US2749587A - Method of producing grey iron castings in preheated refractory coated male and female dies - Google Patents

Method of producing grey iron castings in preheated refractory coated male and female dies Download PDF

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Publication number
US2749587A
US2749587A US324826A US32482652A US2749587A US 2749587 A US2749587 A US 2749587A US 324826 A US324826 A US 324826A US 32482652 A US32482652 A US 32482652A US 2749587 A US2749587 A US 2749587A
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Prior art keywords
cast iron
dies
male
female dies
iron castings
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US324826A
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Richards James Aubrey
Jeffrey Robert Stewart Martin
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Walter Macfarlane & Co Lt
Walter Macfarlane & Co Ltd
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Walter Macfarlane & Co Lt
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B22CASTING; POWDER METALLURGY
    • B22CFOUNDRY MOULDING
    • B22C3/00Selection of compositions for coating the surfaces of moulds, cores, or patterns

Definitions

  • the dies are initially heated to a temperature of not less than 200 .C. and not in excess'of 550 0., this being conveniently done by means of gas burners.
  • This heating initially serves to dry the refractory dressthin cast iron articles of say A" thick, to be produced without premature solidification of the molten metal. Where thicker cast iron articles are required the necessity of preheating the dies is mainly to ensure drying of the refractory dressing.
  • the refractory dressing is coated with a heat insulating coating capable of maintaining its properties when in contact with molten cast iron which has a temperature of 1200" C. to 1600' C.
  • a heat insulating coating capable of maintaining its properties when in contact with molten cast iron which has a temperature of 1200" C. to 1600' C.
  • Such coating is preferably in the form of a film of lamp black applied by means of a smoking acetylene flame.
  • the insulating coating alternatively, may be formed of about 95% kieselguhr and about 5% bentonite suspended in water and sprayed on the refractory dressing.
  • the heat insulating coating may be formed of about 95% graphite and about 5% bentonite, the mixture being suspended in water and sprayed on the refractory dressing.
  • molten cast iron having an approximate composition of total carbon of different sectional thickness is effected by adjusting the I thickness of the coatings to give the desired rate of cooling.
  • Our invention has for its object to provide an improved process for the direct production without annealing of grey cast iron articles.
  • grey cast iron castings are manufactured free from chill and without annealing from molten cast iron of the same composition as that normally producing white castings when cast by the traditional permanent mould process utilising uncoated metal moulds, such grey cast iron castings being produced by the process which comprises coating the faces of male and female dies forming a mold with an inert refractory dressing capable of withstanding the temperature of molten cast iron, heating the said dies, superimposing on the dressing a heat insulating coating capable of maintaining its properties when in contact with molten cast iron, pouring the molten cast iron into the heated female die of said mold, promptly introducing the heated male die into the molten metal contained in the female die and shaping the metal therewith while it is at least 2 C. 50
  • the male die of the mold is promptly introduced into the female die to shape the molten metal therein to the shape defined by the dies when closed. This shaping of the molten metal must be effected while the molten metal is at least 2 C. above its melting point. As it is in a fluid state it is shaped by the co-operating dies without the application of an impact blow or substantial mechanical force, the force applied being only that required to cause displacement of the molten metal. In practice we find that the male die should be introduced into the female dic to shape the female die. I
  • a female iron die and complementary male iron die are used, any suitable means being provided by which the male die can be introduced toand removed from the female die.
  • the faces of the dies are coated with a suitable refractory dressing capable of withstanding the temperature of molten cast iron. That is, a dressing which is inert to I chemical and physical change at a temperature of 1200 C. to 1600 C.
  • the dressing may be a paste formed of silica flour and clay.
  • the refractory dressing may be formed of silica flour and bentonite or about 13% bentonite, about 12% dextrine, about plum-
  • the article so produced has the characteristics of a grey iron casting free from chill.
  • the temperature of the dies should be controlled by any suitable means, for example by currents of air, to such temperature that the film of lamp black or other heat insulating film is not burned and adheres to the re-,
  • uncoated metal molds the process which comprises coating the facesof male and female dies forming a mold with an inert refractory dressing capable of withstanding the temperature of molten cast iron, preheating the said dies to temperatures within the range of from 200 to 550 C., superimposing 'on the refractory dressing a heat insulating coating capable of maintaining its properties when in contact with molten cast iron, then pouring the molten cast iron into the preheated female die, promptly introducing the preheated male die into the molten metal contained in the female die, and shaping the metal therewith while it is in the entirely fluid state and at least 2 C.

Description

United States Patent Oflice THOD OF PRODUCING GREY IRON CASTINGS I N PREHEATED REFRACTORY COATED MALE AND FEMALE DIES James Aubrey Richards, Pertluhlre, and Robert Stewart Martin Jefirey, Klrklntllloch, Sco Walter MncFarlane a Company Limited, Glasgow, North, Scotland No Drawing. Application December 8, 1952, Serlnl No. 324,826
Claims priority, application Great Britain February 21, 1949 1 Claim: (CI. 22-200) This invention has reference to the production of cast iron articles and is a continuation-in-part of our application Serial No. 142,702 filed February 6, 1950 (now abandoned).
The production of grey cast iron' articles w thout annealing in traditional permanent moulds wherein the working faces of the moulds are provided with a coating of refractory material which is given a coating of carbon is known. In the production of grey cast iron articles by such method it is necessary to-cor 1trol the rate of cooling of the casting within the mould. Such control for castings fland, assignors to ing. Further the heating of the dies enables relatively Patented June 12, 1956 having characteristics similar to the refractory dressings" specifically set forth may be used. a
The dies are initially heated to a temperature of not less than 200 .C. and not in excess'of 550 0., this being conveniently done by means of gas burners.
This heating initially serves to dry the refractory dressthin cast iron articles of say A" thick, to be produced without premature solidification of the molten metal. Where thicker cast iron articles are required the necessity of preheating the dies is mainly to ensure drying of the refractory dressing.
Thereafter the refractory dressing is coated with a heat insulating coating capable of maintaining its properties when in contact with molten cast iron which has a temperature of 1200" C. to 1600' C. Such coating is preferably in the form of a film of lamp black applied by means of a smoking acetylene flame. The insulating coating, alternatively, may be formed of about 95% kieselguhr and about 5% bentonite suspended in water and sprayed on the refractory dressing. As a further alternative the heat insulating coating may be formed of about 95% graphite and about 5% bentonite, the mixture being suspended in water and sprayed on the refractory dressing.
'Into the heated female die is introduced molten cast iron having an approximate composition of total carbon of different sectional thickness is effected by adjusting the I thickness of the coatings to give the desired rate of cooling.
Our inventionhas for its object to provide an improved process for the direct production without annealing of grey cast iron articles.
According to the present invention grey cast iron castings are manufactured free from chill and without annealing from molten cast iron of the same composition as that normally producing white castings when cast by the traditional permanent mould process utilising uncoated metal moulds, such grey cast iron castings being produced by the process which comprises coating the faces of male and female dies forming a mold with an inert refractory dressing capable of withstanding the temperature of molten cast iron, heating the said dies, superimposing on the dressing a heat insulating coating capable of maintaining its properties when in contact with molten cast iron, pouring the molten cast iron into the heated female die of said mold, promptly introducing the heated male die into the molten metal contained in the female die and shaping the metal therewith while it is at least 2 C. 50
above its melting point and while it is sufficiently fluid to be shaped by that force only necessary to cause displacement of the molten metal and without imparting an impact blow thereto, allowing the shaped molten metal in the mold to solidify, then removing immediately the male die and removing the resulting shaped grey iron casting from the mold.
3.3%, silicon 2.6%, manganese 0.5%, sulphur 0.1%, phosphorus 1%, the molten metal being at a temperature of about 1350 C. Surface impurities areimmediately removed from the molten metal. The male die of the mold is promptly introduced into the female die to shape the molten metal therein to the shape defined by the dies when closed. This shaping of the molten metal must be effected while the molten metal is at least 2 C. above its melting point. As it is in a fluid state it is shaped by the co-operating dies without the application of an impact blow or substantial mechanical force, the force applied being only that required to cause displacement of the molten metal. In practice we find that the male die should be introduced into the female dic to shape the female die. I
The invention will now be described by way of example as applied to the manufacture of a grey cast iron article of about Ma" cross sectional thickness.
, In this example a female iron die and complementary male iron die are used, any suitable means being provided by which the male die can be introduced toand removed from the female die.
The faces of the dies are coated with a suitable refractory dressing capable of withstanding the temperature of molten cast iron. That is, a dressing which is inert to I chemical and physical change at a temperature of 1200 C. to 1600 C. The dressing may be a paste formed of silica flour and clay. Alternatively, the refractory dressing may be formed of silica flour and bentonite or about 13% bentonite, about 12% dextrine, about plum- The article so produced has the characteristics of a grey iron casting free from chill.
Tlciie metallurgical explanation of this is not fully understoo The immediate removal of the male die after solidification is essential in order to obtain a grey iron casting free from chill.
In casting a number of articles in succession by the process above set forth the refractory dressing of the faces of the dies is covered by a film of lamp black, or other suitable heat insulating coating, prior to making each casting.
The temperature of the dies should be controlled by any suitable means, for example by currents of air, to such temperature that the film of lamp black or other heat insulating film is not burned and adheres to the re-,
utilizing uncoated metal molds, the process which comprises coating the facesof male and female dies forming a mold with an inert refractory dressing capable of withstanding the temperature of molten cast iron, preheating the said dies to temperatures within the range of from 200 to 550 C., superimposing 'on the refractory dressing a heat insulating coating capable of maintaining its properties when in contact with molten cast iron, then pouring the molten cast iron into the preheated female die, promptly introducing the preheated male die into the molten metal contained in the female die, and shaping the metal therewith while it is in the entirely fluid state and at least 2 C. above its meltingpoint and while it is sufficiently fluid to be shaped by that force only necessary to cause displacement of the molten metal and without imparting an impact blow thereto, allowing the shaped molten metal to solidify, then immediately removing the male die and removing the resulting shaped 'grey iron casting from the mold.
US324826A 1949-02-21 1952-12-08 Method of producing grey iron castings in preheated refractory coated male and female dies Expired - Lifetime US2749587A (en)

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Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3153826A (en) * 1962-01-10 1964-10-27 Prec Metalsmiths Inc Precision casting molds and techniques
US3344838A (en) * 1963-12-31 1967-10-03 Sarl Doittau Produits Metallur Method for producing an exothermic lining for ingot and foundry molds and hot tops
US3437131A (en) * 1965-10-07 1969-04-08 Blaw Knox Co Centrifugal casting apparatus with smooth refractory nonhydrocarbon mold coating
US3760863A (en) * 1969-06-11 1973-09-25 Porsche Kg Method for the manufacture of cast iron parts having internally arranged friction bearing surfaces
US3965962A (en) * 1968-05-25 1976-06-29 Toyo Kogyo Co., Ltd. Process for producing ductile iron casting

Citations (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1222786A (en) * 1916-10-09 1917-04-17 Albert W Morris Forged casting and method of making the same.
US1453593A (en) * 1922-08-11 1923-05-01 Earl Holley Coating for metal molds
US1492694A (en) * 1923-03-05 1924-05-06 Earl Holley Double coating for permanent molds
US1597861A (en) * 1923-03-03 1926-08-31 Earl Holley Process of casting iron in permanent molds at a regulated cooling rate
US2061765A (en) * 1932-09-01 1936-11-24 Aluminum Co Of America Permanent mold
US2087764A (en) * 1933-02-24 1937-07-20 Timken Roller Bearing Co Ferrous alloys and method of manufacture
US2241270A (en) * 1933-11-08 1941-05-06 Timken Roller Bearing Co Process for working iron carbon alloys
US2290305A (en) * 1940-02-03 1942-07-21 American Steel & Wire Co Ingot mold coating
US2540242A (en) * 1947-05-26 1951-02-06 Joseph B Brennan Apparatus for casting metal strips

Patent Citations (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1222786A (en) * 1916-10-09 1917-04-17 Albert W Morris Forged casting and method of making the same.
US1453593A (en) * 1922-08-11 1923-05-01 Earl Holley Coating for metal molds
US1597861A (en) * 1923-03-03 1926-08-31 Earl Holley Process of casting iron in permanent molds at a regulated cooling rate
US1492694A (en) * 1923-03-05 1924-05-06 Earl Holley Double coating for permanent molds
US2061765A (en) * 1932-09-01 1936-11-24 Aluminum Co Of America Permanent mold
US2087764A (en) * 1933-02-24 1937-07-20 Timken Roller Bearing Co Ferrous alloys and method of manufacture
US2241270A (en) * 1933-11-08 1941-05-06 Timken Roller Bearing Co Process for working iron carbon alloys
US2290305A (en) * 1940-02-03 1942-07-21 American Steel & Wire Co Ingot mold coating
US2540242A (en) * 1947-05-26 1951-02-06 Joseph B Brennan Apparatus for casting metal strips

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3153826A (en) * 1962-01-10 1964-10-27 Prec Metalsmiths Inc Precision casting molds and techniques
US3344838A (en) * 1963-12-31 1967-10-03 Sarl Doittau Produits Metallur Method for producing an exothermic lining for ingot and foundry molds and hot tops
US3437131A (en) * 1965-10-07 1969-04-08 Blaw Knox Co Centrifugal casting apparatus with smooth refractory nonhydrocarbon mold coating
US3965962A (en) * 1968-05-25 1976-06-29 Toyo Kogyo Co., Ltd. Process for producing ductile iron casting
US3760863A (en) * 1969-06-11 1973-09-25 Porsche Kg Method for the manufacture of cast iron parts having internally arranged friction bearing surfaces

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