Method of and apparatus for electromagnetic mixing of metal during continuous casting
First Claim
1. A method of continuously casting a metal having a conductivity γ
- in 1/ohm-meter comprising the steps of;
continuously pouring said metal in molten condition into the top of a vertically tubular mold to form therein a descending column of said metal;
continuously cooling said mold to harden the periphery of said column;
continuously displacing a magnetic field having an effective strength B in tesla and a vertical length L in meters vertically upwardly in said mold at a propagation velocity v in meters per second to mix said metal in said mold;
establishing a desired subsurface depth d in millimeters of inclusions in the metal in said mold by setting the numerical values of the parameters B, L, γ
, and v in accordance with the formula B2 ×
L=(1/γ
v)(16d2 +120d); and
continuously withdrawing a cooled casting from the bottom of said mold.
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Abstract
A molten metal is poured into the upper end of a vertically tubular continuous-casting mold and is withdrawn as a hardened casting from the lower end of the mold. An electromagnetic field is displaced upwardly counter-current to the descending metal so as to mix the molten part of the metal and displace non-magnetic inclusions away from the hardening skin of the metal. The mold is operated in accordance with the following formula:
B.sup.2 ×L=(1/γv)(16d.sup.2 +120d)
wherein B equals effective strength of magnetic field in tesla, L equals overall vertical length of field in meters, γ equals electrical conductivity of metal being cast in ohms-1 ×meter-1, v equals vertical travel speed of field in meters/second, and d equals desired surface depth of non-metallic inclusions in millimeters i.e., the distance from the outer surface of the casting in a direction normal to this surface. As a rule the overall length L is varied to space the non-metallic inclusions the desired depth below the surface of the thus-produced casting.
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Citations
10 Claims
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1. A method of continuously casting a metal having a conductivity γ
- in 1/ohm-meter comprising the steps of;
continuously pouring said metal in molten condition into the top of a vertically tubular mold to form therein a descending column of said metal; continuously cooling said mold to harden the periphery of said column; continuously displacing a magnetic field having an effective strength B in tesla and a vertical length L in meters vertically upwardly in said mold at a propagation velocity v in meters per second to mix said metal in said mold; establishing a desired subsurface depth d in millimeters of inclusions in the metal in said mold by setting the numerical values of the parameters B, L, γ
, and v in accordance with the formula B2 ×
L=(1/γ
v)(16d2 +120d); andcontinuously withdrawing a cooled casting from the bottom of said mold. - View Dependent Claims (2)
- in 1/ohm-meter comprising the steps of;
-
3. An apparatus for the continuous casting of metal having an electrical conductivity of γ
- in 1/ohm-meter, said apparatus comprising a vertically oriented continuous casting mold;
a housing surrounding said mold and defining with the latter a cooling chamber;
means associated with said mold for pouring metal into said mold, whereby said metal moves through said mold as a descending column;
means for cooling said mold to form a solidified shell at the periphery of said descending column;
mixing means including an upper stack of coils in said cooling chamber and a lower stack of coils positioned below said mold for providing an electric field having an effective strength B in tesla and a combined length L in meters and for displacing said field vertically upwardly in said mold at a propagation speed V in meters per second, said magnetic field acting on the molten metal in the vicinity of said shell in vertical upward direction while the molten metal remote from the shell moves in vertical downward direction;
a power supply permanently connected to said upper stack of coils; and
adjusting means operatively connected with said lower stack of coils and said power supply for selectively connecting said power supply to said coils of said lower stack of coils to vary the combined vertical length for establishing a desired surface depth d in millimeters for inclusions in said descending column according to the numerical values resulting from the formula B2 ×
L=(1/γ
v)(16d2 +120d). - View Dependent Claims (4, 5, 6, 7, 8, 9, 10)
- in 1/ohm-meter, said apparatus comprising a vertically oriented continuous casting mold;
Specification