US724141A - Alloy. - Google Patents

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Publication number
US724141A
US724141A US13355902A US1902133559A US724141A US 724141 A US724141 A US 724141A US 13355902 A US13355902 A US 13355902A US 1902133559 A US1902133559 A US 1902133559A US 724141 A US724141 A US 724141A
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Prior art keywords
phosphorus
per cent
manganese
iron
product
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US13355902A
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John Stevenson Jr
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    • CCHEMISTRY; METALLURGY
    • C22METALLURGY; FERROUS OR NON-FERROUS ALLOYS; TREATMENT OF ALLOYS OR NON-FERROUS METALS
    • C22CALLOYS
    • C22C38/00Ferrous alloys, e.g. steel alloys
    • C22C38/04Ferrous alloys, e.g. steel alloys containing manganese

Definitions

  • the object of this invention is the production for use in the art of the metallurgy of iron and steel of a new metallurgical productnamely, a highly-phosphoric ferromanganese consisting of a combination of iron, phosphorus, and manganese, the latter two elements being present in much larger proportions than are found in pig-irons of ordinary qualities and the product difiering from ferromanganese' and apt in the largely-increased percentage of phosphorus present.
  • the product may be used for various purposes in the metallurgical art; but it is especially useful for the purpose of restoring or adding phosphorus to iron or steel.
  • ferromanganese consists of, roughly, eighty per cent. manganese and twenty per cent. iron (including impurities) and apt twenty per cent. manganese and eighty per cent. iron and impurities, and both of these compounds contain phosphorus in very small proportions-for example, less than one per cent. Ordinary pigirons contain manganese and phosphorus in relatively small proportions, the upper limits.
  • the phosphorus is not less than six per cent., preferably about fifteen to twentyfive per cent.
  • the manganese is not less than fifteen per cent., preferably about fifty to sixty per cent.
  • the iron and impurities about twenty-five per cent.
  • the alloy I preferably proceed as follows: I use an ore containing iron and a high percentage of manganese and smelt the same in a blast-furnace of proper construction with coke and a suitable flux. As most manganiferous ores are low in phosphorus, to obtain a relatively high percentage of this element in the product I use as a flux instead of limestone, as is ordinarily utilized, a natural phosphate limestone, called phosphatic' rock or apatite, or other suitable phosphoritic flux, which will flux off the impurities in the ore and coke and at the same time transfer the contained phosphorus to the previously-reduced or reducing elements-iron and manganeseto form phosphides.
  • This product can also beobtained by re'smelting ferromanganese or apt in a cupola with apatite or other suitable pho'sphoritic flux to flux the coke-ash; but the amount of phosphorus that can be obtained in this way will be smaller on account of the small amount of flux required in a cupola as comparedto a blastfurnace.
  • the same product can also be produced by resmelting ferromanganese or apt in a cupola or reverberatory furnace with ferrophosph-orus and using as a flux either the phosphoritic limestone or a non-phosphoritic limestone, as generally used in blastfurnace practice.
  • My new alloy may be produced by other By the word large in the claim as apiron in combination with the elements phos- Io plied to the proportions of phosphorus and phorus and manganese in large proportions.
  • manganese I mean in the case of phosphorus In testimony whereof I have hereunto set not less than six per cent. and in the case of my hand.

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  • Chemical & Material Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Materials Engineering (AREA)
  • Mechanical Engineering (AREA)
  • Metallurgy (AREA)
  • Organic Chemistry (AREA)
  • Treatment Of Steel In Its Molten State (AREA)
  • Curing Cements, Concrete, And Artificial Stone (AREA)

Description

UNITED STATES PATENT OFFICE.
JOHN STEVENSON, JR, OF SHARON, PENNSYLVANIA.
ALLOY.
SPECIFICATION formingpart of Letters Eatent No. 724,141, dated March 31, 1903.
Application filed December 2, 1902. Serial No. 183,559. (No specimens.)
To all whom it may concern:
Be it known that 1, JOHN STEVENSON, J r., of Sharon, in the county of Mercer and State of Pennsylvania, have discovered and invented a certain new and useful Metallurgical Alloy, of which the following is a full, clear, and exact description.
The object of this invention is the production for use in the art of the metallurgy of iron and steel of a new metallurgical productnamely, a highly-phosphoric ferromanganese consisting of a combination of iron, phosphorus, and manganese, the latter two elements being present in much larger proportions than are found in pig-irons of ordinary qualities and the product difiering from ferromanganese' and spiegel in the largely-increased percentage of phosphorus present. The product may be used for various purposes in the metallurgical art; but it is especially useful for the purpose of restoring or adding phosphorus to iron or steel.
It is well known that manganese and phosphorus separately will combine with iron in anyor all proportions. Thus ferromanganese consists of, roughly, eighty per cent. manganese and twenty per cent. iron (including impurities) and spiegel twenty per cent. manganese and eighty per cent. iron and impurities, and both of these compounds contain phosphorus in very small proportions-for example, less than one per cent. Ordinary pigirons contain manganese and phosphorus in relatively small proportions, the upper limits.
of phosphorus being from three to four per cent. and for manganese about two per cent. Phosphorus and iron will also combine in almost all proportions. For example, a commercial product is known containing twentyfive per cent. phosphorus and seventy-five percent. iron, (inclndingimpurities;) butthe manganese is about one per cent. only. In any combination of either one of these two elements with iron the other element of the two is either absent or is present only in an insignificant amount. By combining both these elementsphosphorus and manganese-together in relatively large proportions with iron according to my invention I obtain a new product of commercial value. In this product the phosphorus is not less than six per cent., preferably about fifteen to twentyfive per cent., the manganese is not less than fifteen per cent., preferably about fifty to sixty per cent., and the iron and impurities about twenty-five per cent.
In making the alloy I preferably proceed as follows: I use an ore containing iron and a high percentage of manganese and smelt the same in a blast-furnace of proper construction with coke and a suitable flux. As most manganiferous ores are low in phosphorus, to obtain a relatively high percentage of this element in the product I use as a flux instead of limestone, as is ordinarily utilized, a natural phosphate limestone, called phosphatic' rock or apatite, or other suitable phosphoritic flux, which will flux off the impurities in the ore and coke and at the same time transfer the contained phosphorus to the previously-reduced or reducing elements-iron and manganeseto form phosphides. This product can also beobtained by re'smelting ferromanganese or spiegel in a cupola with apatite or other suitable pho'sphoritic flux to flux the coke-ash; but the amount of phosphorus that can be obtained in this way will be smaller on account of the small amount of flux required in a cupola as comparedto a blastfurnace. The same product can also be produced by resmelting ferromanganese or spiegel in a cupola or reverberatory furnace with ferrophosph-orus and using as a flux either the phosphoritic limestone or a non-phosphoritic limestone, as generally used in blastfurnace practice.
There are in existence large quantities .of highly-phosphatic manganese ores containing iron which are considered unsuited for the production of ferromanganese and spiegel for the usual uses to which these products have been put. For the production of my phosphoric ferromanganese these same ores are too low in phosphorus to yield a concentration of the phosphorus to the point desired; but by smelting such ores with apatite or phosphate rock or other suitable phosphoritic flux the high percentage of phosphorus in one will be'added to that in the other, resulting in the product described.
My new alloy may be produced by other By the word large in the claim as apiron in combination with the elements phos- Io plied to the proportions of phosphorus and phorus and manganese in large proportions. manganese I mean in the case of phosphorus In testimony whereof I have hereunto set not less than six per cent. and in the case of my hand.
5 manganese not less than fifteen per cent.;
but preferably these proportions should be JOHN STEVENSON exceeded. Witnesses:
I claim- K. J. STEINER, A new metallurgical product consisting of W. H. LEWIS.
US13355902A 1902-12-02 1902-12-02 Alloy. Expired - Lifetime US724141A (en)

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