JP3878241B2 - Highly efficient and uniform steel heat treatment method - Google Patents

Description

【００１５】
【表２】

【００１６】
【表３】

【００１７】
【表４】

【００１８】
【表５】

【００１９】
表５によると、同じサイズの鋼材で熱処理時間を比較した場合、本発明の炉内雰囲気温度を段階的に低下させて設定した熱処理法で要する熱処理時間は、炉温を低温の一定温度に設定した従来の熱処理法（No．２，４，１２，１４）で要する熱処理時間より明らかに短い。この効果は炉の規模の大小、鋼材の大小を問わずに発揮される。
【００２０】
さらに、本発明の熱処理を施した鋼材内部の温度差は極めて均一であり、炉温を低温の一定温度に設定した従来の熱処理法の場合と遜色ない。また、炉温を高温の一定温度に設定した熱処理法の場合（No．６）と比較すると、明らかに温度差は小さくなっていることがわかる。
【００２１】
炉の入り側温度を目的とする熱処理温度より１００℃高く設定した場合（No．８）は、熱処理に要する時間が従来法とあまり変わらず効率の面で問題がある。炉の出側温度を目的とする熱処理温度より３０℃高く設定した場合（No．１０）は、鋼材内部の温度分布が大きく実用に適さない。
【００２２】
【発明の効果】
本発明によれば、高効率で且つ均一性の良い鋼材が得られ、産業上の寄与は多大である。
【図面の簡単な説明】
【図１】熱処理される厚板の寸法および測温位置を示した図である。
【図２】熱処理される形鋼の寸法および測温位置を示した図である。[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a heat treatment method for steel materials such as thick steel plates and section steels.
[0002]
[Prior art]
In general, heat treatment of steel is often performed by inserting the steel into a heating furnace. Usually, in order to prevent the temperature of the steel material from rising above a predetermined temperature, the atmospheric temperature in the furnace is set to a temperature substantially equal to the heat treatment temperature of the target steel material. For this reason, the rate of temperature rise of steel materials is extremely slow, and the productivity of heat treatment by furnace heating is generally low.
[0003]
When the volume or weight is small, such as a wire, electric heating or high-frequency induction heating can be used, but it is unsuitable for heat treatment of a steel material such as a thick plate or shape steel having a large volume or weight. In order to increase the productivity of heat treatment, it is better to increase the set temperature of the furnace to increase the temperature difference between the furnace atmosphere temperature and the steel material to be heated. The temperature distribution becomes non-uniform, causing material fluctuations. For this reason, there has been a strong demand for a heat treatment method that is efficient and can heat a steel material to a uniform temperature.
[0004]
[Problems to be solved by the invention]
An object of this invention is to provide the heat processing method of steel materials with high efficiency and favorable uniformity.
[0005]
[Means for Solving the Problems]
The present invention is a method for heat-treating a steel material with high efficiency and uniformity by controlling the set temperature of the current heat treatment furnace, which can advantageously eliminate the disadvantages of the conventional heat treatment method by furnace heating as described above, The summary is as follows.
(1) In a heating furnace of any one of a direct-fired burner system, a radiant tube system, and an electric furnace system, it is set to 200 ° C. or more higher than 450 to 670 ° C. which is a heat treatment temperature for the entrance side of the furnace. and, set stepwise furnace temperature was lowered to towards the exit side of the furnace, the set temperature of the furnace in front outlet of the furnace at a high efficiency, characterized in that within the heat treatment temperature ± 20 ° C. to the object And heat treatment method for thick steel plate or section steel with good uniformity.
[0006]
DETAILED DESCRIPTION OF THE INVENTION
The present invention will be described in detail below. The technical idea forming the basis of the present invention is as follows.
In general, when the temperature difference between the furnace atmosphere temperature and the steel material to be heated increases, the temperature rise rate of the steel material increases. Therefore, to increase the efficiency of heat treatment, the temperature difference between the furnace atmosphere temperature and the steel material to be heated should be increased. Is desirable. However, since the steel material is heated from the surface in the furnace, the temperature of the surface layer portion is higher than that inside. If the steel material temperature rises to the furnace ambient temperature, the temperature distribution inside the steel material tends to be eliminated, but the temperature difference is not eliminated as long as there is a difference between the furnace atmosphere temperature and the steel material temperature.
[0007]
Therefore, if the furnace atmosphere temperature is set higher than the intended heat treatment temperature of the steel material, the temperature difference inside the steel material inevitably increases, resulting in material fluctuations. In order to prevent such temperature difference and material fluctuation, the furnace atmosphere temperature must be set low to prevent the steel surface layer portion or the outer peripheral portion from being excessively heated.
[0008]
However, in the case where the steel material is continuously conveyed and heat-treated in the furnace, the present inventors set the inclination of the atmosphere temperature inside the furnace, and set the entrance side of the furnace to a high temperature and the exit side to a low temperature. The present inventors have found a highly efficient and uniform heat treatment method characterized by That is, by setting the entrance side of the furnace to a high temperature, it is possible to increase the temperature difference between the furnace atmosphere temperature and the steel material to be heated, and increase the temperature rise rate of the steel material. After that, since the steel material to be heated passes through the exit side of the furnace set at a low temperature, the temperature difference inside the steel material is converged, and a uniform heat treatment becomes possible.
[0009]
In order to maximize the efficiency, it is effective to set the temperature higher by 200 ° C. than the intended heat treatment temperature on the furnace entrance side. When the temperature is lower than 200 ° C., the efficiency is lowered and the effect is reduced. In order to improve the uniformity, it is effective to gradually lower the set furnace temperature toward the exit side of the furnace, and to set the set temperature of the furnace in front of the furnace outlet to within the intended heat treatment temperature ± 20 ° C. It is. If the difference between the set temperature of the furnace and the target heat treatment temperature becomes larger than this, the temperature variation in the steel material increases and the material becomes unstable.
[0010]
Further, it is desirable that the heat treatment furnace has a temperature control function capable of guaranteeing a decrease in the furnace temperature accompanying the passage of the material to be heat treated. The heating method may be any of a direct-fired burner, a radiant tube, etc., and does not need to be specifically defined. After the heat treatment, it may be allowed to cool, or even as quickly as possible with water, the characteristics of the present invention will not be impaired. Since the present invention is effective for heat treatment of steel materials having any size and chemical composition, it is not necessary to define the dimensions and chemical composition.
[0011]
【Example】
Next, the present invention will be described in detail based on examples.
First of all, the heat treatment shown in Table 2 (specification list of heat treatment furnace (1)) and Table 3 (specification table of heat treatment furnace (2)) for thick plates and sections with the dimensions shown in Table 1 (dimensions of heat treatment material) Using the furnace, the heat treatment of the method of the present invention and the comparative method shown in Table 4 (heat treatment furnace conditions) were applied.
[0012]
FIG. 1 is a diagram showing dimensions and temperature measuring positions of a thick plate to be heat-treated. The temperature measurement was performed by embedding a thermocouple up to the center of the plate thickness at positions a, b, c, and d in the figure. FIG. 2 is a diagram showing dimensions and temperature measuring positions of the shape steel to be heat-treated. The temperature measurement was performed by embedding a thermocouple up to the center of the plate thickness at positions a, b, c, and d in the figure.
[0013]
As a result, the heat treatment time and the temperature distribution inside the steel as shown in Table 5 (heat treatment time and steel temperature distribution) are obtained. The heat treatment time is obviously shortened by the present invention, and the temperature distribution inside the steel is also reduced. Therefore, the present invention is effective.
[0014]
[Table 1]

[0015]
[Table 2]

[0016]
[Table 3]

[0017]
[Table 4]

[0018]
[Table 5]

[0019]
According to Table 5, when the heat treatment times of steel materials of the same size are compared, the heat treatment time required for the heat treatment method set by gradually reducing the furnace atmosphere temperature of the present invention sets the furnace temperature to a constant low temperature. It is clearly shorter than the heat treatment time required for the conventional heat treatment method (No. 2, 4, 12, 14). This effect is exhibited regardless of the size of the furnace and the size of the steel material.
[0020]
Furthermore, the temperature difference inside the steel material subjected to the heat treatment of the present invention is extremely uniform, which is comparable to the conventional heat treatment method in which the furnace temperature is set to a constant low temperature. In addition, it can be seen that the temperature difference is clearly smaller when compared with the case of the heat treatment method in which the furnace temperature is set to a high constant temperature (No. 6).
[0021]
When the furnace entry side temperature is set to 100 ° C. higher than the intended heat treatment temperature (No. 8), the time required for the heat treatment is not much different from the conventional method and there is a problem in terms of efficiency. When the outlet temperature of the furnace is set 30 ° C. higher than the target heat treatment temperature (No. 10), the temperature distribution inside the steel material is large and not suitable for practical use.
[0022]
【The invention's effect】
According to the present invention, a steel material with high efficiency and good uniformity can be obtained, and the industrial contribution is great.
[Brief description of the drawings]
FIG. 1 is a diagram showing dimensions and temperature measurement positions of a thick plate to be heat-treated.
FIG. 2 is a diagram showing dimensions and temperature measuring positions of a shape steel to be heat-treated.

Claims (1)

In a heating furnace of any one of a direct-fired burner system, a radiant tube system, and an electric furnace system, the furnace is set to 200 ° C. or more higher than 450 to 670 ° C., which is the heat treatment temperature intended for the entrance side of the furnace, reducing the set stepwise furnace temperature toward the exit side of, and uniformity the set temperature of the furnace in front outlet of the furnace at a high efficiency, characterized in that within the heat treatment temperature ± 20 ° C. to the object Heat treatment method for thick steel plate or shape steel .

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