Classifications

• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B22—CASTING; POWDER METALLURGY
  • B22D—CASTING OF METALS; CASTING OF OTHER SUBSTANCES BY THE SAME PROCESSES OR DEVICES
  • B22D7/00—Casting ingots, e.g. from ferrous metals
  • B22D7/06—Ingot moulds or their manufacture
  • B22D7/10—Hot tops therefor
  • B22D7/104—Hot tops therefor from exothermic material only
• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B22—CASTING; POWDER METALLURGY
  • B22C—FOUNDRY MOULDING
  • B22C3/00—Selection of compositions for coating the surfaces of moulds, cores, or patterns
• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B22—CASTING; POWDER METALLURGY
  • B22D—CASTING OF METALS; CASTING OF OTHER SUBSTANCES BY THE SAME PROCESSES OR DEVICES
  • B22D7/00—Casting ingots, e.g. from ferrous metals
  • B22D7/06—Ingot moulds or their manufacture
  • B22D7/10—Hot tops therefor
• • C—CHEMISTRY; METALLURGY
  • C22—METALLURGY; FERROUS OR NON-FERROUS ALLOYS; TREATMENT OF ALLOYS OR NON-FERROUS METALS
  • C22B—PRODUCTION AND REFINING OF METALS; PRETREATMENT OF RAW MATERIALS
  • C22B5/00—General methods of reducing to metals
  • C22B5/02—Dry methods smelting of sulfides or formation of mattes
  • C22B5/06—Dry methods smelting of sulfides or formation of mattes by carbides or the like

Definitions

• the present invention has for its object exothermic structures and more particularly exothermic linings for the upper ends of ingot molds or hot tops with a view to delaying the solidification of the dead head and also exothermic inserts for foundry m-olds.
• Such structures may be constituted by a unitary element or else by an assembly of elements fitted in the upper section of the ingot mold, in the hot top or in the mold.
• linings are of two types, to wit: insulating linings constituted by insulating, generally refractory materials, which have for their object to delay the transfer of heat from the molten metal towards the mold, the ingot mold or the metallic hot top and the socalled exothermic linings, constituted by mixtures producing an exothermic reaction when the temperature produced by the molten metal raises that of the lining.
• the fact should be taken into account that those layers should show a heat conductivity as low as possible so as to reduce the speed of transfer of the heat out of the cast metal towards the mold or the metallic hot top, and furthermore they should have a low heat capacity.
• the lining when in contact with the molten metal is raised to a predetermined temperature in accordance with a redetermined gradient and some amount of heat is carried off the molten metal.
• exothermic layers used either alone or in association with insulating layers are chiefly constituted by means of a base of aluminum and of an oxidizing substance.
• the composition obtained with such components have a com- 3,344,838.
• Patented Oct. 3, 1967 paratively high volumetric cost price, which makes their use prohibitive from an economical standpoint when it is necessary to use substantial thicknesses.
• structures incorporating an exothermic layer were obtained hitherto in accordance with various methods, chiefly through molding or blowing by means of a core-producing machine. Such methods resort to mixtures of dry powders or of pasty substances carrying comparatively reduced contents of water, the excess water being subsequently removed through evaporation during the kiln-drying procedure.
• Such structures were also constituted by elements in a pulverulent condition or aluminium shot and/or by-products containing aluminium, soluble oxidizing substances such as alkaline nitrates and chlorates, or insoluble oxidizing substances such as iron and manganese oxides or fluxes such a fluor spar and cryolithe and various fillings such as silica, fireclay and the like.
• the present invention has for its object to remove these drawbacks and to cut out or remove to a considerable extent the percentages of soluble salts by resorting to substances of a volumetric cost price which is less high than all prior substances used for this purpose for a same yield of heat, while forming'an exothermic composition which is particularly suitable for the execution of mold linings including an exothermic layer and an insulating layer associated therewith, which compound linings ensure better results than any composition proposed hitherto.
• the invention also covers the replacement of aluminium by elements which, for a same granulometric value, are less liable to be attacked by alkaline salts than aluminium.
• the invention has more particularly for its object a novel exothermic composition for the execution of linings and structures of ingot molds or hot tops for steelworks or foundry molds, said novel composition being used as an element of a lining including an exothemic layer, alone or associated with one or more insulating layers, wherein the oxidizable component is constituted by silico-calcium or silico-aluminium, while the oxidizing component is constituted by a metal oxide such as manganese dioxide or iron oxide.
• the oxidizable and oxidizing elements are incorporated together with a binder and with mineral and/ or organic fillers.
• the mineral and organic fillers may be of any known type adapted to improve the refractory character, the insulating capacity, the mechanical resistance or the other properties of the lining and to reduce its specific weight. It is possible in particular to resort to crushed fireclay, to siliceous sand, to pulverulent silicate, to dolomite or to calcium carbonate so as to obtain the desired refractory character and further to kieselguhr or an infusorial earth, husks of rice and wood meal with a view to reducing the specific weight and to improving the insulating capacity of the composition, the wood meal also acting as a scouring reagent, while preferably refractory fibres such as asbestos fibres may serve for improving the mechanical resistance and resilience and finally to alumina under a comparatively pure form or in the form of aluminium ashes and pitch are used so as to improve the stripping.
• Said composition preferably includes:
• Silico-calcium or silico aluminium 6 to 35% by weight.
• the chemically reacting substances constituted by silico-calcium and silicoaluminium and the oxidizing substances should have a fine granulometric value above 100 AFS so as to further the reaction, whereas comparatively large granulometric value-s of a magnitude of 50 AFS are selected for the other constituents so as to ensure the maximum permeability furthering the release of the gases.
• exothermic compositions according to the invention may be used for forming a lining directly on the wall of the hot top or they may be used as pre-shaped elements.
• the lining element is constituted by the association of at least one exothermic layer having the above composition and one insulating layer, the exothermic layer having an exothermic capacity compensating the heat capacity of the lining considered as a whole.
• the lining may possibly include in special cases several refractory or insulating layers of different natures or of the same nature, associated in various manners with the exothermic layers so as to ensure technical results such as a delay in the ignition of the exothermic layer, an easier stripping, a proper scouring and the like.
• the heat capacity of the components has no longer any action on the solidifying procedure of the metal forming the dead head and it is possible to merely limit as far as possible the losses through heat conductivity by reducing the specific weight and increasing the thickness of the lining.
• the lowering of the specific weight also reduces the heat capacity of the lining and therefore the exothermic capacity required for the exothermic layer.
• the increase in thickness leads to a reduction in the cross-section of the dead head and in the volume of the latter, said reduction being advantageous since it reduces the waste of metal, while it is not detrimental to the feeding of the ingot by reason of the perfect downward movement of the metal passing out of the dead head.
• the insulating layer includes mineral and/or organic fillers such as those described hereinabove for the exothermic layer, said filler being associated with a binder.
• the invention more particularly covers an insulating composition including:
• Siliceous sand or pulverulent silica 15 to 40% by Weight.
• the products thus obtained are generally kiln-dried at about C. so as to remove a large proportion of the incorporated water, which leads to the possibility of increasing the porosity of the molded element when the fillers have a comparatively coarse granulometric value.
• the use of a high percentage of water implies the use of substances which are not soluble in the mixtures, whether insulating or exothermic, and, in particular, beyond the use of nonsoluble oxidizing substances for the oxidizing layer, the agglomeration is obtained through the use of synthetic resins which are very sparingly soluble and preferably by means of a pulverulent phenolic resin.
• the thicknesses of the exothermic portion of the lining are generally selected as ranging between 5 and mm. but they may be as large as 25 mm. if required, chiefly when said exothermic section is used alone.
• the thickness of the exothermic section varies with the exothermic cap acity of the selected composition and with the heat capacity of the lining for which compensation is desired.
• exothermic thicknesses above 5 mm. or still better above 7 mm are generally led to using for multilayer linings, exothermic thicknesses above 5 mm. or still better above 7 mm.
• the thickness of the insulating material forming the rear section of the lining may vary when the lining includes such a layer between 11 and 32 mm. according to the duration required for the complete solidification of the dead head.
• one of the compositions to be resorted to is first inserted as a first layer over which are formed the layers constituted by the second and possibly the further components.
• Example 1 For the formation of the dead head of a foundry mold, a lining has been used which is constituted by an exothermic section of the following composition:
• Example 2 The lining of the hot tops of an ingot mold for an ingot of chromium-manganese steel weighing 1200 kg. includes an exothermic layer of a thickness of 7 mm. and an insulating layer of a thickness of 23 mm.
• composition of the exothermic layer is as follows:
• the solid materials have been diluted in 500% by weight of water and are given the desired shape inside a mold having walls made of perforated metal sheets.
• an insulating layer having the following composition:
• Example 3 An ingot of steel weighing 2500 kg. for roller bearings was cast with a lining of the hot top constituted by an exothermic layer of a thickness of 8 mm. and an insulating layer of a thickness of 12 mm.
• composition of the exothermic layer was as follows: Percent by weight And the insulating layer had the following composition:
• a method for producing an exothermic lining for ingot and foundry molds and hot tops comprising producing at least one mixture with water, of a powder selected from the class consisting of calcium silicide and aluminum silicide of a powder insoluble in water of an oxide of a metal selected from the class consisting of manganese and iron in an amount effective to oxidize said silicide, and of a filler and a binder insoluble in water, depositing said at least one mixture in at least one layer on a porous substrate by filtration, and drying the deposit and setting the binder at elevated temperature.
• a method for producing an exothermic lining for ingot and foundry molds and hot tops comprising producing at least one mixture with water of about 6 to 35% of a powder of a compound of silicon with a metal selected from the class consisting of calcium and aluminum, of about 10 to 22% of a powder insoluble in water of an oxide of a metal selected from the class consisting of manganese and iron, said powders having an AFS.
• granulometric value higher than 100, of at least a mineral filler and of about 8 to 12% of wood meal, with moreover 7 to 11% by weight of the total above materials of an organic binder depositing said at least one mixture in at least one layer on a porous substrate by filtration, and drying the deposit and setting the binder at elevated temperature.
• a method for producing a molded lining for ingot and foundry molds and hot tops comprising a layer constituted by an exothermic mixture of silicon combined with a metal selected from the group consisting of calcium and aluminum and of an oxide of a metal selected from the group consisting of manganese and iron and a further layer constituted by an insulating mixture, said method consisting in producing insulating and exothermic mixtures with large water contents, filtering one of the mixtures over a predetermined thickness to form a deposit, and filtering the other mixture through the deposit thus formed to reduce its water contents and to form a further deposit with less water, in which the dry contents of the aqueous insulating mixture include about 15 to 40% by weight of comminuted silica, about 15 to 40% by weight of fireclay, about 4 to 12% of kieselguhr, about 7 to 15% of wood meal, up to 11% of asbestos fiber, and about 7 to 11% of synthetic resin.

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• Engineering & Computer Science (AREA)
• Mechanical Engineering (AREA)
• Chemical & Material Sciences (AREA)
• Manufacturing & Machinery (AREA)
• Materials Engineering (AREA)
• Metallurgy (AREA)
• Organic Chemistry (AREA)
• Molds, Cores, And Manufacturing Methods Thereof (AREA)
• Mold Materials And Core Materials (AREA)
• Compositions Of Oxide Ceramics (AREA)
• Other Surface Treatments For Metallic Materials (AREA)

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Citations (4)

Family Cites Families (3)

• 0
  • BE BE657770D patent/BE657770A/xx unknown
• 1964
  • 1964-12-23 DE DE19641458035 patent/DE1458035A1/de active Pending
  • 1964-12-23 DE DE19641583618 patent/DE1583618B1/de not_active Withdrawn
  • 1964-12-24 GB GB42083/67A patent/GB1100897A/en not_active Expired
  • 1964-12-24 GB GB52423/64A patent/GB1100896A/en not_active Expired
  • 1964-12-28 US US421586A patent/US3344838A/en not_active Expired - Lifetime
  • 1964-12-28 LU LU47666A patent/LU47666A1/xx unknown
  • 1964-12-29 SE SE15757/64A patent/SE319865B/xx unknown
  • 1964-12-30 AT AT1103264A patent/AT265545B/de active
  • 1964-12-30 JP JP39074704A patent/JPS5020008B1/ja active Pending
  • 1964-12-30 ES ES0307949A patent/ES307949A1/es not_active Expired
• 1970
  • 1970-01-15 SE SE45170A patent/SE345403C/xx unknown

Patent Citations (4)

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