0.3; and adding zirconium to said bath in an amount sufficient to form and introduce the carbide of zirconium into the microstructure of the high carbon iron, said amount of added zirconium being between 0.2% and 1%.
- a method as claimed in claim 3 comprising the additional step of agitating said bath prior to casting by bubbling carbon dioxide gas therethrough for an interval of time approximating five minutes.
- a method of producing iron castings having a finely divided eutectiform graphitic structure which comprises preparing a bath of sulphurcontaining, high-carbon iron; introducing manganese into said bath in an amount greater than 1.7 times the percentage of sulphur in said bath plus 0.3; and adding bismuth to said bath in an amount not exceeding 0.5%.
- a method as claimed in claim 5 comprising the additional step of agitating said bath prior to casting by bubbling carbon dioxide gas therethrough for an interval of time approximating five minutes.
Description
Patented Jan. 2, 1951 MANUFACTURE OF IRON CASTINGS Henton Morrogh and Arthur George Gardner,
Alvechurch, near Birmingham, England, assignors, by mesne assignments, to Union Carbide and Carbon Corporation, a corporation of New York No Drawing. Application January 8, 1947, Serial No. 720,924. In Great Britain January 16, 1945 6 Claims.
The graphite structure of a grey cast iron can exist in either of two forms. In the one, which is the more frequent, this constituent is in the form of flakes or lamallae. The other form consists of very finely divided graphite known variously as eutectiform, super-cooled or undercooled, etc. This form will be referred to here as undercooled graphite.
Undercooled graphite forms when a casting solidifies at a temperature below the normal solidification temperature. Undercooled graphite confers certain characteristic properties to the casting, including improved soundness, good machinability, good heat-resistance and, in irons of high carbon content, an improved tensile strength. This has been known for some time, but the methods hitherto proposed for producing it commercially have proved of limited application.
British Patent Specification No. 425,227 describes a process for the production of undercooled graphite structures which involves the treatment of the molten metal with titanium in the form of a suitable alloy, followed by bubbling carbon dioxide through the metal before casting.
The object of the present invention is to provide an improved method of enabling castings with undercooled graphite to be produced in a convenient and reliable manner. For this purpose the invention comprises the addition of a small amount of zirconium or bismuth to the molten metal before pouring, followed by (if enhanced effect is required) bubbling carbon dioxide through the melt for a short period.
In one manner of carrying the invention into effect, zirconium in a suitable form is added to the molten metal befor pouring. Not more than 1% is required, and frequently 0.2% will suffice. The zirconium may be added in almost any form-as pure metal or as a ferro-ailoy. Those most suitable are ferro-zirconum or ferro-silicon-zirconium. The ferro-alloy should be finely divided and packed in a sheet steel container. The influence of the zirconium may be enhanced by bubbling carbon dioxide through th molten metal, after making the addition, for periods of up to five minutes. For zirconium to give the desired effect, sufficient must be added to cause zirconium carbide to appear in the micro-structure and sufficient manganese must be present to balance the sulphur content (that is, the amount of manganese must be greater than 1.7 %S+0.3).
Alternatively, the invention may be carried into eifect by adding a small amount of metallic bismuth not exceeding 0.5% to the iron before pouring. The form of the bismuth, Whether in the lump or powdered form, is immaterial. It should preferably be placed in the bottom of the ladle and the molten metal is then run on to it to ensure good mixing. During solution of the bismuth, some of the metal vaporises, giving a bubbling eiiect, and when this is sufficient no gain is obtained by the carbon dioxide bubbling above mentioned.
The element bismuth is a carbide stabiliser and therefore it can only be used to produce a fine graphite structure in relatively large sections. But, the influence of zirconium is neutral and it can be used for thin and thick sections.
By this invention castings in a wide range of section sizes can be produced with the graphitic or free carbon entirely in the undercooled form, the castings being very dense, free from internal porosity and having good mechanical properties.
Having thus described our invention What we claim as new and desire to secure by Letters Patent is:
1. A method of producing iron castings having a finely divided eutectiform graphitio structure which comprises preparing a bath of sulphurcontaining, high-carbon iron; introducing manganese into said bath in an amount greater than 1.? times the percentage of sulphur in said bath plus 0.3; and adding to said bath at least one metal from the group consi ting of zirconium and bismuth in an amount sufficient to form and introduce the carbide of said metal into the micro tructure of the high-carbon iron, said amount of added metal being not less than 0.2%.
2. A method of producing iron castings having a finely divided eutectiform graphitic structure which comprises preparing a bath. of sulphurcontaining. hi h-carbon iron; introducing mangane e into said bath in an amount greater than 1.7 times the percenta e of sulphur in said bath plus 0.3; adding to said bath at least one metal from the group consisting of zirconium and bismuth in an amount sufficient to form and introduce the carbide of said metal into the microstructure of the high-carbon iron, said amount of added metal being not less than 0.2%; and agitating said bath by bubbling carbon dioxide gas therethrough for an interval of time approximating five minutes.
3. A method of producing iron castings having a finely divided eutectiform graphitic structure which comprises preparing a bath of sulphurcontaining, high-carbon iron; introducing manganese into said bath in an amount greater than 1.7 times the percentage of sulphur in said bath plus 0.3; and adding zirconium to said bath in an amount sufficient to form and introduce the carbide of zirconium into the microstructure of the high carbon iron, said amount of added zirconium being between 0.2% and 1%.
4. A method as claimed in claim 3 comprising the additional step of agitating said bath prior to casting by bubbling carbon dioxide gas therethrough for an interval of time approximating five minutes.
5. A method of producing iron castings having a finely divided eutectiform graphitic structure which comprises preparing a bath of sulphurcontaining, high-carbon iron; introducing manganese into said bath in an amount greater than 1.7 times the percentage of sulphur in said bath plus 0.3; and adding bismuth to said bath in an amount not exceeding 0.5%.
6. A method as claimed in claim 5 comprising the additional step of agitating said bath prior to casting by bubbling carbon dioxide gas therethrough for an interval of time approximating five minutes.
HENTON MORROGH. ARTHUR GEORGE GARDNER.
REFERENCES CITED The following references are of record in the file of this patent:
UNITED STATES PATENTS Number Name Date 2,174,520 Kuniansky Oct. 3, 1939 FOREIGN PATENTS Number Country Date 425,227 Great Britain Mar. 11, 1935 547,700 Great Britain Sept. 8, 1942 OTHER REFERENCES The Iron Age, March 16, 1933, pages 426 and 427. Published by The Chilton Co., Philadelphia, Pa.
Alloys Cast Irons, 1939 Edition, page 196. Published by the American Foundrymens Association, Chicago, Illinois.
Cast Metals Handbook, 1940 Edition, pages 471 and 472. Published by The American Foundrymens Association, Chicago, Ill.
The Journal of the Iron and Steel Institute, No. 1, 1941, pages 243P, and 244 to 249P, inclusive. Published by the Iron and Steel Institute, London, England.
Claims (1)
1. A METHOD OF PRODUCING IRON CASTINGS HAVING A FINELY DIVIDED EUTECTIFORM GRAPHITIC STRUCTURE WHICH COMPRISES PREPARING A BATH OF SULPHURCONTAINING, HIGH-CARBON IRON; INTRODUCING MANGANESE INTO SAID BATH IN AN AMOUNT GREATER THAN 1.7 TIMES THE PRECENTAGE OF SULPHUR IN SAID BATH PLUS 0.3; AND ADDING TO SAID BATH AT LEAST ONE METAL FROM THE GROUP CONSISTING OF ZIRCONIUM AND BISMUTH IN AN AMOUNT SUFFICIENT TO FORM AND INTRODUCE THE CARBIDE OF SAID METAL INTO THE MICROSTRUCTURE OF THE HIGH-CARBON IRON, SAID AMOUNT OF ADDED METAL BEING NOT LESS THAN 0.2%.
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
GB2536204X | 1946-01-16 |
Publications (1)
Publication Number | Publication Date |
---|---|
US2536204A true US2536204A (en) | 1951-01-02 |
Family
ID=10909439
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US720924A Expired - Lifetime US2536204A (en) | 1946-01-16 | 1947-01-08 | Manufacture of iron castings |
Country Status (1)
Country | Link |
---|---|
US (1) | US2536204A (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3311469A (en) * | 1964-04-23 | 1967-03-28 | Union Carbide Corp | Manufacture of nodular iron |
US6409045B1 (en) | 1998-07-24 | 2002-06-25 | Thomas Robert Lauer | Vending machine for bottles |
Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
GB425227A (en) * | 1933-09-09 | 1935-03-11 | British Cast Iron Res Ass | Improvements in and relating to the manufacture of cast iron |
US2174520A (en) * | 1937-06-30 | 1939-10-03 | Kuniansky Max | Method of making cast iron |
GB547700A (en) * | 1940-02-07 | 1942-09-08 | Electro Metallurg Co | Method of producing cast iron and compositions therefor |
-
1947
- 1947-01-08 US US720924A patent/US2536204A/en not_active Expired - Lifetime
Patent Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
GB425227A (en) * | 1933-09-09 | 1935-03-11 | British Cast Iron Res Ass | Improvements in and relating to the manufacture of cast iron |
US2174520A (en) * | 1937-06-30 | 1939-10-03 | Kuniansky Max | Method of making cast iron |
GB547700A (en) * | 1940-02-07 | 1942-09-08 | Electro Metallurg Co | Method of producing cast iron and compositions therefor |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3311469A (en) * | 1964-04-23 | 1967-03-28 | Union Carbide Corp | Manufacture of nodular iron |
US6409045B1 (en) | 1998-07-24 | 2002-06-25 | Thomas Robert Lauer | Vending machine for bottles |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
US3703922A (en) | Process for the manufacture of nodular cast iron | |
US4414027A (en) | Method for obtaining iron-based alloys allowing in particular their mechanical properties to be improved by the use of lanthanum, and iron-based alloys obtained by the said method | |
US2536204A (en) | Manufacture of iron castings | |
CN110983171B (en) | Method for producing as-cast high-strength all-ferrite nodular cast iron differential case by sand-lined iron mold | |
US3033676A (en) | Nickel-containing inoculant | |
US2643949A (en) | Method for the production of iron and steel | |
US2690392A (en) | Process for producing improved cast iron | |
US4036641A (en) | Cast iron | |
US3871868A (en) | Method of preparing a corrosion-resistant and ductile iron alloy with a high aluminum content | |
PL137396B1 (en) | Method of obtaining cast iron with vermicular graphite | |
US1540006A (en) | Metallic alloy | |
US2814559A (en) | Process for the production of nodular cast iron | |
US2538263A (en) | Method of producing ductile cast iron | |
US1888132A (en) | Method of casting steel ingots | |
US3762915A (en) | Method for casting gray cast iron composition | |
US1861568A (en) | Silicon iron castings and method of making the same | |
US2922713A (en) | Magnesium bearing cast iron | |
US2785970A (en) | Addition agents in manufacture of steel | |
US2932567A (en) | Cast iron and process for making same | |
US2683663A (en) | Stainless steel and method of production | |
US2488513A (en) | Production of white cast iron | |
US2842437A (en) | Austenitic nodular iron | |
Lewia | Microporosity in casting alloys | |
US2734822A (en) | Method for making improved gray cast | |
US2490818A (en) | Cast-iron pipe |