Method of making non-oriented electrical steel sheets having exc

Metal treatment – Process of modifying or maintaining internal physical... – Magnetic materials

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H01F 104

Patent

active

051085224

DESCRIPTION:

BRIEF SUMMARY
TECHNICAL FIELD

This invention relates to a method of making non-oriented electrical steel sheets having excellent magnetic properties under low magnetic field.


BACKGROUND OF THE INVENTION

One characteristic required of electrical steel sheets is the magnetic flux density under a low magnetic field. As for non-oriented electrical steel sheets used as iron cores of motors, this characteristic is an important factor governing the efficiency of motors.
In general, the magnetic properties of the electrical steel sheet under the low magnetic field depend on the movability of the domain walls, and are mainly effected by micro-structures such as grain boundaries, fine precipitates, non-metallic inclusions, lattice defects or internal stresses.
Among them, the grain boundaries (grain diameter), fine precipitates and non-metallic inclusions are preliminarily controlled by birthes of steel themselves, and the lattice defects (strain) and the internal stress are very often introduced by external factors during final annealing.
With respect to external strain factors negatively influencing the magnetic properties under the low magnetic field, the most important factors in processing are strains which are caused by tension in an annealing line, bending deformation by the rolls in a furnace or thermal stress during cooling.
There recently has been heavy demand for thin gauge electrical steel sheets, aiming at low iron loss. In view of the objective of keeping the flatness of the steel sheet and improving its properties under the low magnetic field, slow coolings are indispensable within ranges improving the tension and precision without decreasing the productivity. The method for cooling in a final annealing, taking the magnetic properties into consideration, has been proposed in Japanese Patent Laid-Open Specification No. 96,919/77. This proposal specifies the cooling rate from the soaking temperature to 300.degree. C. at not more than 250.degree. C./min for decreasing the iron loss. However in the annealing of 1000.degree. C. shown in the Example, this technique takes 2.8 minutes for cooling from 1000.degree. to 300.degree. C., and uses a long cooling zone. If the running speed of the strip is made slow, not only does the productivity go down, but also it takes a long time for annealing, so that the magnetic properties (especially iron loss) are sometimes deteriorated reversely by extraordinary grain growth during soaking at the annealing temperature.


BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 shows influences of the cooling rate to the magnetic flux density in 1.7 wt % steel; during the final annealing;
FIG. 2 shows influences of the cooling rate to the magnetic flux density in 3 wt % steel during the final annealing;
FIG. 3 shows influences of the cooling rate changing point T.sub.Q during cooling to the magnetic flux density in 1.7 wt % steel in the annealing line;
FIG. 4 shows influences of the cooling rate changing point T.sub.Q during cooling to the magnetic flux density in 3 wt % steel in the annealing line; and
FIG. 5 Shows the optimum range of v.sub.1 and v.sub.2 in 3 wt % steel.


DISCLOSURE OF THE INVENTION

In view of the conventional problems as stated above, it is an object of the invention to effectively check the thermal stress introduced into the steel during cooling in the final annealing line without decreasing the production. For accomplishing this object, special cooling conditions have been specified to exclude particular temperature ranges causing deterioration of the magnetic properties under the low magnetic field, whereby the introduction of thermal stress during cooling has been successfully lowered to a level causing practically no inconvenience, without lowering productivity.
That is, the present invention comprises carrying out one cold rolling or plural cold rollings having interposed therebetween an intermediate annealing on a silicon steel sheet to a final thickness, containing not more than 0.02 wt % carbon (C), 1.0 to 4.0 wt % silicon (Si) and 0.01 to 2.0 wt % aluminum (Al), a f

REFERENCES:
patent: 3770517 (1973-11-01), Gray et al.
patent: 3948691 (1976-04-01), Matsushita et al.

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