US503816A - Charles walrand and eugene legenisel - Google Patents

Description

UNITED STATES PATENT OFFICE CHARLES WALRAND AND EUGENE LEGENISEL, OE PARIS, FRANCE.

PROCESS OF MANUFACTURING STEEL.

' SPECIFICATION forming part of Letters Patent No. 503,816, dated August 22, 1893.

Application filed November 30, 1891- Serial No. 413,518. (No specimens.) Patented in France June 29, 1891, 110.214.51 1: in England September 23, 1891, N0- 16,178; in Belgium September 23, 1891, No. 96,499; in Germany September 24, 1891,1lo. 64,950, and in Austria-Hungary September 25, 1891, N0.16,542 and No. 35,534.

To all whom it may concern:

Be it known that we, CHARLES WALRAND and EUGENE LEGENISEL, citizens of the Republic of France, residing at Paris, France, have invented certain new and useful Improvements in Processes of Manufacturing Steel, (for which we have received Letters Patentin France, dated June 29, 1891, No. 214,514; in Germany, dated September 24, 1891, No. 64,950; in Austria-Hungary, dated September 25, 1891, No. 16,542 and No. 35,534; in England, dated September 23, 1891, No. 16,178, and in Belgium, dated September 23, 1891, No. 96,499,) of which the following is a full, clear, and exact description.

In conducting the manufacture of steel on a small scale, a considerable percentage of heat in the charge of metal in the converter is lost and this is due to the too rapid combustion of the silicon, resulting in a solid product. The heat developed in the bath is only retained so long as the silicon remains. Thus, as in the dephosphoration of molten cast iron whether the phosphorus is burned last, the silicon should only be oxidized after the elimination of the carbon so as to withdraw the least possible amount of the heat of the gases generated by the combustion of the latter. We have found in thus operating, there was a considerable gain in heat which permitted the making of steel at a suitable temperature in small quantities.

The object of our process is to produce cast steel with small charges (say approximately one hundred kilograms), thereby rendering the improvements substantially serviceable for making said metal on a limited scale.

Instead of using cast iron containing a considerable proportion of silicon, we treat in the acid operation, any cast iron containing silicon,without re ard to the de ree of the latter, provided said cast iron contains sufficient heat at the period when it is poured into the converting apparatus. We have found thatwith different qualities of cast iron containing silicon in from 1.5 to three per cent. the final temperature of the bath resulting from the small charge which we employed varied very little, due to the brevity of the operation, which constitutes an extremely important factor. If, at the period when the oxidizing operation is terminated (which in the converting apparatus is seen by the lowering of the flame) a certain quantity of silicon is added to the bath under the form of any alloy and the blowing be continued, a remarkable phenomenon is produced. The flame disappears entirely leading to the belief that the operation is only at the commencement of the blowing period. But it will be seen that the temperature gradually rises and it is therefore the silicon which heats the bath.

According to the proportions of silicon added, varying of course with the nature of the metal and the weight of the charge under treatment, the blowing is continued to the period when the flame of the carbon is seen to reappear. The said blow which appeared cold, upon the addition of the silicon alloy becomes extremely hot. Generally the operation is terminated at this point and to insure that the cast metal has reached a suitable condition, a sample is taken. The tap-off is then made as usual under ordinary circumstances. Sometimes, according to the skill of the workman, we operate in a difierent manner. Instead of making the addition of the silicon or silicon alloy, when the flame drops, the blowing is continued so as to strongly oxidize the bath. The molten silicon alloy is then added which in consequence of the combustion of the silicon, reacts in the bath and raises the temperature of the latter as in the first instance. The silicon alloy can be introduced either cold, at a red heat, or preferably in a molten condition to avoid any lowering of the temperature.

We do not limit ourselves to the use of sili= con but propose to use any other agent which under the above specified conditions, will be capable of raising by its combustion, within the bath, the temperature thereof. Thus in a basic operation, the bath would be liquefied after the blowing period, by the addition of a rich alloy of phosphorus and by continuing to blow.

In conducting the manufacture of steel on a large scale by the Bessemer or Thomas process, the addition of silicon, phosphorus or any other combustible agent under the conditions stated, being onlyto obtain "an excessive heat-f1 however doesinot avoid'the necessity for' the specified above, could also be .made with, equallysatisfactory results. ltwiltbeunderstood that the final addition of silicon as practiced by us, has in no wise the purpose ,ordinarily in View of producing the deoxidation of the steel bath. In ourvprocess, the object, of the'additiomis to obtain the he'at o'fthef bath, thus enabling the employment of small charges and the production of steel on a lim-,: ited scale and at a suitable temperature. 'As stated, the importance and effect of the.addi-' tion varies withthe size of n the-chargetreated; and the nature of the cast iron tobe worked.j Theadditi'on'of'siliconor its .equivalent'co'uldfg also be made a little while before,-.or allittle} while after the flame drops, as the result ob. tained will be substantially the same, assum- "iugthe purpose offthe-addition as before 'ing'be'fore the cast iron becomes molt-en; "We? do not contemplate merely a'ugmentinjg "thej amount of silicon "in the bath, as this can 'be secured -either by'mixing in crucibles, or: "by cold or'warm. additions 'to'the ladles into}: which, the con verting" apparatus discharges. 'To'secure .the' desired effect "when 'operat'ingjl, with charges of two hundred kil'ogramsfori example, and whereinthe iron containsien percent. ofsilicon; it willbe well .to add say from five to" ten per cent. of ferro-silicon which" final deoxidizing addition. 'The addition can also be made .to'the superoxidized metal while 1 'in"the ladle. I

. We may employ an ordinary Bessemer converter having facilities for lower, upper or lateral air feed.

We claim- '1. 'An impro'ved-stepin the manufacture of steel, consisting in treatingmetal containing silicon to-efiectcprimarycombustion and oxidation and adding a heat-augmenting agent rich in silicon approximately at the period when the primajrycombustion of "the charge is effected and the oxidizingoperation terminates, is'ubstantiallyia's' set'forth.

oxidation,addingsilicon"approximately at the 1 period "when "the primary co nibnstion I is ef- "fected an iftth e'oxidizi njg operation terminated, and c'ontin uin g the blowing "operation after "suchaddition, substantially-as set forth.

In testimony whereof we have signed this specification in. the, presence o'f two sribscrib- 'ing witnesses.

ZOHARL'ES WALR'AND. EEIIGENE *LEG-ENISEL.

Witnesses:

Row. M. "HooPER, JOSEPH TOURNIER.