US744036A - Process of manufacturing steel. - Google Patents

Process of manufacturing steel. Download PDF

Info

Publication number
US744036A
US744036A US17169702A US1902171697A US744036A US 744036 A US744036 A US 744036A US 17169702 A US17169702 A US 17169702A US 1902171697 A US1902171697 A US 1902171697A US 744036 A US744036 A US 744036A
Authority
US
United States
Prior art keywords
steel
chromium
iron
fusing
crucibles
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
US17169702A
Inventor
William Bertin Brookfield
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.)
Individual
Original Assignee
Individual
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 Individual filed Critical Individual
Priority to US17169702A priority Critical patent/US744036A/en
Application granted granted Critical
Publication of US744036A publication Critical patent/US744036A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • CCHEMISTRY; METALLURGY
    • C22METALLURGY; FERROUS OR NON-FERROUS ALLOYS; TREATMENT OF ALLOYS OR NON-FERROUS METALS
    • C22CALLOYS
    • C22C38/00Ferrous alloys, e.g. steel alloys
    • C22C38/18Ferrous alloys, e.g. steel alloys containing chromium
    • C22C38/22Ferrous alloys, e.g. steel alloys containing chromium with molybdenum or tungsten

Definitions

  • This invention has for its object a process of producing steel known commercially as crucible-steel which is particularly practical and causes the product to be especially uniform in hardness and character; and to this end the invention consists in the manner of treatment hereinafter specifically pointed out and claimed.
  • Figure 1 is a sectional view, partly in elevation, of the greater portion of one form of apparatus for carrying out my process.
  • Figs. 2 and 3 are sectional views, respectively, of one of the crucibles and a crucible-furnace forming part of said apparatus.
  • Fig. 4 is a detail vicwof means forcutting bars or plates of the product formed by my process beforefused, and the fused mixtures are cast into ingots which are rolled or otherwise manipulated for forming finished bars or plates. Owing to the insertion of the ingredients composing the steel into a number of difierent crucibles of relatively small capacity there is obviously more or less variation in the charactor of the steel produced from the'mixtures V fused in the respective crucibles.
  • One of the metallic alloyiugingredients inserted into the crucibles for forming steel in this manner is chromium, and, as is obvious to those skilled in the art, the chromium raises the fusingpointof the mixtures, does not readily and uniformly unite with the iron, and unites to a greater or less extent with the carbon of the crucibles or melting-pots, thus causing the steel product to be more or less seamy and ununiform in carbon and materially lessening the lifetime of the crucibles.
  • cruciblcsteel is produced in a novel manner, as follows: The material, as iron, forming a base, and a metallic alloyingsubstance, as chromium, are melted together in bulkin suitable means, as an openhearth furnace 1, Fig. 1, and are thus refined, mingled, and united to a maximum degree. I usually first fuse the iron in the fur nace l and then add the chromium and subject the entire mass to heat in said furnace until the two metals are thoroughly mixed together. Theiron and chromium compound is cooled and mechanically broken up or subdivided into small parts or fragments in any desired manner.
  • said compound is conducted from the furnace 1 through a trough 2 into a ladle 3 and while molten is dropped from said ladle into a body of water or other liquid in a receptacle 4, whereupon the compound readily separates into substantially spherical bodies of relatively small size, which are quickly cooled in the water, are uniform in hardness and character, and are easily handled and fused.
  • the furnace 1 or the trough 2 is provided with suitable means for controlling or preventing the flow of the molten metal from the furnace through the trough.
  • the iron and chromium compound or mixture may be discharged from the ladle 3 into molds and cast into ingots which may be rolled into bars or plates, and said bars or plates while hot may be cut by a knife 5, Fig. 4, or other tool. Said brokenup or subdivided iron and chromium compound is then filled into crucibles 6 with the desired amount of other metallic alloying substance, as molybdenum, and the same are fused in a crucible-furnace 7, whereupon the molybdenum readily unites with the iron and chromium.
  • iron, chromium, and molybdenum in the following proportions, by weight: iron, 95.50 to 77.50 parts; chromium, 1.50 to 7.5.0 parts, and molybdenum three to fifteen parts.
  • the length of time during which the iron and chromium are heated in the furnace may be from one to twelve hours, and the length of time during which the iron and chromium compound is heated in the crucibles with the molybdenum may be from one to six hours.
  • the proportions of the material, as iron, forminga base, and the metallic alloying substances, as chromium and molybdenum, and the length of time during which the same are subjected to heat are dependent more or less upon the grade of the materials and that a small amount of silicon, usually less than two per cent is present in the finished product. It will also be understood that instead of iron agood grade of soft steel may be used.
  • the materials are refined by the fusing and heating in the furnace and are'thoroughly mixed, even though the steel is low in carbon, that the uniting of the material, as iron, forming a base, and the metallic alloying substance, as chromium, in the furnace reduces to a minimum the liability of the combination of said alloying substance With the carbon of the crucibles and the resultant disintegration and destruction of the crucibles, and that the entire process greatly facilitates the prod notion of a finished product of maximum uniformity in hardness and character and the manufacture of finished bars or plates which are free from defects, as seams, 850., to a maximum degree.

Landscapes

  • Chemical & Material Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Materials Engineering (AREA)
  • Mechanical Engineering (AREA)
  • Metallurgy (AREA)
  • Organic Chemistry (AREA)
  • Manufacture Of Metal Powder And Suspensions Thereof (AREA)
  • Treatment Of Steel In Its Molten State (AREA)

Description

PATENTED NOV. 1'7, 1903.
W. B. BROOKFIELD. PROCESS OF MANUFACTURING STEEL.
APPLICATION FILED 11110.30. 1902. RENEWED SEPT. 2, 1903.
no MODEL.
I INVENTOR w' m 0% BY W ATTORNEYS WITN ESSES m: mums runs cu, mere-mine" wAsHmngun, 04 c.
UNITED STATES Patented November 17, 19032 PATENT 01mins.
PROCESS OF MANUFACTURING STEEL.
31ECIFICATION forming part of Letters Patent No. 744,036, dated November 17, 1903.
Application filed December 30,1902. Renewed September 2, 1903. Serial Nor171,59'7- (No specimens.)
To all whom it may concern:
Be it known that I, W1LLIAM BERTIN BROOK- FIELD, of Syracuse, in the county of Onondaga and State of New York, have invented a certain new and useful Process of Manufacturing Steel, of which the followingis a specification.
This invention has for its object a process of producing steel known commercially as crucible-steel which is particularly practical and causes the product to be especially uniform in hardness and character; and to this end the invention consists in the manner of treatment hereinafter specifically pointed out and claimed.
In describing this invention reference is had to the accompanying drawings, in which like characters refer to corresponding parts in all the views. 7
Figure 1 is a sectional view, partly in elevation, of the greater portion of one form of apparatus for carrying out my process. Figs. 2 and 3 are sectional views, respectively, of one of the crucibles and a crucible-furnace forming part of said apparatus. Fig. 4 is a detail vicwof means forcutting bars or plates of the product formed by my process beforefused, and the fused mixtures are cast into ingots which are rolled or otherwise manipulated for forming finished bars or plates. Owing to the insertion of the ingredients composing the steel into a number of difierent crucibles of relatively small capacity there is obviously more or less variation in the charactor of the steel produced from the'mixtures V fused in the respective crucibles. One of the metallic alloyiugingredients inserted into the crucibles for forming steel in this manner is chromium, and, as is obvious to those skilled in the art, the chromium raises the fusingpointof the mixtures, does not readily and uniformly unite with the iron, and unites to a greater or less extent with the carbon of the crucibles or melting-pots, thus causing the steel product to be more or less seamy and ununiform in carbon and materially lessening the lifetime of the crucibles.
By my invention cruciblcsteel is produced in a novel manner, as follows: The material, as iron, forming a base, and a metallic alloyingsubstance, as chromium, are melted together in bulkin suitable means, as an openhearth furnace 1, Fig. 1, and are thus refined, mingled, and united to a maximum degree. I usually first fuse the iron in the fur nace l and then add the chromium and subject the entire mass to heat in said furnace until the two metals are thoroughly mixed together. Theiron and chromium compound is cooled and mechanically broken up or subdivided into small parts or fragments in any desired manner. In the illustrated apparatus for carrying out my process said compound is conducted from the furnace 1 through a trough 2 into a ladle 3 and while molten is dropped from said ladle into a body of water or other liquid in a receptacle 4, whereupon the compound readily separates into substantially spherical bodies of relatively small size, which are quickly cooled in the water, are uniform in hardness and character, and are easily handled and fused. It will be understood that the furnace 1 or the trough 2 is provided with suitable means for controlling or preventing the flow of the molten metal from the furnace through the trough. If desired, the iron and chromium compound or mixture may be discharged from the ladle 3 into molds and cast into ingots which may be rolled into bars or plates, and said bars or plates while hot may be cut by a knife 5, Fig. 4, or other tool. Said brokenup or subdivided iron and chromium compound is then filled into crucibles 6 with the desired amount of other metallic alloying substance, as molybdenum, and the same are fused in a crucible-furnace 7, whereupon the molybdenum readily unites with the iron and chromium.
In following out this process I preferably use the iron, chromium, and molybdenum in the following proportions, by weight: iron, 95.50 to 77.50 parts; chromium, 1.50 to 7.5.0 parts, and molybdenum three to fifteen parts.
The length of time during which the iron and chromium are heated in the furnace may be from one to twelve hours, and the length of time during which the iron and chromium compound is heated in the crucibles with the molybdenum may be from one to six hours.
To those skilled in the art it will be understood that the proportions of the material, as iron, forminga base, and the metallic alloying substances, as chromium and molybdenum, and the length of time during which the same are subjected to heat are dependent more or less upon the grade of the materials and that a small amount of silicon, usually less than two per cent is present in the finished product. It will also be understood that instead of iron agood grade of soft steel may be used.
It will be particularly noted that by producing steel as described the materials are refined by the fusing and heating in the furnace and are'thoroughly mixed, even though the steel is low in carbon, that the uniting of the material, as iron, forming a base, and the metallic alloying substance, as chromium, in the furnace reduces to a minimum the liability of the combination of said alloying substance With the carbon of the crucibles and the resultant disintegration and destruction of the crucibles, and that the entire process greatly facilitates the prod notion of a finished product of maximum uniformity in hardness and character and the manufacture of finished bars or plates which are free from defects, as seams, 850., to a maximum degree.
Having thus fully described my invention, what I claim as new, and desire to secure by Letters Patent, is
1. The hereinwlescribed process of producing steel, the same consisting in fusing together part of the ingredients for forming the steel, said ingredients fused together including material forming a base and a metallic alloying substance, subdividing the mass of said ingredients, and then fusing said subdivided product With the balance of the ingredients for forming the steel, substantially as and for the purpose described.
2. The herein-described process of producing steel, the same consisting in fusing to.- gether part of the ingredients for forming the steel, said ingredients fused together including material forming a base and a metallic alloying substance, dropping the fused mixture into a body of liquid and thereby reducing said mixture to a subdivided or fragmentary condition,and then fusing said subdivided product with the balance of the ingredients for forming the steel, substantially as and for the purpose specified.
3. The herein-described process of producing steel, the same consisting in fusing in bulk together material forming a base and a metallic alloying substance, reducing the resultant product to a subdivided or fragmentary condition, and then fusing said subdivided product with other metallic alloying substance substantially as and for the purpose described.
4. The herein-described process of producing steel, the same consisting in fusing iron and chromium together, subdividing the mass of said fused iron and chromium, and fusing said subdivided iron and chromium mixture with molybdenum, substantially as and for the purpose described. 5. The herein-described process of producing steel, the same consisting in fusing iron and chromium together, dropping the fused mixture into a body of liquid and thereby reducing said mixture to a subdivided or fragmentary condition, and then fusing said subdivided product with molybdenum, substantially as and for the purpose set forth.
In testimony whereof I have hereunto signed my name in the presence of two attesting witnesses, at Syracuse, in the county of Onondaga, in the State of New York, this 27th day of December, 1902.
WILLIAM BER'IIN BROOKFIELD.
Witnesses:
D. LAVINE, S. DAVIS.
US17169702A 1902-12-30 1902-12-30 Process of manufacturing steel. Expired - Lifetime US744036A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US17169702A US744036A (en) 1902-12-30 1902-12-30 Process of manufacturing steel.

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US17169702A US744036A (en) 1902-12-30 1902-12-30 Process of manufacturing steel.

Publications (1)

Publication Number Publication Date
US744036A true US744036A (en) 1903-11-17

Family

ID=2812533

Family Applications (1)

Application Number Title Priority Date Filing Date
US17169702A Expired - Lifetime US744036A (en) 1902-12-30 1902-12-30 Process of manufacturing steel.

Country Status (1)

Country Link
US (1) US744036A (en)

Similar Documents

Publication Publication Date Title
US744036A (en) Process of manufacturing steel.
US744032A (en) Process of manufacturing steel.
US744035A (en) Process of manufacturing steel.
US744031A (en) Process of manufacturing steel.
US744033A (en) Process of manufacturing steel.
US744034A (en) Manufacturing steel.
US1945260A (en) Composition of matter and process of treating molten metals
US1390197A (en) Self-lubricating metal bearing and the like
US84053A (en) Improvement in the manufacture of iron and steel
US429225A (en) Process of treating slag
US324505A (en) walton
US1420328A (en) Process of making alloy steel
US2028017A (en) Chromite material and method of making the same
US485917A (en) Process of treating clay and products thereof
US93155A (en) Improvement in the manufacture of iron and steel
US1924384A (en) Tough tungsten carbide alloy
US988509A (en) Process of manufacturing metallic manganese and aluminum fluorid.
AT89797B (en) Process and apparatus for the progressive production of cyanamides.
US720300A (en) Process of manufacturing welding compounds.
US730746A (en) Art of making steel direct from iron ore.
US1638076A (en) Process of hardening copper
US1910446A (en) Melting copper-lead
US1326693A (en) Process for hardening copper
US1703658A (en) Apparatus for melting and casting
US144896A (en) Improvement in the manufacture of copper ingots for alloying gold and silver