US1150401A

US1150401A - Treating iron and steel ingots.

Info

Publication number: US1150401A
Application number: US2599415A
Authority: US
Inventors: Benjamin Talbot
Original assignee: Individual
Current assignee: Individual
Priority date: 1915-05-05
Filing date: 1915-05-05
Publication date: 1915-08-17
Anticipated expiration: 1932-08-17

Description

BENJAMIN TALBOT, or mrnntnsnnouen, ENGLAND.

manner.

No Drawing.

To all whom it may concern:

'Be it known that I, BENJAMIN TALBOT, a subject of His Majesty the King of Great Britain, and a resident of Middlesbrough,

in the county of York, England, have invented a certain new and useful Improvement in Treating Iron andSteel Ingots, of which the following is a specification.

For the purpose of getting a solid ingot, and to reduce as much as possible the loss entailed by the necessity of cutting 01? the upper part of the ingot in which there is what 1s known as piping and blow-holes, it has heretofore been proposed to add to the metal de oxidizers, such as aluminium or ferrosilicon while the steel is in the liquid state and before or while it is cast into the mold. When such de-oXidizers areused, blow holes are largely avoidedpbut the piping orv central cavity tends to increase. T 7

To get. rid of the central cavityin the body of the ingot, it is not unusual to have the top of the mold formed of fire-clay,

silica, graphite, or other refractory material which is a slower conductor of heat than the rest of the metal mold. In such cases the heat at the top of the ingot is not so rapidly conducted away and the interioriof the top ofthe ingot remains liquid for a longer period and flows down and fills the bottom of the cavity.

I-Ieretofore it has been customary when using a composite mold, as above, to permit the center of the ingot to become solid and to cut off the top portion which has been in contact with the refractory lining before further treatment of the remainder of the ingot. V In my prior specifications, Nos. 1,055,831, 1,055,832, and 1,055,833, I haveset out [not only an improved method of obtaining comparatively solid ingots but also of producing finished shapes having certain characteristics. In such prior method the desired end was attained by squeezing or compressing the ingot eitherthroughout its entire length or at all events at its upper end, while the center was still fluid, but in order to enable this to be satisfactorily done it is generally necessary to remove the ingot from the mold and place it in a soaking pit or re-heating furnace until the skin of the upper portion is'sufliciently soft to be compressed without cracking, and. this compressing action has 7 been found not only to largely close the cavity or piping but also to diffuse the segre- Specification of Letters Patent.

TREATING IRON AND STEEL INGOTS.

Patented Aug. 17, 1915.

Application filed May 5, 1915. Serial No. 25,994.

. pipe formation.

According to this invention a composite mold as before described is employed and thus some of the pipe or cavity is filled, but instead of leaving the ingot until solid or removing it to a soaking pit or heating furnace, the mold is stripped while the upper outer vertical faces of the ingot still remain at a sufficiently high. temperature to permit of the upper part of the ingot being squeezed or reduced in area so as to almost completely close the cavity without the necessity of the ingot being first placed in a soaking pit or reheating furnace.

In practice, with an ingot of approxi mately about four tons weight when cast with its larger end at its base, and which ingot may be about 24' in cross section at the base, and 6 ft. long, the refractory lining of the upper portion of the metal mold into which the ingot is cast, may extend down about 18 or 24", and after the steel is poured into the mold, it will be possible to wait as long as fromt'O to 90 minutes or more before stripping-the mold from the ingot, and to still find the center of the up per portionof the ingot in a liquid or semiliquid condition, and the outer surface of this portion, which has been in contact with the non-metallic refractory lining sufiiciently hot (say at least,'approximately 100 degrees C. hotter than the lowerv portion) to be directly reduced in cross section without pie-heating, either by rolling or pressing and by so doing to reduce or eliminate the I cavity which ordinarily forms in the upper portion of the ingot, and at the same time drive the excess of impurities (such as sulfur and phosphorus) and carbon from the center of the mass and distribute them in the outer areas of the upper portion of the ingot in a more desirable manner. r

When it is desired to strip in less than minutes from the time the steel is poured, say, for example, 45 minutes, it will be found that the temperature of the vertical sides of the upper portion of the ingot, which has been in contact with the refractory lining, will be approximately 200 degrees C. hotter than the lower portion, which has been in contact with the metallic part of the mold, when working on the same size of ingot. After reducing the area of the upper hotter portion at least of the ingot to the defurnace, to obtain the necessary increased heat on the surface-of the lower portion of the ingot, which has been in contact with the metallic part of the mold. When sufficiently heated throughout the ingotcan be rolled or forgedinto any desired shape or and the pipe reduced thereby.

section.

' In those works where it is desired to heat uid, semi-liquid, or plastic in its upper part,

; before reducing the area of the upper por+ tion, the ingotafter removal from the composite mold is charged into a soaking pit or heating furnace, the surface and interior of the upper portion of the ingot remaining 7 other shape may be obtained, if desired,

considerably hotter than the lower portion, say not less than approximately 100 degrees C. higher when charged into the heating furnace, and after withdrawal from the furnace and before the center of this upper hots ter portion has entirely solidified, the ingot is rolled or pressed down whereby the cavity that would form if it were left to becomecompletely solid before reducingits area, is closed up or reduced, and at the same time there will be obtained a better distribution of the impurities which ordinarily formin excess in the center of the ingot around the base of the cavity. In this case'the whole ingot may be reduced in area instead of the top portion only, and the bloom or without again re-heating. lVhere it is desired to strip the mold from the ingot by means of the usual overhead stripper, it is preferred to have the mold with its larger area at its base, and have the refractory lintains approximately 99.9 per cent. of pure. p

ing placed inside the upper portion of the mold, but in those cases where it is desired to cast theingot with the smaller area at its base, then the refractory lining may be in a separate box from the iron mold, and placed upon the top of same. 7

' ,Theproper time of'stripping the mold from the ingot will vary with the size of V same with the grade of carbon steel, or, the very pure form of ingot iron which coniron which is being treated.

What I claim. is

1. The method'which comprises pouring molten iron or steel into a mold, effecting the unequal cooling of the metal in the mold,

so that the interior of the top ofthe ingot formed shall remain comparatively fluid when the lower part has solidified'sufficiently for stripping, removing the mold fluid to permit the segregate to bef'difi'used 2. The method which comprises pouring molten iron or steel into a composite-mold, retarding the cooling of the metal in the top of the mold so that the top of the ingot formed shall remain comparatively soft with a liquid interior when the lower part has solidified enough to permit stripping. removing the mold :from the ingot, and squeezing the ingot-while the interior of its top remains sufliciently fluid to permit th reduction of the pipe thereby.

- 3. The method which comprises pouring molten iron or steel into a composite mold,

retarding the cooling of. the metal in the topof the mold so that the exterior temperature of the vertical faces of the top of the ingot whichflhave been in contact with the non; metallic part of the mold, shallbeapproxr mately not less than 100 degrees C. higher thanthat ofthe lower portion when stripped from the mold, separating the mold and me got, and squeezing the ingotwhile the interior of the top remainscomparatively fluid with relation to the lower metal.

; 4. The method which comprises pouring molten ironor steel into a composite mold mechanically retarding the cooling-of the metal in the top of the mold, stripping the ingot, charging. the ingot llltO' a heat ng furnace when the surface heat of the top" portion shall be, approximately not less than 100 degrees C. hotter than the lower portion, heating the stripped ngot sons to retain a more fluid or semi-fluid'condition of the metal in the top thanfin the lower parts thereof, and squeezing the ingot while the interior of the top remains sutficiently fluid or plastic to eifect the diffusionof the segregate, the reduction of'the plpe, and the consolidation of the metal so that the reduced 7 ipeistransferred toward the top surface p of the ingot.

In testimony whereof I have hereunto set my hand. v 7 p I p BENJAMIN TALBOT.

Copies of this patent may be obtained for five cents each, by addressing the Commissioner of Patents,

Washington,1 G. i i