CN86105994A

CN86105994A - The deep-drawing continuous annealing method and the equipment of ultra low-carbon steel

Info

Publication number: CN86105994A
Application number: CN86105994.8A
Authority: CN
Inventors: 小原隆史; 大泽一典; 佐藤进; 角山浩三; 贝原利一
Original assignee: Kawasaki Steel Corp
Current assignee: JFE Steel Corp
Priority date: 1985-08-13
Filing date: 1986-08-12
Publication date: 1987-04-01
Also published as: EP0211681A2; IT8621475A0; ATE103011T1; KR870002288A; EP0211681A3; BE905254A; IT8621475A1; CA1274157A; ES2000607A6; FR2586257B1; JPS62124233A; IT1197864B; FR2586257A1; DE3689714D1; CN1012826B; DE3689714T2; KR910001607B1; EP0211681B1

Abstract

A kind of method and apparatus that ultra low-carbon steel is carried out continuous annealing is disclosed.The equipment that is used to implement this method comprises the heating zone, has the temperature adjustment district of bigger per unit length steel plate thermal capacity and excellent sensitivity, quench zone and final cooling zone.

Description

The deep-drawing continuous annealing method and the equipment of ultra low-carbon steel

The present invention relates to deep-drawing is carried out with ultra low-carbon steel the method and apparatus of continuous annealing.More particularly, and compare as most important stove district with the cooling zone in the conventional oven minor structure, the present invention relates to heating can utilize the method and apparatus of the fabulous mechanical property of ultra low-carbon steel to greatest extent as the most important structure of stove.

Before the present invention, disclose among the Japanese Patent Application Publication No.47-33409 by continuous annealing process for producing deep-drawing steel plate.Shown in symbol among Fig. 5 (a), this processing method be hot rolling and cold rolling after steel sheet volume is heated to comparatively high temps, one section specific time of soaking insulation under this temperature, quick cooling is to about 400 ℃, about 400 ℃, kept 1-3 minute, then cool to room temperature.In addition, also mention a kind of technology in the description of the Prior Art of above-mentioned patent documentation part, shown in symbol among Fig. 5 (b), it is after heating, soaking insulation, only utilizes cooling to come soft steel is carried out anneal.In any case, always very hard according to above-mentioned thermal cycling annealed steel plate, be not suitable as the deep-drawing steel plate.

At present, only soft steel is carried out annealed equipment and realized industrial applications according to this technological cycle of heating → soaking insulation → chilling → overaging.

As everyone knows, produce deep-drawing with in the routine techniques of steel plate in this soft steel continuous annealing, refrigerating work procedure is most important in the continuous annealing process.In other words, chilling and overaging condition must be controlled, preceding slow cooling conditions of chilling or the final cooling conditions after the overaging must be controlled in addition.Therefore, in the continuous annealing of soft steel, an important problem is how to realize a kind of like this ideal and very complicated refrigeration cycle effectively in actually operating, how to design the equipment that can produce this steel plate according to above-mentioned thermal cycling expeditiously in other words.Up to the present, people design and build according to above-mentioned technical conceive to produce deep-drawing with the continuous annealing apparatus of steel plate.With in continuous annealing apparatus of steel plate, the cooling zone has become the part of decision device productivity to the result at all existing production deep-drawings, so the operation of cooling zone and control method give design earlier, so that preferentially reach desired cooling conditions.This is the inevitable outcome that the viewpoint from the technical conceive of this routine draws.

On the other hand, people know, when using carbon content to be lower than 1/10th ultra low-carbon steel (C ≈ 0.002%) of ordinary low-carbon steel (C ≈ 0.04%), just there is no need to carry out overaging and have handled.Yet, it is also believed that soft steel and ultra low-carbon steel heat with the soaking operation on do not have essence difference.Thereby up to the present people are used for handling ultra low-carbon steel to the common annealing stove that designs for soft steel always.But in such stove, the fabulous mechanical property of ultra low-carbon steel may not obtain utilizing, and has but brought many troubles on the contrary.

When handling soft steel in the deep-drawing usefulness common continuous annealing apparatus of steel plate as shown in Figure 4, the control of chilling speed and overaging condition is very important.In order accurately to control these factors, the temperature during the beginning chilling, promptly the temperature in exit, soaking zone should be a constant.But, because the variation of steel plate translational speed, steel plate thickness etc., symbol in Fig. 4 a (i), (ii) and (iii), the different variation takes place in the temperature in the heating zone.Under extreme case, in the heating zone, be heated to the steel plate of comparatively high temps, in cooling gradually shown in symbol (i) among Fig. 4 a in the soaking zone.

The inventor has found following situation from the test-results of being done in this respect.Melting contains the ultra low-carbon steel of 0.0025%C, 0.08%Mn, 0.01%Si, 0.010%P0.005%S, 0.04%Al, 0.002%N and 0.035%Ti (% meter) by weight and it is continuously cast into slab through hot rolling with cold rollingly obtain the steel plate that final thickness is 0.8mm.Steel plate is heated under different temperature, and soaking is incubated 0-120 second, carries out skin rolling then.Measure the unit elongation through the steel plate of handling so subsequently, obtain the result shown in Fig. 2, the numerical value among the figure in the circle of garden is unit elongation value (%).As can see from Figure 2, unit elongation increases with the rising of Heating temperature, but under 750 ℃ lesser temps,, and be higher than influence that can't see the soaking soaking time under 800 ℃ the Heating temperature basically even it is still very small to be incubated the increase of unit elongation for a long time.Also observe similar trend for other performances such as resembling yield strength, tensile strength.

Subsequent check obtains the result shown in Fig. 2 at 850 ℃ of annealed secondary processing brittleness, and symbol zero expression does not have fragility among the figure, and symbol * expression produces fragility.From the result of Fig. 2 as can be seen, when the soaking soaking time was 0, even also do not ftracture under-80 ℃ temperature, and the soaking insulation was when being no less than 30 seconds, and-50 ℃ are brought up to and be not less than to embrittlement temperature.Confirmed preferably to make the soaking soaking time to shorten as far as possible according to this fact.

Subsequent the steel plate that through cold rolling final thickness is 0.8mm is heated to different temperature with 35 ℃/second rate of heating, then with 30 ℃/second speed of cooling quick cooling, measures its r value (Lankford value), the result who obtains as shown in Figure 3.As seen from Figure 3, under the situation of soft steel, the r value trends towards along with the annealing temperature rising and increases, but the variation of r value is not too big.On the contrary, when annealing temperature reached 850 ℃, the ratio increase of austenite phase had stoped grain growth, thereby the r value trends towards reducing.Otherwise under the situation of ultra low-carbon steel, the r value trends towards raising and significantly increase with annealing temperature.

According to these results, the inventor finds, for the product that is obtained by ultra low-carbon steel to determine, it is essential control maximum heating temperature rather than control soaking soaking time.

Consider in common continuous annealing apparatus ultra low-carbon steel annealed situation according to above-mentioned knowledge, steel plate in foregoing heating zone by symbol (i) among Fig. 4 a, (ii) and the thermal cycling (iii) change and anneal, even the temperature in exit, result soaking zone is a constant, because maximum heating temperature difference in the heating zone has still produced the problem that mechanical property changes.

Because ultra low-carbon steel at high temperature becomes very soft, along with hold-time prolongation at high temperature, the danger that produces surface imperfection and generation coil breaks has increased, therefore necessary SC.

The objective of the invention is, solve the above-mentioned all problems in the ultra low carbon steel slab production and continuous annealing method and the equipment that can accurately control the regulation Heating temperature is provided.

According to a first aspect of the invention, stipulated the continuous annealing method of deep-drawing with ultra low-carbon steel, this method may further comprise the steps:

The sheet material of above-mentioned steel is heated to it more than brilliant again temperature by room temperature;

By being heated rapidly to the temperature of the steel plate that the adjustment of regulation maximum heating temperature heated, precision at least ± ℃ in, said regulation maximum heating temperature is according to giving selected earlier steel composition, the relation of working condition and product performance is determined;

Without just cooling fast of soaking insulation, be cooled to room temperature then.

According to a second aspect of the invention, stipulated the continuous annealing apparatus of deep-drawing with ultra low-carbon steel, it comprises heating zone, temperature adjustment district, quench zone and final cooling zone.Even wherein temperature adjustment district has than the high per unit length steel plate heating efficiency in heating zone and at inhomogeneous district temperature accuracy and also can reach at least ± 10 ℃ highly sensitive.This equipment is different with common continuous annealing apparatus, and shown in Fig. 1 b, it has replaced the soaking zone and removed the overaging district with temperature adjustment district.

In one the of the present invention concrete equipment of preferentially selecting for use,, be provided with one in the front of heating zone and give the hot-zone in order to improve thermo-efficiency.

In the concrete equipment that another is preferentially selected for use of the present invention, in order to control maximum heating temperature effectively, can be provided with one can be in heat-processed cooled zones.

The present invention is described with reference to the accompanying drawings, in the accompanying drawings:

Fig. 1 a represents a thermal cycling in the device in accordance with the invention;

Fig. 1 b is the synoptic diagram according to a concrete equipment of equipment of the present invention;

Fig. 2 represents the influence to unit elongation of soaking time and Heating temperature;

Fig. 3 is the graphic representation of annealing temperature to the influence of r value;

Fig. 4 a is illustrated in a thermal cycling in the common continuous annealing apparatus;

Fig. 4 b is common continuous annealing apparatus synoptic diagram;

Fig. 5 is illustrated in a thermal cycling in the common annealing process;

Fig. 6 is a graphic representation, the changes of properties when translational speed that it is illustrated in uncoiling steel plate in the continuous annealing process changes.

The key distinction according to the common equipment shown in equipment of the present invention and Fig. 4 is, has omitted the overaging district and has been provided with the temperature adjustment district that replaces the soaking zone.The intent of the present invention is, controls temperature when heating steel plate in temperature adjustment district reliably, therefore requires to have sizable thermal capacity and good sensitivity.In this case, the thermal capacity of per unit length steel plate must or be given the hot-zone greater than the heating zone in the temperature adjustment district.In addition, even also must reach at least at inhomogeneous district temperature accuracy ± 10 ℃.For this purpose, adopted in temperature adjustment district to steel plate and directly jet through the device of the device of the non-oxidizing gas of heat, energising direct heating steel plate, be higher than the radiation pipe apparatus that uses under the typical temperature etc.In addition, temperature adjustment district has the effect that changes by annealing temperature control mechanical property and compensating component, perhaps have compensation owing to the variation of steel plate translational speed or steel plate thickness causes the effect of steel billet temperature variation, thereby can control the regulation maximum heating temperature of steel plate accurately.In addition, also be effective in the local refrigerative characteristics of heat-processed light plate for realization purpose of the present invention.

With steel plate in temperature adjustment district by Fig. 1 a in symbol (i), (ii), (iii) or after being heated to the regulation maximum heating temperature (iv), make its rapid cooling without the overaging district.In this case, it is the type of cooling that suits that jet cooling, rolling cooling or these two kinds of types of cooling combine.In addition,, almost do not need to limit speed of cooling from the viewpoint of mechanical property because do not need this special processing of chilling one overaging, therefore from the angle of device and operation it can be mainly according to circumstances definite.

Reason with the steel plate quick cooling after temperature reaches the regulation maximum heating temperature is, as shown in Figure 2, when increasing, the soaking soaking time no longer looks to improving the fact of mechanical property, on the contrary, resemble unusual grain growth, these danger of degradation have increased, the number of times of warpage takes place, pecking production problem such as seal has also increased.

In order further to improve thermo-efficiency, can be provided with one in the front of heating zone and give the hot-zone, perhaps can be divided into several bodies of heater to the heating zone, do not do so and can damage effect of the present invention.In addition, in order to improve cooling efficiency the way that the cooling zone is divided into two or more cooling bodies of heater can not damaged effect of the present invention yet.

According to the present invention, when using ultra low-carbon steel to make sheet material, can obtain different mechanical propertys by same sheet material, perhaps when handling, continuous annealing only just can make uneven mechanical property homogenizing in the sheet material by accurately controlling the annealing Heating temperature.Specifically, the present invention can realize the following fact expediently:

(1) according to the variation of chemical ingredients,, can obtain mechanical property steel plate very uniformly by the control Heating temperature;

(2), can compensate the outside of the steel sheet volume after hot rolling and inner mechanical property and descend by localized hyperthermia's heating;

(3) steel billet temperature that can avoid the variation owing to plate size or steel plate translational speed to cause changes;

(4) has the product of specified mechanical property by same material production.For example as shown in Figure 6, when the steel plate translational speed of ultra low-carbon steel in the figure annealing process (C:0.0015%, Ti:0.055%) changes, the r value, hot rolling gets temperature and Heating temperature can keep uniformity substantially on whole steel plate length.

Embodiment

Steel plate thickness (mm) and steel plate translational speed (meter per second) long-pending be that the thermal capacity of heating zone (burner capacity) is 40 * 10 in the common continuous annealing apparatus of about 400 throughput ⁶About kilocalorie/hour.On the contrary, the heat of the only enough compensation of the thermal capacity of soaking zone loss from body of heater, its burner capacity is 1/10th of heating zone.

Otherwise owing to used a ultrahigh-temperature radiator tube and the high-temperature gas blowing device with furnace temperature more than 1100 ℃, its thermal capacity is the twice of common soaking zone at least according to temperature adjustment of the present invention district, and this is equivalent to 10～20 * 10 ⁶Kilocalorie/hour.If particularly consider the thermal capacity of per unit length steel plate, then the thermal capacity in temperature adjustment district is higher than the thermal capacity of heating zone.

As mentioned above, can accurately control the regulation Heating temperature of deep-drawing according to the present invention, thereby obtain not having the steel plate of mechanical property variation with ultra low carbon steel slab.In addition, owing to be provided with in the front, heating zone and give the hot-zone and can improve thermo-efficiency.These improvement effects are very outstanding.

Claims

One kind to deep-drawing with the method that ultra low-carbon steel carries out continuous annealing, may further comprise the steps:

(1) sheet material with above-mentioned steel plate is heated to it more than recrystallization temperature by room temperature.

(2) by quickly heating up to the steel billet temperature that the adjustment of regulation maximum heating temperature has been heated, in ± 10 ℃, the regulation maximum heating temperature is definite according to the relation of giving selected earlier steel product ingredient, working condition and product performance at least for precision,

(3) without just cooling fast of soaking insulation, be cooled to room temperature then.
2. in accordance with the method for claim 1,, in heat-processed, make the local cooling of said steel wherein in order to adjust maximum heating temperature.
3. a deep-drawing is with the continuous annealing apparatus of ultra low-carbon steel, comprise heating zone, temperature adjustment district, quench zone and final cooling zone, wherein the thermal capacity of the per unit length steel plate in temperature adjustment district is higher than the heating zone and has at inhomogeneous district temperature accuracy and also can reach at least ± 10 ℃ excellent sensitivity.
4. according to the described equipment of claim 3, wherein be provided with and give the hot-zone one by one in the front of heating zone.
5. according to the described equipment of claim 3, it is characterized in that, but in said heating zone or temperature adjustment district, a cooling zone that is used to adjust maximum heating temperature is set.
6. according to the described equipment of claim 4, it is characterized in that, but in said heating zone or temperature adjustment district, a cooling zone that is used to adjust maximum heating temperature is set.