Manufacturing process to improve the oxidation property of ferritic stainless steel bright annealing

专利摘要:
PURPOSE: A method for manufacturing ferritic stainless steel bright annealing plates is provided to improve oxidation resistance by controlling cooling rate after cold rolling process. CONSTITUTION: In an annealing method of a cold rolled steel sheet comprising C 0.1 wt.% or less, Cr 10 to 20 wt.%, Ni 1.0 wt.% or less, N 0.1 wt.% or less, Si 1.0 wt.% or less, Mn 2.0 wt.% or less, Ti 0.5 wt.% or less, Nb 0.6 wt.% or less, Mo 2.0 wt.% or less, Cu 1.0 wt.% or less, a balance of Fe and other inevitable impurities at 900 to 120 0°C in a reductive atmosphere of hydrogen and nitrogen, the present invention is characterized in that when cooling the cold rolled steel sheet from annealing temperature to 300°C, the cooling rate of the cold rolled steel sheet is controlled to 20-30°C/sec.
公开号:KR20020052737A
申请号:KR1020000082174
申请日:2000-12-26
公开日:2002-07-04
发明作者:김영호；정상열
申请人:이구택；주식회사 포스코；
IPC主号:

专利说明:

Manufacturing process to improve the oxidation property of ferritic stainless steel bright annealing plates
[4] The present invention relates to a method for annealing heat treatment of a ferritic stainless bright annealing cold rolled steel sheet, more specifically, to annealing the ferritic stainless steel by controlling the cooling rate of the steel sheet during heat treatment in a reducing atmosphere to improve oxidation resistance It is about a method.
[5] Oxidation resistance of ferritic stainless annealing cold rolled steel sheet is greatly affected by alloy composition, microstructure and surface condition of steel sheet. In addition, the surface state of the steel sheet may be changed by changing the cold rolling conditions or by forming the Ti-based residual oxide on the surface of the steel sheet during heat treatment. In other words, it is possible to maintain the reducing atmosphere in the furnace during the annealing in the reducing atmosphere with strong reducing properties with very low dew point or to control the cooling rate of the steel sheet quickly to suppress the formation of Ti oxide on the surface of the steel sheet. Oxidative properties change with the formation of Ti oxide on the surface of the steel sheet.
[6] Oxidation resistance of ferritic stainless bright annealing cold rolled steel sheet is known to be greatly affected by Ti oxide formed on the surface of steel sheet immediately after annealing. In fact, when a small amount of Ti oxide remains on the surface of the ferritic stainless cold rolled steel sheet, it was confirmed that a very thick oxide is generated during use at a high temperature of more than 500 ℃. Although it has not been reported that oxidation resistance is improved by controlling the formation of Ti oxide on the surface of brightly annealed steel sheet, Ti oxide reacts with Cr oxide on the surface of steel sheet used at a high temperature of 500 ° C or higher to change the protective Cr oxide scale structure on the surface of steel sheet. The oxidation resistance of the steel sheet may be affected.
[7] Accordingly, the present inventors have found that the oxidation resistance of ferritic stainless bright annealing cold rolled steel sheet is greatly influenced by not only the alloy component and the microstructure but also by changing the surface state of the steel sheet during bright annealing by controlling Ti oxide formation. The present invention has been proposed on the basis of the present invention, and the present invention controls the cooling rate of the steel sheet during heat treatment in the step of heat-treating the ferritic stainless bright annealing cold rolled steel sheet, thereby improving the oxidation resistance of the ferritic stainless bright annealing cold rolling To provide a method for producing a steel sheet, the object is.
[1] 1 is a graph showing the results of measuring the thickness of the surface oxide layer according to the test temperature during 100 hours oxidation test of the rapid coolant and the general coolant of the present invention.
[2] Figure 2 is a graph showing the structural analysis results of the oxide layer in the thickness direction on the surface of the steel sheet during 100 hours oxidation at 200 ℃ of the general coolant.
[3] Figure 3 is a graph showing the structural analysis results of the oxide layer in the thickness direction on the surface of the steel sheet during 100 hours oxidation at 200 ℃ of the rapid coolant of the present invention.
[8] The present invention for achieving the above object by weight% C: 0.1% or less, Cr: 10-20%, Ni: 1.0% or less, N: 0.1% or less, Si: 1.0% or less, Mn: 2.0% or less, Ti : 0.5% or less, Nb: 0.6% or less, Mo: 2.0% or less, Cu: 1.0% or less, Cold rolled steel sheet composed of remaining Fe and other unavoidable impurities is reduced by using hydrogen and nitrogen in the temperature range of 900-1200 ° C. In the method of performing annealing heat treatment in an atmosphere furnace,
[9] When cooling to 300 ℃ at the annealing temperature of the steel sheet, the cooling rate is controlled to 20 to 30 ℃ to provide a method for producing a ferritic stainless bright annealing cold rolled steel sheet, characterized in that the oxidation resistance is improved.
[10] Hereinafter, the present invention will be described in more detail.
[11] In the annealing heat treatment of ferritic stainless bright annealing cold rolled steel sheet, a steel sheet having a thickness of 0.5-3.0mm is continuously annealed in a heating furnace of 900-1200 ° C. in a hydrogen and nitrogen atmosphere having a dew point of -50 ° C. or lower and then heated up to 300 ° C. When cooled at a rate of ˜15 ° C., a Cr passivation layer having a thickness of about 20 to 50 kPa is formed on the surface of the steel sheet. The thin Cr passivation layer is mostly formed during cooling and serves to improve the corrosion resistance of the steel sheet. Since the bright annealing cold rolled steel sheet is subjected to temper rolling, it is produced as a high gloss stainless product.
[12] If the dew point in the heating furnace during the bright annealing is higher than -50 ° C or the cooling rate of the steel plate is slower than 10 ° C per second, the alloying elements which are highly reactive with oxygen among the alloying elements are preferentially oxidized on the surface of the steel sheet during cooling of the steel sheet to form oxides. do. The reactivity with oxygen is thermodynamically high in the order of Ti, Si and the like, and oxides may be formed on the surface of the brightly annealed cold rolled steel sheet by these elements among the alloying components.
[13] When Ti oxide is formed on the surface of the steel sheet by Ti, the surface of the steel plate after the final cooling is mixed with the Cr floating film and Ti oxide. When the steel sheet is used at a high temperature of 500 ° C. or higher, Ti ions in the oxides are contained in the oxide layer. As it moves from and diffuses out of the steel sheet, defects occur in the oxide layer. These defects promote the diffusion of Fe and Cr ions through the oxide layer to accelerate the oxidation of the metal.
[14] On the other hand, in order to suppress the formation of Ti oxide on the surface of the steel sheet during bright annealing, there is a method of maintaining the reducing component atmosphere in the annealing furnace as a strong reducing component crisis having a dew point of -90 ° C. or less, but in order to sufficiently remove moisture from the atmosphere gas, additional gas As a refining facility is required, facility investment is incurred, and maintenance difficulties for blocking the inflow of air from the outside atmosphere of the annealing furnace occur.
[15] Increasing the injection rate of the cooling gas or increasing the cooling rate of the steel sheet by lowering the temperature of the cooling gas during the annealing heat treatment can suppress the formation of Ti oxide, thereby improving the oxidation resistance of the ferritic stainless bright annealing cold rolled steel sheet. . This method is easy to apply in the field because it does not incur high installation cost and maintenance cost like a separate gas purification facility.
[16] Accordingly, in the present invention, when the annealing heat treatment of the ferritic stainless bright annealing cold rolled steel sheet in a reducing atmosphere using hydrogen and nitrogen in the temperature range of 900-1200 ℃, the cooling rate of the steel sheet from the annealing temperature to 300 ℃ during annealing heat treatment It is preferable to perform annealing by correcting the cooling gas injection flow rate and cooling gas temperature which can be controlled at 20 to 30 ° C per second.
[17] If the cooling rate is slower than 20 ° C, the above-mentioned strong oxidizing elements, in particular, oxides such as Ti may be formed. If the cooling rate is higher than 30 ° C, no oxide is generated, but deformation of the steel sheet due to quenching causes product quality. There is a disadvantage of deterioration.
[18] In the present invention, the annealing process of the ferritic stainless bright annealing cold rolled steel sheet is subjected to annealing heat treatment in a reducing atmosphere using hydrogen and nitrogen in the temperature range of 900-1200 ° C. to continuously cool the steel sheet to 300 ° C. It is preferable to perform annealing by setting the cooling gas injection flow rate and cooling gas temperature which can be controlled at 20 to 30 ° C, and to increase the capacity of the atmospheric gas cooler and the injection pump to correct the cooling gas temperature and injection flow rate. .
[19] Hereinafter, the present invention will be described through examples.
[20] After preparing a ferritic stainless steel cold rolled steel sheet having a thickness of 1.0mm to be prepared as shown in Table 1 to prepare a specimen with a size of 35 (W) X 45 (L) X 1.0 (t) mm.
[21] ingredientCNSiMnCrTiMo Content (w%)0.010.010.20.317.80.31.05
[22] Then, the annealing heat treatment conditions of the cold rolled steel sheet was set similar to the conventional ferritic stainless bright annealing conditions, the annealing temperature is 1150 ℃ and the annealing time was performed for a total of 60 seconds of 40 seconds heating time and 20 seconds isothermal holding time. The annealing atmosphere was heat-treated at dew point -60 ° C using hydrogen gas. As a cooling condition, the general coolant cooled the flow rate of the cooling gas to 8L per minute during cooling from 1150 ° C to 300 ° C, and the rapid coolant of the present invention cooled the flow rate of the cooling gas to 20L per minute during the cooling from 1150 ° C to 300 ° C. to be. As a result of measuring the cooling rate under the cooling conditions, the cooling rate of the steel sheet was measured at 11 ° C per second from 1150 ° C to 300 ° C. It was measured at 23 ° C.
[23] Subsequently, the oxidation resistance evaluation of the ferritic stainless bright annealing cold rolled steel sheet was performed while injecting air in an electric furnace at 2 L / min in air, and the test conditions were performed at four temperatures of 200, 300, 400, and 500 ° C for 100 hours. . After the test, the results of analysis using SAM (Scanning Auger Microscopy) to measure the thickness of the oxide scale layer on the surface of the steel sheet are shown in FIG. 1.
[24] Figure 1 shows the effect of the cooling conditions on the oxide scale thickness for the two annealing material of the rapid coolant and the general coolant of the present invention. As can be seen from FIG. 1, the rapid coolant of the present invention after oxidation test at 500 ° C. for 100 hours has excellent oxidation resistance while the thickness of the oxide scale layer is thinly 600Å, while the general coolant has a thick oxide scale of 1600Å. To show This is the result of the oxidation resistance when the ferritic stainless annealing cold rolled steel sheet is used at a high temperature of 500 ℃ or more when cooled at a cooling rate of 20 ~ 30 ℃ / second during the annealing heat treatment like the rapid cooling material of the present invention, general cooling materials As a result of cooling at a cooling rate of Ti oxide layer is formed, the oxidation resistance is reduced.
[25] Figure 2 shows the analysis results of the oxide scale structure for the general coolant. After 100 hours oxidation test at a test temperature of 200 ℃, the general coolant was detected high Ti oxide throughout the oxide scale layer.
[26] Figure 3 shows the analysis results for the oxidized scale structure for the rapid coolant. After the oxidation test for 100 hours at the test temperature of 200 ℃, the rapid coolant was not detected Ti oxide in the oxidation scale.
[27] As can be seen above, according to the annealing method of the ferritic stainless bright annealing cold rolled steel sheet of the present invention, the excellent intrinsic properties of the stainless cold rolled steel sheet are not impaired, and the product is improved by improving oxidation resistance of the steel sheet without difficulty in manufacturing process. You can expect to improve productivity and quality.

权利要求:
Claims (1)
[1" claim-type="Currently amended] By weight% C: 0.1% or less, Cr: 10-20%, Ni: 1.0% or less, N: 0.1% or less, Si: 1.0% or less, Mn: 2.0% or less, Ti: 0.5% or less, Nb: 0.6% Below, Mo: 2.0% or less, Cu: 1.0% or less, cold rolled steel sheet composed of the remaining Fe and other unavoidable impurities is subjected to annealing heat treatment in a reducing atmosphere using hydrogen and nitrogen in the temperature range of 900-1200 ℃ To
When cooling to 300 ℃ at the annealing temperature of the steel sheet, the cooling rate is controlled to 20 to 30 ℃ per second oxidation resistance is improved manufacturing method of a ferritic stainless bright annealing cold rolled steel sheet, characterized in that.

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同族专利:

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公开号 | 公开日

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KR100515939B1|2005-09-16|

引用文献:

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公开号 | 申请日 | 公开日 | 申请人 | 专利标题

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法律状态:
2000-12-26|Application filed by 이구택, 주식회사 포스코

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2000-12-26|Priority to KR20000082174A

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2002-07-04|Publication of KR20020052737A

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2005-09-16|Application granted

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2005-09-16|Publication of KR100515939B1

优先权:

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申请号 | 申请日 | 专利标题

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KR20000082174A|KR100515939B1|2000-12-26|2000-12-26|Manufacturing process to improve the oxidation property of ferritic stainless steel bright annealing plates|