CH164897A - Process for the dephosphorization of steels. - Google Patents

Description

       

  Process for dephosphorizing nelers.
EMI0001.0002
  
    1 "i) <SEP> of <SEP> prol) lèinea <SEP> <SEP> of <SEP> the
<tb> metallurbie <SEP> from <SEP> iron <SEP> is <SEP> to obtain <SEP> from <SEP> steel:
<tb> as <SEP> poor <SEP> as <SEP> possible <SEP> in <SEP> phosphorus. <SEP> because
<tb> cc <SEP> body, <SEP> even <SEP> in <SEP> very <SEP> low <SEP> proportion,
<tb> gives <SEP> of <SEP> the <SEP> franility <SEP> ïï <SEP> these <SEP> products.
<tb> The <SEP> maximum <SEP> contents <SEP> in <SEP> phosphorus <SEP> ad put <SEP> for <SEP> the <SEP> steels <SEP> - <SEP> variables <SEP> following < SEP> the
<tb> destination <SEP> of <SEP> steels <SEP> - <SEP> can <SEP> in average <SEP>
<tb> is <SEP> classify <SEP> as follows:

  
<tb> <B> (</B> c) <SEP> common <SEP> steels, <SEP> rails, <SEP> joists, <SEP> etc.
<tb> between <SEP> 0.04 <SEP> and <SEP> <B> 0.1%, </B>
<tb> W <SEP> <SEP> mid-fine steels, <SEP> between <SEP> 0.025 <SEP> and <SEP> <B> 0.01%; </B>
<tb> c) <SEP> for <SEP> the <SEP> steels <SEP> thin <SEP> to <SEP> carbon <SEP> or
<tb> Specials. <SEP> 0.025 <SEP> 5, ri.
<tb> It <SEP> is, <SEP> on the other <SEP> part, <SEP> known:
<tb> <B> 10 </B> <SEP> That <SEP> elaboration <SEP> of <SEP> steel <SEP> on <SEP> sole
<tb> acid <SEP> (retort <SEP>% semer. <SEP> oven <SEP> Martin <SEP> acid.
<tb> electric <SEP> oven. <SEP> acid, <SEP> to <SEP> arc, <SEP> to <SEP> induction, <SEP> furnace
<tb> D. <SEP> crucibles) <SEP> nc <SEP> gives <SEP> no <SEP> elimination <SEP> rlu
<tb> phosphorus:
<tb> 20 <SEP> In <SEP> this <SEP> which <SEP> concerns <SEP> the <SEP> basic <SEP> processes:

       
EMI0001.0003
  
    n) <SEP> quo <SEP> the usual <SEP> operation <SEP> to <SEP> the retort <SEP>
<tb> Thomas <SEP> ne <SEP> allows <SEP> to lower <SEP> the <SEP> content <SEP> in
<tb> phosphorus <SEP> in <SEP> below <SEP> of <SEP> 0.08, ô <SEP> approximately
<tb> that at <SEP> price <SEP> of a <SEP> oxidation <SEP> significant <SEP> of
<tb> ter, <SEP> so <SEP> of a <SEP> loss <SEP> in <SEP> iron, <SEP> and <SEP> than <SEP> this
<tb> loss <SEP> .grows <SEP> very <SEP> quickly <SEP> if <SEP> one <SEP> wants <SEP> lower <SEP> the <SEP> content <SEP> in <SEP > phosphorus <SEP> below <SEP> of
<tb> 0, <SEP> #, r '<SEP>.
<tb> 04 <SEP> - # <SEP>,
EMI0001.0004
  
    L)

   <SEP> than in <SEP> operating <SEP> in <SEP> oven <SEP> Martin <SEP> basic
<tb> it <SEP> is required <SEP> <SEP> of <SEP> from <SEP> of a <SEP> load <SEP> of
<tb> fonto <SEP> little <SEP> rich <SEP> in <SEP> phosphorus <SEP> if <SEP> one <SEP> wants
<tb> power <SEP> to stop <SEP> the operation <SEP> at <SEP> moment <SEP> where <SEP> the
<tb> decarburization <SEP> is <SEP> downward <SEP> to <SEP> its <SEP> level
<tb> t1ormal, <SEP> without <SEP> have <SEP> to <SEP> recarburize <SEP> later, <SEP> this <SEP> which <SEP> is <SEP> of a very <SEP> < SEP> big <SEP> interest <SEP> for
<tb> the <SEP> taken <SEP> from <SEP> comes back.

   <SEP> Very <SEP> often <SEP> moreover,
<tb> clans <SEP> the <SEP> practice <SEP> of the <SEP> oven <SEP> Martin, <SEP> on <SEP> proceeds
<tb> to <SEP> an intermediate <SEP> slagging <SEP>, <SEP> that is to say <SEP> to
<tb> a <SEP> removal <SEP> ries <SEP> the <B>, </B> <SEP> slag <SEP> during <SEP> during <SEP> of <SEP> operation, <SEP > for <SEP> to avoid <SEP> a <SEP> rephosphorization
<tb> final <SEP> by <SEP> the <SEP> slag <SEP> loaded <SEP> with <SEP> phosphorus.

         
EMI0002.0001
  
    at <SEP> moment <SEP> where <SEP> on <SEP> proceeds <SEP> to <SEP> the <SEP> deozidation
<tb> metal <SEP>; <SEP> c) <SEP> that <SEP> if <SEP> on <SEP> operates <SEP> at the <SEP> electric <SEP> oven
<tb> basic, <SEP> working <SEP> in <SEP> load <SEP> liquid <SEP> - <SEP> if
<tb> on <SEP> does <SEP> part <SEP> not <SEP> of a <SEP> load <SEP> from <SEP> font <SEP> to <SEP>.
<tb> content <SEP> in <SEP> phosphorus <SEP> very <SEP> low, <SEP> lower <SEP> than
<tb> <B> 0.625% </B> <SEP> approximately <SEP> - <SEP> it <SEP> is <SEP> necessary <SEP> of <SEP> to do
<tb> first <SEP> the <SEP> operation of <SEP> dephosphorization, <SEP> then
<tb> from <SEP> remove <SEP>. and <SEP> from <SEP> only <SEP> perform <SEP> afterwards <SEP>
<tb> <SEP> operations of <SEP> .deoxidation <SEP> and <SEP> of <SEP> desulf <SEP> ura tion,

   <SEP> this <SEP> which <SEP> leads <SEP> to <SEP> a preliminary <SEP> operation <SEP> of one <SEP> hour <SEP> approximately <SEP> nothing <SEP> than < SEP> for <SEP> the
<tb> dephosphorization.
<tb> In summary <SEP>, <SEP> obtaining <SEP> of low <SEP> <SEP> steels
<tb> content <SEP> in <SEP> phosphorus <SEP> could not <SEP> <SEP> be <SEP> obtained <SEP> so far, <SEP> to <SEP> from <SEP> of <SEP> <SEP> raw materials <SEP> rich
<tb> in <SEP> phosphorus;

   <SEP> than <SEP> by <SEP> of <SEP> operations <SEP> of <SEP> long <SEP> duration, <SEP> in <SEP> certain <SEP> cases <SEP> difficult <SEP> and <SEP> dragging, <SEP> in general <SEP>, <SEP> a significant <SEP> loss <SEP>
<tb> of <SEP> metal.
<tb> Also <SEP> can we <SEP> assert- <SEP> that, <SEP> in <SEP> all
<tb> the <SEP> countries, <SEP> the <SEP> processes <SEP> of <SEP> manufacturing <SEP> of <SEP> a cier <SEP> have <SEP> been <SEP> packaged <SEP > by <SEP> the following <SEP> two <SEP> considerations- <SEP>:
<tb> 1o <SEP> Initial <SEP> content <SEP> in <SEP> phosphorus <SEP> of the <SEP> raw <SEP> materials, <SEP> ores, <SEP> fonts <SEP> and <SEP> rublons.
<tb> 20 <SEP> Content <SEP> in <SEP> phosphorus <SEP> final <SEP> to <SEP> obtain,
<tb> variable <SEP> following <SEP> the <SEP> quality <SEP> of steel <SEP> to <SEP> to produce:

  
<tb> ordinary <SEP> steels, <SEP> mid-fine <SEP> or <SEP> fine.
<tb> It is <SEP> as well as <SEP> that <SEP> the <SEP> development <SEP> and <SEP> same
<tb> the <SEP> evolution of <SEP> processes <SEP> of <SEP> manufacturing <SEP> of
<tb> steel <SEP> on <SEP> sole <SEP> acid <SEP> -or <SEP> on <SEP> sole <SEP> basic,
<tb> in <SEP> the <SEP> different <SEP> countries, <SEP> have <SEP> been <SEP> determined
<tb> by <SEP> the <SEP> content <SEP> in <SEP> phosphorus <SEP> of the <SEP> ores
<tb> that <SEP> had <SEP> these <SEP> countries. <SEP> The <SEP> countries <SEP> where <SEP> the
<tb> ores <SEP> are <SEP> rich <SEP> in <SEP> phosphorus, <SEP> such <SEP> as
<tb> <SEP> France <SEP> and <SEP> Germany, <SEP> use <SEP> en <SEP> ma jeure <SEP> part <SEP> the <SEP> sole <SEP> basic.

   <SEP> The <SEP> metallurgical <SEP> factories <SEP> of <SEP> these <SEP> countries <SEP> which <SEP> use <SEP> the <SEP> horn <SEP> Thomas <SEP> do not <SEP> can <SEP> get <SEP> directly
<tb> of <SEP> products <SEP> of <SEP> quality <SEP> without <SEP> a <SEP> loss <SEP> significant <SEP> in <SEP> iron <SEP> resulting in <SEP> a < SEP> <SEP> price of <SEP> returns
<tb> high. <SEP> Those <SEP> which <SEP> make <SEP> call <SEP> to the <SEP> oven <SEP> Martin
<tb> basic <SEP> or <SEP> to the <SEP> electric <SEP> oven <SEP> basic <SEP>:

  are
<tb> constraints <SEP> of <SEP> working <SEP> with <SEP> scouring <SEP> in intermediate, <SEP> therefore <SEP> of <SEP> expensive <SEP> way. <SEP> The
<tb> factories <SEP> .of <SEP> countries <SEP> whose <SEP> minerals <SEP> are <SEP> poor <SEP> in <SEP> phosphorus, <SEP> such <SEP> that <SEP> the <SEP> Sweden, <SEP> the Year-
EMI0002.0002
  
    ,, Cet-erre, <SEP> <B> Cr </B> <SEP> the <SEP> United States, <SEP> use <SEP> to <SEP> on the contrary, <SEP> in <SEP> major <SEP> part, <SEP> the acid <SEP> <SEP> processes;

  
<tb> however, <SEP> the progressive <SEP> exhaustion, <SEP> in <SEP> these
<tb> country, <SEP> .of <SEP> ores <SEP> with <SEP> low <SEP> content <SEP> in <SEP> phos phore, <SEP> makes <SEP> foresee <SEP> the <SEP > generalization. <SEP> of <SEP> la,
<tb> preponderance <SEP> of <SEP> basic <SEP> ovens, <SEP> working.
<tb> the <SEP> plus <SEP> often <SEP> in <SEP> .duplex <SEP> to <SEP> -the <SEP> following <SEP> of <SEP> the
<tb> retort <SEP> Bessemer.
<tb> These <SEP> examples <SEP> show abundantly <SEP>
<tb> rue <SEP> the <SEP> metallurgy-mondial <SEP> lacked <SEP> until now <SEP> of a <SEP> average <SEP> simple, <SEP> economical <SEP> and <SEP > sure
<tb> to lower, <SEP> in <SEP> of <SEP> proportions <SEP> important,

  
<tb> the <SEP> content <SEP> in <SEP> phosphorus <SEP> of the <SEP> steels.
<tb> For <SEP> that a <SEP> such <SEP> medium <SEP> fills <SEP> with <SEP> -such
<tb> conditions, <SEP> it <SEP> is <SEP> essential:
<tb> 1o <SEP> -That <SEP> the <SEP> removal of <SEP> phosphorus, <SEP> even
<tb> when <SEP> it <SEP> is <SEP> of <SEP> relatively <SEP> high <SEP> contents <SEP> in <SEP> phosphorus, <SEP> or <SEP> very <SEP > fast, <SEP> have
<tb> place <SEP> by <SEP> a <SEP> operation <SEP> of <SEP> simple <SEP> realization
<tb> and <SEP> do <SEP>, <SEP> of <SEP> preferably, <SEP> without <SEP> that <SEP> be <SEP> be care <SEP> of a <SEP> outside <SEP> heat <SEP> input <SEP>;

  
<tb>? 0 <SEP> That <SEP> the <SEP> result <SEP> obtained <SEP> is <SEP> regular <SEP> and
<tb> may <SEP> be <SEP> expected <SEP> to <SEP> in advance, <SEP> that is <SEP> that
<tb> the <SEP> dephosphorization <SEP> - <SEP> performed <SEP> with <SEP> the same <SEP>
<tb> order <SEP> of <SEP> quantity <SEP> in <SEP> the <SEP> precision <SEP> than <SEP>. in
<tb> the <SEP> known <SEP> processes <SEP> - <SEP> or <SEP> obtained <SEP> to <SEP> once
<tb> safe <SEP> and <SEP> automatically, <SEP> otherwise <SEP> the <SEP> process <SEP> does not
<tb> can <SEP> have <SEP> of <SEP> value <SEP> industrial practical <SEP>.
<tb> On <SEP> had <SEP> already <SEP> proposed, <SEP> in <SEP> the <SEP> goal <SEP> to remove <SEP> the <SEP> font <SEP> in <SEP > sulfur <SEP> and <SEP> in <SEP> silicon,

   <SEP> of <SEP> ver ser <SEP> on <SEP> the <SEP> font <SEP> placed <SEP> in <SEP> a <SEP> pocket, <SEP> a
<tb> slag <SEP> liquid, <SEP> previously <SEP> melted <SEP> in <SEP> a
<tb> oven <SEP> appropriate, <SEP> this <SEP> dairy <SEP> being <SEP> to <SEP> the <SEP> times <SEP> very
<tb> basic <SEP> - <SEP> to <SEP> remove <SEP> the <SEP> sulfur <SEP> - <SEP> and <SEP> very
<tb> oxidizer <SEP> - <SEP> to <SEP> eliminate <SEP> the <SEP> silicon. <SEP> On <SEP> raised <SEP> by <SEP> the same <SEP> <SEP> occasion;

   <SEP> a <SEP> part <SEP> of the
<tb> phosphorus. <SEP> But <SEP> this <SEP> process <SEP> which <SEP> seems <SEP> has seen <SEP> been <SEP> only a simple <SEP> <SEP> view <SEP> of < SEP> the spirit, <SEP> com carries <SEP> in <SEP> itself <SEP> a <SEP> contradiction <SEP> which <SEP> does
<tb> that <SEP> cannot <SEP> <SEP> be <SEP> allowed <SEP> as <SEP> a <SEP> process <SEP> of <SEP> dephosphorization. <SEP> For <SEP> get <SEP> a
<tb> good <SEP> elimination <SEP> of <SEP> sulfur <SEP> - <SEP> this <SEP> which <SEP> is
<tb> the objective <SEP> that <SEP> is <SEP> proposed <SEP> the author <SEP> of <SEP> the <SEP> pro position <SEP> - <SEP> the <SEP> milkman < SEP> only <SEP> could <SEP> be <SEP> than
<tb> little <SEP> oxidizing.

   <SEP> It <SEP> could not <SEP> <SEP> so <SEP> y <SEP> have
<tb> then <SEP> from <SEP> dephosphorization <SEP> to <SEP> properly <SEP> by ler, <SEP> and <SEP> this <SEP> although <SEP> the operation <SEP> must have <SEP > .be <SEP> made
<tb> at <SEP> low <SEP> temperature, <SEP> therefore <SEP> in <SEP> of <SEP> conditions
EMI0003.0001
  
    favorable <SEP> to <SEP> reactions <SEP> of <SEP> dephosphorization.
<tb> On <SEP> can <SEP> assert, <SEP> by <SEP> against, <SEP> - that he <SEP> y <SEP> would
<tb> a real <SEP> <SEP> destruction <SEP> of the <SEP> produces <SEP> in <SEP> processing, <SEP> because <SEP> it <SEP> would <SEP> produce <SEP> a <SEP> oxidation
<tb> -simultaneous <SEP> of <SEP> all <SEP> the <SEP> elements <SEP> of <SEP> the <SEP> font,
<tb> (read <SEP> silicon <SEP> first,

   <SEP> - of which <SEP> the <SEP> content <SEP> would decrease
<tb> the <SEP> plus. <SEP> then <SEP> together, <SEP> of <SEP> carbon, <SEP> of <SEP> man; a.nèse <SEP> and; <SEP> of <SEP> phosphorus, <SEP> including <SEP> the <SEP> contents
<tb> would decrease: <SEP> in <SEP> from <SEP> proportions <SEP> to. <SEP> little <SEP> close
<tb> #quivalents. <SEP> More <SEP> the <SEP> slag <SEP> would be <SEP> oxidizing,
<tb> plus <SEP> would be <SEP> strong <SEP> the <SEP> disappearance <SEP> of <SEP> every <SEP> on.
<tb> <SEP> elements other <SEP> than <SEP> the <SEP> sulfur. <SEP> In <SEP> any <SEP> state
<tb> of <SEP> cause, <SEP> on <SEP>. would result in <SEP> to <SEP> a <SEP> metal <SEP> hybrid
<tb> which <SEP> does <SEP> would be:

   <SEP> plus <SEP> of <SEP> the <SEP> font <SEP> and <SEP> which <SEP> would be
<tb> i-otally <SEP> unsuitable <SEP> for <SEP> the <SEP> manufacture <SEP> (1st <SEP> a cier <SEP> by <SEP> the <SEP> current <SEP> processes , <SEP> in particular
<tb> to <SEP> processing <SEP> to <SEP> the <SEP> retort <SEP> Bessemer <SEP> or <SEP> to. <SEP> the
<tb> eornue <SEP> Thomas. <SEP> On the other <SEP> part, <SEP> elimination
<tb> dli <SEP> phosphorus <SEP> by <SEP> a <SEP> such <SEP> process, <SEP> and <SEP> same
<tb> is <SEP> of <SEP> other <SEP> elements, <SEP> only <SEP> can <SEP> be <SEP> than
<tb> very <SEP> partial <SEP> if, <SEP> in accordance with <SEP> to.

   <SEP> this <SEP> which <SEP> is
<tb> proposed <SEP>, <SEP> the operation <SEP> is <SEP> made <SEP> without <SEP> contribution <SEP> of
<tb> heat <SEP> outside, <SEP> because <SEP> the <SEP> quantities <SEP> of <SEP> heat <SEP> released <SEP> by <SEP> the operation <SEP> it - even <SEP> does not
<tb> would be <SEP> not <SEP> sufficient <SEP> for <SEP> to maintain <SEP> liquid, <SEP> as <SEP> a <SEP> metal <SEP> including <SEP> the <SEP> point <SEP> of <SEP> fusioji
<tb> increases <SEP> by <SEP> following <SEP> of <SEP> the <SEP> loss <SEP> of <SEP> carbon.
<tb> that a <SEP> slag <SEP> whose <SEP> the <SEP> point <SEP> of <SEP> fusion <SEP> rises
<tb> i-also <SEP> by <SEP> following <SEP> of <SEP> the <SEP> loss <SEP> in <SEP> oxide <SEP> of
<tb> iron.

   <SEP> Oxygenation <SEP> of <SEP> carbon <SEP> would be insufficient <SEP> <SEP> for <SEP> to maintain <SEP> the <SEP> fluidity <SEP> of the <SEP> metal;
<tb> #., n <SEP> other., <SEP> this <SEP> oxidation <SEP> would cause <SEP> an intense <SEP> gas <SEP> <SEP> <SEP> and <SEP> abrupt <SEP> and <SEP> by
<tb> suite <SEP> a <SEP> bubbling <SEP> and <SEP> of the <SEP> projection
<tb> making <SEP> the <SEP> operation inapplicable.
<tb> On <SEP> a <SEP> proposed <SEP> also, <SEP> in <SEP> the <SEP> but <SEP> es sential <SEP> of <SEP> do <SEP> (the <SEP> savings <SEP> on <SEP> the <SEP> raw materials <SEP> <SEP> (the <SEP> dairy <SEP> and <SEP> also <SEP> of the <SEP> eco llomies <SEP> of <SEP > electric <SEP> current,

   <SEP> to exhaust <SEP> methodically <SEP> the dephosphoric <SEP> action <SEP> of garlic
<tb> slag <SEP> basic <SEP> and <SEP> oxidizing <SEP> on <SEP> two consecutive <SEP> heaters <SEP> <SEP> (one <SEP> bath <SEP> ( treated <SEP> steel
<tb> in <SEP> an <SEP> electric <SEP> oven <SEP> or <SEP> a <SEP> oven <SEP> Martin
<tb> siemens. <SEP> A <SEP> this <SEP> effect, <SEP> a new <SEP> slag <SEP> dephosphorant <SEP> <SEP> is <SEP> formed <SEP> in <SEP> the <SEP> oven <SEP> naked <SEP> start
<tb> 0i3 <SEP> the <SEP> second <SEP> operation <SEP> of <SEP> heating <SEP> of
<tb> steel. <SEP> When <SEP> is cast <SEP> the steel <SEP> refined <SEP> to. <SEP> the
<tb> end <SEP> of the <SEP> second <SEP> heating, <SEP> on <SEP> leave <SEP> dau <I> s;

  </I> <SEP> the
EMI0003.0002
  
    oven <SEP> all <SEP> or <SEP> part <SEP> of the <SEP> dairy <SEP> partially
<tb> phosphated <SEP> during <SEP> during <SEP> of <SEP> this <SEP> second <SEP> operation <SEP> of <SEP> heating <SEP> and <SEP> including <SEP> the <SEP> dephorant action <SEP> is <SEP> reduced.

   <SEP> On <SEP> pour <SEP> then <SEP> on
<tb> this <SEP> slag <SEP> a new <SEP> <SEP> loaded <SEP> from <SEP> metal <SEP> to
<tb> refine <SEP> and, <SEP> to <SEP> during <SEP> of a <SEP> first <SEP> operation
<tb> of <SEP> heating <SEP> of <SEP> steel, <SEP> on <SEP> uses <SEP> this <SEP> slag
<tb> used, <SEP> left <SEP> in <SEP> the <SEP> oven, <SEP> for <SEP> to ensure <SEP> a
<tb> first <SEP> partial <SEP> dephosphorization <SEP> (read <SEP> bath
<tb> of steel, <SEP> then, <SEP> after <SEP> the <SEP> first <SEP> operation <SEP> of
<tb> heating <SEP> and <SEP> of <SEP> dephosphorization <SEP> of <SEP> steel,

  
<tb> on <SEP> evacuates <SEP> the <SEP> slag <SEP> completely <SEP> phosphated.
<tb> On <SEP> loads <SEP> then <SEP> with new <SEP> slag <SEP> <SEP> dephosphorant <SEP> and <SEP> on <SEP> proceeds <SEP> to <SEP> the second <SEP> operation
<tb> of <SEP> heating <SEP> of <SEP> steel, <SEP> and thus <SEP> of <SEP> continued <SEP> with
<tb> overlap <SEP> of <SEP> loading <SEP> of <SEP> slag
<tb> new <SEP> and <SEP> -de <SEP> the <SEP> evacuation of the phosphate <SEP> <SEP> slag,
<tb> by <SEP> report <SEP> bare <SEP> loading <SEP> of the <SEP> metal <SEP> to <SEP> refine <SEP> and <SEP> of <SEP> the evacuation <SEP> refined <SEP> metal <SEP>.

   <SEP> It <SEP> is
<tb> expected, <SEP> to <SEP> title <SEP> of <SEP> variant, <SEP> in <SEP> this <SEP> process,
<tb> that <SEP> one <SEP> can <SEP> add <SEP> to the <SEP> dairy <SEP> left <SEP> or <SEP> re placed <SEP> in <SEP> the <SEP> furnace, <SEP> of <SEP> the oxide <SEP> of <SEP> iron <SEP> for
<tb> make <SEP> this oxidizing <SEP> slag <SEP>.
<tb> What <SEP> that <SEP> is <SEP> the <SEP> way <SEP> that <SEP> the <SEP> process
<tb> is <SEP> achieved, <SEP> it <SEP> not <SEP> can <SEP> lead <SEP> to <SEP> a <SEP> result
<tb> 1 <SEP> ratic <SEP> interesting, <SEP> the saving <SEP> of <SEP> price <SEP> of
<tb> returns <SEP> envisaged <SEP> being <SEP> largely <SEP> compensated
<tb> by <SEP> the <SEP> disadvantages <SEP> major <SEP> that it <SEP> presents.
<tb> Everything <SEP> first,

   <SEP> on <SEP> does <SEP> know <SEP> not <SEP> what <SEP> that <SEP> on <SEP> does,
<tb> <B> ce </B> <SEP> which <SEP> is <SEP> inadmissible <SEP> for <SEP> an <SEP> industrial <SEP> process. <SEP> On <SEP> part <SEP> in <SEP> effect <SEP> of a <SEP> slag <SEP> to <SEP> com position <SEP> variable, <SEP> in <SEP> quantity <SEP > badly <SEP> known
<tb> (losses <SEP> in <SEP> 1o <SEP> transfer <SEP> or <SEP> evaluation
<tb> impossible <SEP> of <SEP> the <SEP> quantity <SEP> left <SEP> in <SEP> on
<tb> oven). <SEP> His <SEP> temperature <SEP> is <SEP> still <SEP> more <SEP> wrong
<tb> defined, <SEP> the inevitable <SEP> times <SEP> dead <SEP> <SEP> - <SEP> in
<tb> particular <SEP> waiting <SEP> of the <SEP> metal <SEP> liquid <SEP> - <SEP> sufficient <SEP> to <SEP> the <SEP> to do. <SEP> vary <SEP> a lot;

   <SEP> the <SEP> milkman
<tb> of <SEP> end <SEP> of operation, <SEP> very <SEP> ealeaire <SEP> and, <SEP> by <SEP> consistent, <SEP> refractory, <SEP> will be <SEP> at <SEP> hands <SEP> partially <SEP> frozen. <SEP> Then, <SEP> on <SEP> projects <SEP> on <SEP> this <SEP> mass
<tb> plus <SEP> or <SEP> minus <SEP> molten, <SEP> of <SEP> the oxide <SEP> of <SEP> iron <SEP> so lide, <SEP> which <SEP> is < SEP> distributes <SEP> unevenly <SEP> and <SEP> is incorporated <SEP> in <SEP> of <SEP> conditions <SEP> very <SEP> unequal <SEP> of a
<tb> operation <SEP> to <SEP> the other <SEP> and <SEP> same <SEP> from a <SEP> point <SEP> to
<tb> a <SEP> another <SEP> in <SEP> a <SEP> same <SEP> operation.

   <SEP> On <SEP> pay
<tb> so <SEP> the <SEP> metal <SEP> liquid <SEP> -in <SEP> a <SEP> furnace <SEP> containing.
<tb> a <SEP> heterogeneous <SEP> mass, <SEP> = z <SEP> defined, <SEP> nor <SEP> in
EMI0004.0001
  
    quantity, <SEP> neither <SEP> in <SEP> composition, <SEP> nor <SEP> in <SEP> temperature, <SEP> <B> hence </B> <SEP> results essentially <SEP> <SEP> variable
<tb> and <SEP> one <SEP> ne <SEP> can <SEP> do <SEP> otherwise <SEP> than <SEP> of <SEP> Con dupe <SEP> the operation <SEP> as < SEP> a <SEP> usual <SEP> operation <SEP> of <SEP> dephosphorization,

   <SEP> in <SEP> the <SEP> extending
<tb> sufficiently <SEP> to <SEP> to be <SEP> sure <SEP> to arrive <SEP> at <SEP> the
<tb> minimum <SEP> content <SEP> in <SEP> phosphorus <SEP> likely
<tb> to be <SEP> obtained <SEP> in <SEP> this <SEP> first <SEP> operation.
<tb> The <SEP> dephosphorization <SEP> is <SEP> therefore <SEP> not <SEP> completed
<tb> by <SEP> this <SEP> operation <SEP> and <SEP> it <SEP> has <SEP> <SEP> proposed <SEP> of <SEP> the
<tb> complete <SEP> with <SEP> of new <SEP> slag <SEP>.

   <SEP> On <SEP> will have <SEP> in
<tb> besides <SEP> the major disadvantage <SEP> <SEP> of having, <SEP> after
<tb> scouring, <SEP> a <SEP> metal <SEP> which, <SEP> of a <SEP> operation <SEP> to
<tb> the other, <SEP> will be <SEP> in <SEP> a different <SEP> oxidation state <SEP> <SEP>, <SEP> .du <SEP> does <SEP> than <SEP > one <SEP> will <SEP> not <SEP> not <SEP> exactly <SEP> what <SEP> quantity <SEP> of <SEP> slag <SEP> and <SEP> which <SEP> com position <SEP> of <SEP> slag <SEP> on <SEP> a <SEP> formed, <SEP> this <SEP> at <SEP> against <SEP> of <SEP> the logical <SEP> <SEP > and <SEP> of the <SEP> requirements <SEP> of <SEP> any
<tb> metallurgical <SEP> operation.

   <SEP> Finally, <SEP> the <SEP> put <SEP> on
<tb> the <SEP> sole <SEP> of a <SEP> slag <SEP> badly <SEP> melted, <SEP> added <SEP> -en
<tb> besides <SEP> <B> of </B> <SEP> large <SEP> quantities <SEP> of <SEP> iron <SEP>.
<tb> leads <SEP> to <SEP> large <SEP> possibility <SEP> and <SEP> even <SEP> to <SEP> the <SEP> probability <SEP> of <SEP> merge <SEP> late < SEP> - <SEP> during <SEP> the <SEP> period <SEP> of <SEP> .deoxidation <SEP> of <SEP> steel <SEP> - <SEP> of <SEP> third party <SEP > oxidized, <SEP> reoxidizing <SEP> the <SEP> metal <SEP> to <SEP> this <SEP> moment there, <SEP> does <SEP> well <SEP> known <SEP> -in <SEP> the <SEP> metallurgy <SEP> at
<tb> fout <SEP> electric <SEP> and <SEP> extremely <SEP> harmful
<tb> @ obtaining <SEP> of a <SEP> metal <SEP> of <SEP> quality,

   <SEP> without <SEP> by the <SEP> of <SEP> the <SEP> extension <SEP> obligatory <SEP> of <SEP> the operation <SEP> that it <SEP> involves. <SEP> The <SEP> bath <SEP> of <SEP> time <SEP> is not
<tb> that apparent, <SEP> because <SEP> it <SEP> must <SEP> make <SEP> enter <SEP> in <SEP> line
<tb> of <SEP> counts <SEP> the <SEP> time <SEP> required <SEP> for <SEP> the <SEP> merge
<tb> of the <SEP> slag <SEP> new <SEP> in <SEP> the <SEP> oven <SEP> to the <SEP> contact <SEP> of the
<tb> metal.
<tb> In summary <SEP>, <SEP> the <SEP> process <SEP> proposed <SEP> is <SEP> inoperable <SEP> because <SEP> that <SEP> compensating <SEP> and <SEP> at <SEP> beyond,
<tb> by <SEP> major <SEP> disadvantages <SEP>, <SEP> a <SEP> economy
<tb> purely theoretical <SEP>, <SEP> and <SEP> because <SEP> that <SEP> missing
<tb> totally <SEP> of <SEP> precision,

   <SEP> of <SEP> regularity <SEP> and <SEP> of
<tb> speed. <SEP> It <SEP>. Is, <SEP> on the other hand <SEP>, <SEP> complicated. <SEP> He
<tb> seems <SEP> that it is <SEP>, <SEP> in <SEP> this <SEP> process <SEP> also, <SEP> of a pure <SEP> <SEP> view < SEP> of <SEP> spirit.
<tb> It <SEP> must <SEP> well <SEP> say <SEP> that <SEP> the <SEP> two <SEP> conditions
<tb> essential:

   <SEP> speed <SEP> and <SEP> regularity <SEP> are <SEP> a
contradictory <tb> priori <SEP>. <SEP> They <SEP> are <SEP> however
<tb> obtained <SEP> simultaneously <SEP> by <SEP> the <SEP> presents <SEP> in vention.
<tb> According to <SEP> the <SEP> process <SEP> which <SEP> in <SEP> makes <SEP> the object, <SEP> on
EMI0004.0002
  
    prepare <SEP> separately <SEP> a determined <SEP> quantity <SEP>
<tb> of <SEP> slag <SEP> melted <SEP> homogeneous, <SEP> basic <SEP> and <SEP> oxy Binder, <SEP> very <SEP> fluid, <SEP> to.

   <SEP> temperature <SEP> close to <SEP> of
<tb> that <SEP> of <SEP> steel, <SEP> of <SEP> composition <SEP> perfectly
<tb> fixed <SEP> beforehand <SEP> and <SEP> containing <SEP> in <SEP> dissolved lion <SEP> at <SEP> less <SEP> a <SEP> oxide <SEP> reducible <SEP> by < SEP> on
<tb> phosphorus <SEP> (by <SEP> example <SEP> the oxide <SEP> of <SEP> iron,
<tb> oxide <SEP> d <SEP> e <SEP> manganese), <SEP> in <SEP> quantity <SEP> fixed <SEP> in advance <SEP> and <SEP> on <SEP> performs <SEP> a <SEP> setting <SEP> in <SEP> quick <SEP> contact <SEP> and <SEP> intimate <SEP> - different <SEP> <SEP> parts <SEP> of <SEP> metal <SEP> and <SEP> of <SEP> slag <SEP> liquid <SEP> in <SEP> question, <SEP> by <SEP> one
<tb> violent <SEP> brewing, <SEP> from <SEP> way <SEP> to.

   <SEP> cause <SEP> a
<tb> emulsion <SEP> of <SEP> slag <SEP> in <SEP> steel, <SEP> then <SEP> on <SEP> separates <SEP> the <SEP> metal <SEP> dephosphorus <SEP > with <SEP> the <SEP> milkman
<tb> loaded <SEP> with <SEP> phosphorus.
<tb> The. <SEP> duration <SEP> of <SEP> the. <SEP> setting <SEP> to <SEP> contact <SEP> can
<tb> be <SEP> as much <SEP> plus <SEP> short <SEP> that <SEP> this <SEP> put <SEP> in
<tb> contact <SEP> is <SEP> more <SEP> intimate. <SEP> By <SEP> example, <SEP> in <SEP> making <SEP> cross <SEP> the <SEP> metal <SEP> even <SEP> the <SEP> slag <SEP> in <SEP> worm sant <SEP> the <SEP> metal <SEP> in <SEP> large <SEP> jet <SEP> and <SEP> of a <SEP> height
<tb> sufficient <SEP> on <SEP> the <SEP> slag.

   <SEP> on <SEP> causes <SEP> a <SEP> slow vio <SEP> swirling <SEP> of <SEP> the <SEP> mass <SEP> and <SEP> operation <SEP> does <SEP > takes <SEP> only about <SEP> minute <SEP>. <SEP> In
<tb> pouring <SEP> thus <SEP> the <SEP> metal <SEP> on <SEP> the <SEP> slag, <SEP> it <SEP> is
<tb> forms <SEP> a <SEP> distribution <SEP> in <SEP> particles <SEP> extremely <SEP> fine <SEP> of the <SEP> slag <SEP> in <SEP> the <SEP> metal, <SEP> i.e. <SEP> a <SEP> emulsion <SEP> not <SEP> stable. <SEP> This <SEP> emulsion
<tb> exists <SEP> for <SEP> a relatively short <SEP> time <SEP> <SEP>,
<tb> but <SEP> however <SEP> sufficient <SEP> for <SEP> that <SEP> the <SEP> reaction <SEP> between <SEP> the <SEP> slag <SEP> and <SEP> the < SEP> metal <SEP> has <SEP> pu <SEP> <SEP> produced.

   <SEP> In <SEP> all <SEP> the <SEP> cases, <SEP> there <SEP> there <SEP> will <SEP> not <SEP> be care <SEP> of input <SEP> of <SEP> outdoor heat <SEP>.
<tb> The <SEP> quantity <SEP> of oxide <SEP> reducible <SEP> by <SEP> on
<tb> phosphorus <SEP> and <SEP> content <SEP> in <SEP> the <SEP> slag <SEP> will be <SEP> of
<tb> sufficient <SEP> preference <SEP> for <SEP> to be able to <SEP> remove <SEP>;

  i
<tb> steel <SEP> to <SEP> treat <SEP> the <SEP> quantity <SEP> of <SEP> phosphate <SEP> desired <SEP> and <SEP> leave <SEP> again <SEP> to <SEP> latter <SEP> of <SEP> its <SEP> to see oxidizing <SEP>. <SEP> If <SEP> y <SEP> a. <SEP> from <SEP> silicon <SEP> in <SEP> on
<tb> metal, <SEP> <SEP> must be <SEP> provide <SEP> in <SEP> in addition to <SEP> the <SEP> quantity
<tb> additional <SEP> of oxide <SEP> required <SEP> for <SEP> to remove <SEP> the <SEP> silicon.
<tb> In <SEP> these <SEP> conditions, <SEP> on <SEP> observe <SEP> the <SEP> double <SEP> following <SEP> result <SEP> extremely <SEP> important <SEP> and
<tb> unpredictable <SEP> to <SEP> priori:

  
<tb> 10 <SEP> The <SEP> dephosphorization <SEP> obtained <SEP> during
<tb> this <SEP> time <SEP> extremely <SEP> short <SEP> is <SEP> very <SEP> strong,
<tb> largely <SEP> sufficient <SEP> in <SEP> the <SEP> most <SEP> of <SEP> cases
<tb> for <SEP> solve <SEP> industrial <SEP> <SEP> problems, <SEP> by
EMI0005.0001
  
    example <SEP> lowering <SEP> the <SEP> the <SEP> content <SEP> of <SEP> phos phore <SEP> from <SEP> 0.435 <SEP> to <SEP> 0.049 <SEP> or <SEP> of <SEP> 0.055 <SEP> to <SEP> 0.01 ?;

  
<tb> 2o <SEP> In <SEP> operating <SEP> always <SEP> in <SEP> the same <SEP>
<tb> conditions, <SEP> to <SEP> namely <SEP> composition <SEP> and <SEP> quantity
<tb> chi <SEP> dairy <SEP> and <SEP> operating mode <SEP> <SEP> of <SEP> the <SEP> setting <SEP> in
<tb> intimate <SEP> contact, <SEP> the <SEP> results <SEP> obtained <SEP> are
<tb> extremely <SEP> regular <SEP> and <SEP> precise, <SEP> of <SEP> precision <SEP> and <SEP> of <SEP> regularity <SEP> at least <SEP> <SEP> equiva lentes <SEP> to <SEP> those <SEP> of <SEP> metallurgical <SEP> operations
<tb> usual, <SEP> and <SEP> this <SEP> despite <SEP> the imprecision <SEP> apparent <SEP> of the <SEP> contact <SEP> between <SEP> the <SEP> metal <SEP > and <SEP> the <SEP> dairy.
<tb> This <SEP> keeps <SEP> to <SEP> this <SEP> that,

   <SEP> same <SEP> if <SEP> the <SEP> time <SEP> of
<tb> contact <SEP> is <SEP> very <SEP> short, <SEP> balance <SEP> "slag metal" <SEP> is <SEP> practically <SEP> reached <SEP> in <SEP> - <SEP> any
<tb> the <SEP> mass; <SEP> this <SEP> is <SEP> proven <SEP> in particular <SEP> <SEP> by
<tb> the <SEP> does <SEP> that <SEP> if <SEP> the <SEP> metal <SEP> remains <SEP> then <SEP> lozig time <SEP> in <SEP> contact <SEP> with < SEP> the dairy <SEP>, <SEP> its <SEP> content <SEP> sn
<tb> phosphorus <SEP> does <SEP> change <SEP> practically <SEP> plus <SEP> (difference <SEP> of analysis <SEP> between <SEP> the <SEP> first <SEP> and <SEP > the <SEP> last <SEP> ingot <SEP> of a <SEP> casting <SEP> thus <SEP> made <SEP> by
<tb> example)

  .
<tb> The <SEP> nature <SEP> of the <SEP> walls <SEP> of the <SEP> container <SEP> in
<tb> which <SEP> is <SEP> does <SEP> the <SEP> patching <SEP> has <SEP> no <SEP> influence
<tb> practice <SEP> on <SEP> the <SEP> dephosphorization, <SEP> thanks <SEP> to the
<tb> Extremely short <SEP> time <SEP> <SEP> required <SEP> to <SEP> the <SEP> reaction. <SEP> In particular <SEP>, <SEP> of <SEP> silico aluminous <SEP> bricks <SEP> are <SEP> perfectly suitable. <SEP> He
<tb> y <SEP> a <SEP> to <SEP> keep <SEP> account <SEP> for <SEP> the. <SEP> determination
<tb> of the <SEP> coating <SEP> than <SEP> of the <SEP> factor:

   <SEP> wear <SEP> by <SEP> 1s
<tb> slag <SEP> oxidized, <SEP> this <SEP> for <SEP> the <SEP> only <SEP> considered lion <SEP> of <SEP> price <SEP> of <SEP> returns <SEP> of <SEP> filling.
<tb> The <SEP> temperature <SEP> of the <SEP> metal <SEP> has <SEP> obviously
<tb> a <SEP> influence; <SEP> but <SEP> experiment <SEP> proves <SEP> that
<tb> one <SEP> can, <SEP> in accordance with <SEP> to the <SEP> present <SEP> process,
<tb> dephosphorize <SEP> of <SEP> extra-soft <SEP> steels <SEP> to <SEP> of
<tb> very high <SEP> temperatures <SEP>, <SEP> although <SEP> the elevation
<tb> do <SEP> temperature <SEP> or <SEP> harmful <SEP> to the <SEP> reactions <SEP> of
<tb> dephosphorization.
<tb> The essential <SEP> points <SEP> <SEP> are:

   <SEP> quantity, <SEP> com position <SEP> chi <SEP> slag <SEP> and <SEP> brewing <SEP> of the <SEP> metal <SEP> and
<tb> of the <SEP> dairy, <SEP> such <SEP> that <SEP> one <SEP> almost happens <SEP>
<tb> with <SEP> a <SEP> speed <SEP> remarkable <SEP> to <SEP> balance.
<tb> In the <SEP> case <SEP> where <SEP> this <SEP> mixing <SEP> is <SEP> caused <SEP> mechanically, <SEP> its <SEP> duration <SEP> is <SEP> determined <SEP> experimentally <SEP> for <SEP> to reach <SEP> this <SEP> last <SEP> result.
<tb> One <SEP> times <SEP> the <SEP> four <SEP> conditions:

   <SEP> quantity,
<tb> composition <SEP> of the <SEP> slag, <SEP> mode <SEP> and <SEP> duration <SEP> -.du
<tb> brewing <SEP> fixed. <SEP> experiment <SEP> proves <SEP> that <SEP> the
EMI0005.0002
  
    result: s <SEP> oblenus <SEP>: have <SEP> very <SEP> constant <SEP> with
<tb> <SEP> order of <SEP> precision <SEP> keys <SEP> operations <SEP> metallur (Yiques <SEP> usual.
<tb> If <SEP> the, <SEP> quantity <SEP> key <SEP> phosphorus <SEP> to <SEP> remove <SEP> is
<tb> considerable, <SEP> by <SEP> example <SEP> 1.7%, <SEP> operation
<tb> will be <SEP> advantageously <SEP> made <SEP> by <SEP> action <SEP> successive <SEP> of <SEP> several <SEP> slag <SEP> melted, <SEP> prepared
<tb> like <SEP> it <SEP> has <SEP> been <SEP> said <SEP> above.

   <SEP> It <SEP> is <SEP> possible
<tb> of <SEP> resolve <SEP> as well as <SEP> in <SEP> one <SEP> or <SEP> multiple <SEP> operations <SEP> any <SEP> any <SEP> problem <SEP> key <SEP> dephos phoration <SEP> of steel, <SEP> very <SEP> quickly <SEP> and <SEP> without
<tb> a <SEP> a <SEP> see <SEP> need <SEP> for heat <SEP> <SEP>.
<tb> The <SEP> price <SEP> of <SEP> returns <SEP> of <SEP> the operation <SEP> is <SEP> almost <SEP> that <SEP> of <SEP> the <SEP> prior <SEP> preparation
<tb> melted <SEP> dairy <SEP>.
<tb> The <SEP> quantity <SEP> of <SEP> slag <SEP> to <SEP> to use <SEP> will depend essentially <SEP> <SEP> on <SEP> its <SEP> composition,

   <SEP> she
<tb> will be <SEP> by <SEP> example <SEP> plus <SEP> large <SEP> if <SEP> one <SEP> seeks
<tb> a <SEP> slag <SEP> little <SEP> oxidized <SEP> for <SEP> not <SEP> <SEP> attack
<tb> the <SEP> coating <SEP> silico-aluminous <SEP> of the <SEP> container
<tb> where <SEP> will be <SEP> carried out <SEP> the <SEP> dephosphorization. <SEP> The <SEP> milk <SEP> will be <SEP> essentially <SEP> basic <SEP> and <SEP> oxidizing;

  
<tb> <SEP> bases <SEP> can <SEP> be any <SEP> alkaline earth <SEP> <SEP> or <SEP> alkaline., <SEP> or <SEP> the <SEP> two <SEP> if <SEP> by
<tb> example <SEP> on <SEP> looks for <SEP> a <SEP> point <SEP> of <SEP> merge <SEP> down
<tb> for <SEP> to get <SEP> an easy <SEP> merge <SEP>. <SEP> The dairy <SEP>
<tb> should <SEP> just <SEP> be <SEP> very <SEP> fluid <SEP> to. <SEP> the <SEP> temperature <SEP> where <SEP> on <SEP> the <SEP> flows <SEP> - <SEP> of the <SEP> fondants
<tb> like <SEP> the <SEP> spath <SEP> can <SEP> be <SEP> added <SEP> - <SEP> d @
<tb> the <SEP> silica <SEP> or <SEP> alumina <SEP> or <SEP> similar <SEP> bodies <SEP> also <SEP> - <SEP> to. <SEP> condition <SEP> that <SEP> the <SEP> slag <SEP> remains
<tb> basic.

   <SEP> A <SEP> title <SEP> of example <SEP> not limited <SEP> <SEP> the
<tb> following <SEP> composition:
<tb> Silica <SEP> <B> 3%, </B> <SEP> lime <SEP> <B> 65%, </B> <SEP> oxide <SEP> of <SEP> iron
<tb> <B>:, </B> 0%, <SEP> gives <SEP> & <SEP> very <SEP> good <SEP> results <SEP> in <SEP> the
<tb> majority <SEP> of <SEP> cases.
<tb> In <SEP> this <SEP> which <SEP> concerns <SEP> the <SEP> brewing, <SEP> it <SEP> im port <SEP> that <SEP> is <SEP> violent, < SEP> if <SEP> its <SEP> duration <SEP> is <SEP> limited. <SEP> A <SEP> method <SEP> of <SEP> realization <SEP> particularly simple <SEP> <SEP> and <SEP> economical <SEP> consists of <SEP> to <SEP> to pour
<tb> (the first <SEP> in <SEP> a <SEP> pocket <SEP> the <SEP> quantity <SEP> necessary <SEP> do <SEP> slag.

   <SEP> fade <SEP> from <SEP> composition <SEP> set <SEP> to
<tb> advance, <SEP> then <SEP> to <SEP> pour <SEP> the <SEP> metal <SEP> cleared
<tb> of <SEP> any <SEP> slag <SEP> previous, <SEP> in <SEP> big <SEP> jet <SEP> on <SEP> on
<tb> milkman. <SEP> The <SEP> slag <SEP> returns <SEP> immediately <SEP> â
<tb> the <SEP> surface <SEP> in <SEP> crossing <SEP> the <SEP> metal. <SEP> On <SEP> cons tate <SEP> then <SEP> the following <SEP> result <SEP> very <SEP> <SEP>:

  
<tb> despite <SEP> the <SEP> duration <SEP> particularly short <SEP>, <SEP>
EMI0006.0001
  
    <I> the order </I> <SEP> of <SEP> one <SEP> minute, <SEP> (the <SEP> this <SEP> brew, <SEP> for
<tb> a <SEP> casting <SEP> of <SEP> quine <SEP> tons <SEP> of steel, <SEP> the <SEP> phosphorization <SEP> is <SEP> practically <SEP> completed <SEP > from
<tb> that <SEP> the <SEP> slag <SEP> is <SEP> decanted <SEP> to <SEP> the <SEP> surface <SEP> of the
<tb> metal <SEP> and <SEP> the subsequent <SEP> action <SEP>. of the <SEP> slag <SEP> is <SEP> without
<tb> influence.

   <SEP> The <SEP> regularity <SEP> of <SEP> the operation, <SEP> for
<tb> a <SEP> same <SEP> metal <SEP> and <SEP> a <SEP> same <SEP> slag <SEP> put <SEP> in
<tb> #work <SEP> in <SEP> same <SEP> quantity, <SEP> is <SEP> perfect, <SEP> under
<tb> the <SEP> only <SEP> condition <SEP> of <SEP> cause <SEP> every <SEP> times
<tb> energetic <SEP> brewing <SEP>.
<tb> Desirable <SEP> brewing <SEP> <SEP> is <SEP> very <SEP> easy <SEP> to
<tb> get <SEP> in <SEP> the practical <SEP> <SEP> with <SEP> of the <SEP> pockets <SEP> of
<tb> normal <SEP> form.
<tb> On <SEP> can <SEP> obviously <SEP> replace <SEP> the <SEP> pocket
<tb> by <SEP> a <SEP> four <SEP> to <SEP> condition <SEP> of <SEP> cause <SEP> the <SEP> wise arm <SEP> sufficient.
<tb> <SEP> <SEP> mechanical <SEP> mixing <SEP> <SEP> processes <SEP> can be <SEP> imagined,

   <SEP> but <SEP> this <SEP> that <SEP> matters, <SEP> is
<tb> the <SEP> find <SEP> that <SEP> is <SEP> always <SEP> possible <SEP> of
<tb> do <SEP> a <SEP> mixing <SEP> intense <SEP> "<SEP> slag-metal" <SEP> of
<tb> short <SEP> duration, <SEP> which <SEP> that <SEP> is <SEP> its <SEP> origin, <SEP> which
<tb> can <SEP> give <SEP> the <SEP> double <SEP> result <SEP> necessary:

  
<tb> rapidity <SEP> and <SEP> regularity <SEP> of <SEP> the <SEP> dephosphorization.
<tb> A <SEP> condition <SEP> to ensure <SEP> the necessary <SEP> mixing <SEP>, <SEP> the <SEP> elements <SEP> of <SEP> the operation, <SEP> quantity <SEP> of
<tb> slag, <SEP> composition, <SEP> can <SEP> be <SEP> calculated <SEP> to
<tb> advance, <SEP> in <SEP> function <SEP> -de <SEP> the <SEP> content <SEP> initial <SEP> in
<tb> phosphorus <SEP> and <SEP> of <SEP> the <SEP> final <SEP> content <SEP> in <SEP> phosphorus
<tb> to <SEP> get, <SEP> to <SEP> same <SEP> title <SEP> as <SEP> the <SEP> elements
<tb> of any <SEP> chemical <SEP> operation.
<tb> Here, <SEP> to <SEP> title <SEP> of example <SEP> not <SEP> limiting,
<tb> three <SEP> operations <SEP> do <SEP> in <SEP> these <SEP> conditions,

   <SEP> to
<tb> starting from <SEP> of <SEP> initial <SEP> phosphorus <SEP> contents <SEP>
<tb> very <SEP> variables, <SEP> operations <SEP> which <SEP> have <SEP> given
<tb> the following <SEP> essentially- <SEP> <SEP> results:
<tb> <I> First <SEP> operation: </I> <SEP> Steel <SEP> .soft, <SEP> at <SEP> 0.10%
<tb> of <SEP> carbon <SEP> of <SEP> starting <SEP> contained <SEP> 0.436% <SEP> of
<tb> phosphorus, <SEP> or <SEP> a <SEP> very high <SEP> <SEP> content <SEP> - <SEP> a
<tb> slag <SEP> containing <SEP> 3 <SEP>% <SEP> of <SEP> silica, <SEP> 60 <SEP>% <SEP> of <SEP> lime,
<tb> <B> 35% </B> <SEP> oxide <SEP> of <SEP> iron <SEP> and <SEP> fluidized <SEP> with <SEP> spath <SEP> and
<tb> previously <SEP> prepared <SEP> in <SEP> a separate <SEP> -four <SEP>,
<tb> was <SEP> cast <SEP> in <SEP> a <SEP> pocket,

   <SEP> in <SEP> same <SEP> time
<tb> than <SEP> steel. <SEP> The <SEP> poohe <SEP> has <SEP> been <SEP> immediately
<tb> conduct <SEP> on <SEP> the <SEP> ingot molds. <SEP> The <SEP> start <SEP> of <SEP> the
<tb> casting- <SEP> in <SEP> ingots <SEP> at <SEP> had <SEP> place-5 <SEP> minutes <SEP> after <SEP> on
<tb> mix <SEP>,; slag-meta'1 ":

   <SEP> the <SEP> first <SEP> ingot
EMI0006.0002
  
    cast <SEP> a <SEP> .gave <SEP> to <SEP> analysis <SEP> 0.049% <SEP> of <SEP> phos phore <SEP> and <SEP> the <SEP> last <SEP> cast <SEP> 0.042% 0.
<tb> So <SEP> in <SEP> 5 <SEP> minutes <SEP> a <SEP> steel <SEP> with <SEP> content <SEP> in
<tb> phosphorus <SEP> very <SEP> strong, <SEP> the <SEP> making <SEP> absolutely
<tb> unsuitable <SEP> for <SEP> any <SEP> job, <SEP> has <SEP> seen <SEP> its <SEP> content <SEP> in
<tb> phosphorus <SEP> reduced <SEP> to <SEP> a <SEP> rate <SEP> all <SEP> to <SEP> made <SEP> usual
<tb> for <SEP> the <SEP> merchant steel <SEP>.
<tb> Operation <SEP> had <SEP> been <SEP> done <SEP> on <SEP> 14 <SEP> tons
<tb> of <SEP> metal <SEP> with <SEP> 1,100 <SEP> kg <SEP> of <SEP> slag <SEP>. of <SEP> dephos phoration.
<tb> <I> De-rcx.iè7rze <SEP> operation:

  </I> <SEP> A <SEP> casting <SEP> of <SEP> 1 = 1
<tb> tonnes <SEP> of <SEP> metal <SEP> to <SEP> 0.10 <SEP> approximately <SEP> of <SEP> carbon
<tb> containing <SEP> 0.048 <SEP> to <SEP> 0.060 <SEP> of <SEP> phosphorus <SEP> a <SEP> been
<tb> paid <SEP> in <SEP> pocket <SEP> on <SEP> 300 <SEP> kg <SEP> of <SEP> dairy <SEP> of
<tb> composition: <SEP> SiO2 <SEP> 3%, <SEP> CaO <SEP> 62%, <SEP> oxides
<tb> of <SEP> iron: <SEP> 25, o <SEP> with <SEP> addition <SEP> of <SEP> spath, <SEP> then <SEP> the
<tb> nod <SEP> a. <SEP> was <SEP> taken <SEP> immediately <SEP> on <SEP> on
<tb> ingot molds;

   <SEP> analysis <SEP> of <SEP> the <SEP> casting <SEP> a. <SEP> given
<tb> between <SEP> <B> 0.010% </B> <SEP> and <SEP> <B> 0.013% </B> <SEP> of <SEP> phosphorus <SEP> after
<tb> the operation, <SEP> that is to say <SEP> of excellent <SEP> content
<tb> for <SEP>. <SEP> thin <SEP> steel <SEP> or <SEP> special. <SEP> <SEP> te nors <SEP> in <SEP> phosphorus <SEP> corresponding <SEP> to <SEP> steels
<tb> Thomas <SEP> normal <SEP> have <SEP> so <SEP> has been <SEP> brought in, <SEP> in
<tb> a few <SEP> minutes, <SEP> to <SEP> of <SEP> grades <SEP> - fine <SEP> steels.
<tb> Of the <SEP> ingots <SEP> taken <SEP> under <SEP> the <SEP> pocket <SEP> immediately <SEP> after <SEP> the <SEP> beginning <SEP> of <SEP> the < SEP> casting
<tb> of the <SEP> metal <SEP> in <SEP> the <SEP> pocket.

   <SEP> have <SEP> given <SEP> of <SEP> you linkers <SEP> in <SEP> phosphorus <SEP> equal <SEP> to <SEP> those <SEP> of <SEP> other;
<tb> <SEP> ingots from <SEP> the <SEP> casting, <SEP> to <SEP> analysis <SEP> errors
<tb> close.
<tb> <I> Third <SEP> operation: </I> <SEP> An electric <SEP> steel <SEP>
<tb> to <SEP> 0120% <SEP> of <SEP> carbon <SEP> and <SEP> <B> 0.09229% </B> <SEP> -of <SEP> phosphorus
<tb> has <SEP> been <SEP> brewed <SEP> in <SEP> pocket <SEP> with <SEP> a <SEP> slag <SEP> containing:

   <SEP> Silica <SEP> 5 <SEP>% <SEP>, <SEP> lime <SEP> 637o, <SEP> oxide <SEP> of <SEP> iron
<tb> 20.2% <SEP> added <SEP> of <SEP> spath, <SEP> then <SEP>. taken <SEP> on
<tb> the <SEP> ingot molds.
<tb> The <SEP> first <SEP> ingot <SEP> cast <SEP> eleven <SEP> minutes
<tb> after <SEP> the introduction <SEP> of the <SEP> metal <SEP> in <SEP> the <SEP> pocket,
<tb> has <SEP> presented <SEP> a <SEP> content <SEP> in <SEP> phosphorus <SEP> of
<tb> <B> 0.007%. </B>
<tb> In <SEP> this <SEP> case, <SEP> in <SEP> starting <SEP> from a <SEP> steel <SEP> already
<tb> dephosphorus, <SEP> it <SEP> has <SEP> been <SEP> possible <SEP> in <SEP> a few
<tb> minutes <SEP> to obtain <SEP> an extremely <SEP> content <SEP>
<tb> weak,

   <SEP> significantly <SEP> more <SEP> low <SEP> than <SEP> the- <SEP> levels
<tb> usual <SEP> for <SEP> fine <SEP> steels - <SEP> The <SEP> operation had
<tb> summer <SEP> made <SEP> on <SEP> 18.5 <SEP> tons <SEP> of steel <SEP> with <SEP> -300 <SEP> kg
<tb> of <SEP> slag <SEP> of <SEP> dephosphorization.

         
EMI0007.0001
  
    These <SEP> three <SEP> operations <SEP> extended <SEP> on <SEP> all <SEP> the
<tb> <SEP> range of <SEP> contents <SEP> in <SEP> phosphorus <SEP> illustrate <SEP> the
<tb> <SEP> possibilities that this <SEP> brings <SEP>. <SEP> Well <SEP> in tense, <SEP> if <SEP> one <SEP> has <SEP> <SEP> in <SEP> these <SEP> cases <SEP> of <SEP> lin gots < SEP> without <SEP> other <SEP> operation, <SEP> is <SEP> for <SEP> power
<tb> perform <SEP> the <SEP> analyzes <SEP> of successive <SEP> ingots <SEP>.

   <SEP> In
<tb> current <SEP> application <SEP> a <SEP> deoxidation <SEP> of true <SEP> naturally, <SEP> after <SEP> separation <SEP> from <SEP> milk <SEP> and <SEP> of <SEP> metal, <SEP> follow <SEP> this <SEP> dephosphorization.
<tb> According to <SEP> a <SEP> other <SEP> <SEP> way of executing <SEP> on
<tb> <SEP> method of <SEP> invention, <SEP> on <SEP> performs <SEP> any <SEP> on board <SEP> a normal <SEP> operation <SEP> Thomas <SEP> . <SEP> On <SEP> ob holds, <SEP> at <SEP> this <SEP> stage <SEP> of the <SEP> treatment, <SEP> a <SEP> steel <SEP> Tho inas <SEP> normal.

   <SEP> At <SEP> this <SEP> moment, <SEP> the <SEP> slag <SEP> has <SEP> ab sorbed <SEP> all <SEP> phosphoric acid <SEP> <SEP> from <SEP > of
<tb> oxidation <SEP> of <SEP> phosphorus <SEP> by <SEP> air, <SEP> and <SEP> is
<tb> finds <SEP> in <SEP> state <SEP> of equilibrium <SEP> with <SEP> the <SEP> bath <SEP> of
<tb> metal.
<tb> Any <SEP> extension <SEP> of the <SEP> blowing, <SEP> like
<tb> in <SEP> the <SEP> case <SEP> of an ordinary <SEP> <SEP> Thomas <SEP> operation, <SEP> would obviously <SEP> <SEP> a <SEP> lowering < SEP> of <SEP> the <SEP> content <SEP> in <SEP> phosphorus, <SEP> but <SEP> on <SEP> would destroy <SEP> for <SEP> that <SEP> of <SEP> quantities < SEP> huge <SEP> of <SEP> iron.
<tb> By <SEP> the <SEP> process <SEP> key <SEP> the invention, <SEP> on <SEP> can, <SEP> on
<tb> contrary,

   <SEP> lower <SEP> in <SEP> the <SEP> Thomas <SEP> the <SEP> content
<tb> in <SEP> phosphorus <SEP> Ù. <SEP> an excessively low <SEP> <SEP> degree <SEP>,
<tb> without <SEP> oxidizing <SEP> cleivantage <SEP> the steel. <SEP> In effect <SEP>,
<tb> after <SEP> the <SEP> period <SEP> of <SEP> overdrive <SEP> normal, <SEP> on
<tb> scrub, <SEP> that is to say <SEP> that <SEP> remove <SEP> the <SEP> slag
<tb> which <SEP> was <SEP> in <SEP> balance <SEP> with <SEP> the <SEP> bath <SEP> of <SEP> metal,
<tb> and <SEP> on <SEP> load <SEP> a new <SEP> slag <SEP> <SEP> - <SEP> slag <SEP> melted,
<tb> basic, <SEP> oxidizing, <SEP> free <SEP> from <SEP> phosphorus <SEP> or
<tb> all <SEP> at <SEP> less <SEP> poor <SEP> in <SEP> phosphorus <SEP> - <SEP> which <SEP> is
<tb> finds, <SEP> by <SEP> therefore, <SEP> off <SEP> from balance <SEP> with
<tb> the <SEP> metal.

   <SEP> On <SEP> gives <SEP> then <SEP> an additional <SEP> blow-off <SEP> <SEP> extremely <SEP> short, <SEP> which <SEP> does not have <SEP>
<tb> need, <SEP> in <SEP> practice, <SEP> of <SEP> exceed <SEP> thirty <SEP> seconds. <SEP> The <SEP> mixing <SEP> violent, <SEP> carried out <SEP> between <SEP> slag <SEP> and <SEP> metal <SEP> by <SEP> the <SEP> wind, <SEP> ensure <SEP> in a <SEP> way
<tb> almost instantaneous <SEP> absorption <SEP> by <SEP> the <SEP> dairy
<tb> of a <SEP> quantity <SEP> significant <SEP> of <SEP> phosphorus, <SEP> without
<tb> that it <SEP> <SEP> produce <SEP> (the new <SEP> <SEP> oxidation <SEP> dn
<tb> <SEP> metal <SEP> bath.
<tb> In <SEP> this short <SEP> <SEP> period <SEP> of <SEP> dephosphorization, <SEP> this <SEP> is <SEP> not <SEP> the <SEP> wind <SEP > which, practically <SEP>,

  
<tb> oxidizes <SEP> the <SEP> phosphorus, <SEP> but <SEP> well <SEP> the oxide <SEP> of
<tb> iron <SEP> content <SEP> in <SEP> the new <SEP> slag <SEP>. <SEP> This <SEP> dairy
EMI0007.0002
  
    new, <SEP> en- <SEP> effect, <SEP> is <SEP> not <SEP> diluted <SEP> by <SEP> the <SEP> slag
<tb> previous, <SEP> since we <SEP> has <SEP> unclassified, <SEP> and, <SEP>.
<tb> part, <SEP> its <SEP> composition <SEP> can <SEP> not <SEP> <SEP> be <SEP> modified <SEP> in a <SEP> way <SEP> as long as <SEP > either <SEP> little <SEP> sensitive <SEP> to
<tb> expense <SEP> of <SEP> packing <SEP> of <SEP> the retort <SEP>, <SEP> being
<tb> given <SEP> the extreme <SEP> brevity <SEP> of the <SEP> brewing.
<tb> The <SEP> application of <SEP> the <SEP> present <SEP> invention <SEP> is
<tb> general.

   <SEP> Here, <SEP> to <SEP> title <SEP> of non-limiting <SEP> examples <SEP>, <SEP> some <SEP> possibilities <SEP> practical <SEP> given
<tb> by <SEP> her.
<tb> <B> 1.0 </B> <SEP> Possibility <SEP> to refine <SEP> with <SEP> Bessemer <SEP> acid
<tb> <SEP> fonts <SEP> having <SEP> <SEP> <SEP> content in <SEP> phosphorus
<tb> higher <SEP> <SEP> than <SEP> those <SEP> which <SEP> are currently <SEP>
<tb> processed <SEP> in <SEP> this <SEP> device, <SEP> that is to say <SEP> displacement <SEP> from <SEP> the <SEP> demarcation <SEP> allowed <SEP > so far
<tb> between <SEP> the <SEP> fonts <SEP> intended <SEP> for the <SEP> soles <SEP> acid <SEP> or
<tb> basic.
<tb> Until now <SEP> on <SEP> only <SEP> passed <SEP> to <SEP> Bessemer <SEP> than
<tb> of <SEP> fonts <SEP> titling <SEP> at maximum <SEP> <SEP> -from <SEP> 0.07 <SEP> to
<tb> 0,

  1 <SEP>% <SEP> of <SEP> phosphorus, <SEP> following <SEP> the <SEP> countries. <SEP> It <SEP> is
<tb> possible, <SEP> by <SEP> the application <SEP> of the <SEP> process <SEP> above, <SEP> in <SEP> making <SEP> the operation <SEP> indicated <SEP> in
<tb> the <SEP> pocket <SEP> of <SEP> casting <SEP> before <SEP> putting <SEP> of the <SEP> additions
<tb> deoxidizing, <SEP> of <SEP> pass <SEP> to <SEP> Bessemer <SEP> of
<tb> <SEP> fonts having <SEP> up to <SEP> 1 <SEP>% <SEP> of <SEP> phosphorus <SEP> and
<tb> same <SEP> plus, <SEP> in <SEP> getting <SEP> again <SEP> a <SEP> metal <SEP> to
<tb> <SEP> content <SEP> phosphorus <SEP> suitable,

   <SEP> and <SEP> this <SEP> at
<tb> price <SEP> of a negligible <SEP> extension <SEP> <SEP> of <SEP> operation.
<tb> 20 <SEP> Lowering <SEP> of <SEP> the <SEP> content <SEP> in <SEP> phosphorus
<tb> of <SEP> steels <SEP> Thomas. <SEP> Same <SEP> in <SEP> stopping <SEP> at
<tb> Thomas <SEP> at <SEP> of <SEP> contents <SEP> -de <SEP> <B> 0.08% </B> <SEP> approximately <SEP> of
<tb> phosphorus <SEP> for <SEP> do not <SEP> <SEP> shine <SEP> too <SEP> the <SEP> iron;

   <SEP> on
<tb> will get. <SEP> easily <SEP> by <SEP> the application <SEP> to <SEP> these
<tb> steels <SEP> of the <SEP> process <SEP> making <SEP> the object <SEP> of <SEP> the invention, <SEP> of <SEP> contents <SEP> of <SEP> 0.010 <SEP> to <SEP> <B> 0.025% </B> <SEP> of <SEP> phos phore, <SEP> that is to say <SEP> the <SEP> usual <SEP> contents <SEP > of
<tb> steels <SEP> the <SEP> plus <SEP> thin.
<tb> <B> 30 </B> <SEP> Shutdown <SEP> in <SEP> decarburization <SEP> very <SEP> incomplete
<tb> to <SEP> Martin <SEP> basic <SEP> - <SEP> same <SEP> in <SEP> starting <SEP> from
<tb> enough phosphorous <SEP> <SEP> loads,

   <SEP> and <SEP> getting
<tb> - of a <SEP> metal <SEP> final <SEP> to <SEP> low <SEP> content <SEP> in <SEP> phosphorus.
<tb> 40 <SEP> Extension <SEP> of <SEP> domain <SEP> of <SEP> Martin <SEP> acid
<tb> walking <SEP> in <SEP> load <SEP> liquid.
<tb> 5th <SEP> In <SEP> electric <SEP> furnace <SEP> walking <SEP> in <SEP> from plex <SEP> to <SEP> from steel <SEP> <SEP> Thomas <SEP> by <SEP> example,
<tb> The <SEP> method <SEP> allows <SEP> of <SEP> to shorten <SEP> considerably <SEP> the electrical <SEP> operation. <SEP> In particular <SEP> if, in accordance with. the present invention, the oi practice the additional dephosphorization clans the pocket, one saves approximately one hour in the operation in the electric furnace;

   the scouring is also removed and thus avoids leaving in the oven residues of slag leading to rephosphorization during the deoxidation of the metal.



  <B> 60 </B> Possibility of obtaining steels extremely pure in phosphorus. From steel, for example electric, with 0; 020% phosphorus, it is possible to manufacture steels containing. 0.006 to 0.007% phosphorus.



       r e process which is the subject of the invention therefore provides a simple, new and economical means that -p-allowing complete freedom from the usual subjection in metallurgy for many years, which is imposed by the obligation. to have low phosphorus contents in steels as a result of fillers more or less rich in phosphorus and which imposed certain operating methods which could therefore be profoundly modified, obtaining results as precise for the dephosphorization only by the usual methods.


    

Claims (1)

CLAIM Process for the dephosphorization of steels, by means of a basic and oxidizing molten slag brought into contact with the steel to be dephosphorized, characterized in that, in order to enable the dephosphorization of the steel to be carried out with rapidity, precision and regularity , one prepares separately - a determined quantity of homogeneous, basic and oxidizing molten slag, very fluid, - at a temperature close to that of the air, of predetermined composition, containing, in solution, at least one oxide reducible by phosphorus, in a quantity fixed in advance and in that: the different parts of the metal and the slag are brought into contact quickly and intimately by vigorous stirring, so as to cause an emulsion of the slag in the steel, then. in that the oi separates the metal dephosphorus from the slag loaded with phosphorus. SUB-CLAIM S 1 -Process according to claim, in which <B> the </B> slag which is allowed to act contains approximately 3 ro of silica, <B> 65% </B> of lime, 20% iron oxide. 2 Method according to claim, characterized in that one prepares, in an oven, the oxidizing basic molten slag, in that the desired amount of this slag is poured into a ladle, then in that one pours, in this slag, the steel in a coarse jet, of a height sufficient to obtain the emulsion of the slag in the metal, in that the metal is allowed to settle and in .c: e that this is poured. last by separating it from the slag loaded with phosphorus. 6 A method according to claim, characterized in that the fluid slag is poured into a ladle at the same time as the steel is poured into it, with such violence that the emulsion of the slag is obtained. in steel. then in -.ce that one separates the dephosphorus steel .du slag loaded with phosphorus. -1. Process according to claim for the de-phosphorization of steels with a high phosphorus content, characterized in that several doses of oxidizing basic molten slag are made to act successively on the metal. 5 A method according to claim, characterized in that after blowing in a Thomas retort, the phosphorus-laden slag is removed, then in that the molten, basic and oxidizing slag is added, and in that the slag is added. gives the wind again for a short time, so as to obtain a vigorous stirring causing the emulsion of the slag in the steel.