JP2009506208A - Steel plate for galvanization excellent in workability and manufacturing method thereof - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a soft and high-strength thin steel sheet for ultra-deep processing mainly used for inner and outer plates of an automobile and a method for producing the same, and a tensile strength of 28 to 50 kgf / mm ² , excellent formability, and excellent resistance to 2 The present invention provides a steel sheet for galvanization that has not only excellent brittleness in subsequent processing and excellent weld fatigue properties but also excellent workability with excellent surface quality.
SOLUTION By weight%, C: 0.010% or less, Si: 0.1% or less, Mn: 0.06% to 1.5%, P: 0.15% or less, S: 0.020% Hereinafter, Sol. Al: 0.1-0.40%, N: 0.010% or less, Ti: 0.003-0.010%, Nb: 0.003-0.040%, B: 0.0002-0.0020 %, And Mo: 0.05% or less, and one or two of Sb: 0.005 to 0.05% and Sn: 0.005 to 0.05% are added thereto, and two kinds are added. Sometimes the sum is 0.005 to 0.1%, the balance is composed of Fe and other inevitable impurities, a concentrated product having an average diameter of 1 μm or less is formed on the surface, and 28 to 50 kgf / mm The gist of the steel sheet for galvanization excellent in workability having a tensile strength of ² and a method for producing the same are as its gist.
[Selection] Figure 1

Description

The present invention is primarily relate ultra deep processing for soft and high-strength thin steel sheet and manufacturing method thereof are used for the inner and outer plates of automobiles, and more particularly the tensile strength of 28~50kgf / mm ^2, excellent formability, good The present invention relates to a steel sheet for galvanization excellent in workability having not only secondary work brittleness resistance and excellent weld fatigue properties but also excellent surface quality and a method for producing the same.

  Recently, steel sheets for automobiles are not only required to have a higher level of formability due to the complexity and integration of automobile molded products, but they are also resistant to secondary processing in terms of the usage environment of automobiles. Further, there is a demand for a steel plate that has excellent weld fatigue characteristics and a beautiful plated surface.

  However, in general, in order to improve the formability and strength of the steel sheet, it is possible to manufacture by adding high purity steel with minimized impurities in the steel and adding Si, Mn, Ti, Nb, Al, etc. It is normal.

In order to recrystallize the work-hardened structure after cold rolling, annealing heat treatment is performed at a temperature of 700 ° C. or higher. However, since the above additive elements are mostly oxygen affinity elements compared to Fe, cold rolling annealing is performed. During the process, it grows into a surface concentrate of single or composite form such as MnO, SiO ₂ , Al ₂ O ₃ , TiO.

  As the amount of these surface concentrates increases, the wettability of the plating bath decreases during hot-dip plating, and the alloying reaction is inhibited, so that surface defects such as unplating are likely to be induced.

  Further, when the surface concentrate is coarsened, it is adsorbed on a hearth roll of continuous annealing and induces a minute dent on the surface of the plated steel sheet, which has a great adverse effect on the surface quality. .

  Techniques for improving the above-described problems of plating defects include techniques for improving plating by adding specific elements such as Cr and Sb (Patent Document 1, Patent Document 2, Patent Document 3), cooling There has been proposed a technique (Patent Document 4) that suppresses a concentrate formed on the surface during cold rolling annealing by pre-oxidizing a hot-rolled coil before cold rolling.

However, the above technology is not clear in the effect of the addition of a specific element, and is a manufacturing method that cannot be realized with the current general hot rolling-cold rolling-continuous annealing equipment. It is.
Japanese Patent Publication No. 2002-146477 Japanese Patent Publication No. 2001-64750 Japanese Patent Publication No. 2002-155317 Japanese Patent Publication No. 2001-288550

The present invention not only has a tensile strength of 28 to 50 kgf / mm ² , excellent formability, excellent secondary work brittleness resistance, and excellent weld fatigue properties, but also excellent workability with excellent surface quality. The purpose is to provide a galvanized steel sheet.

  Another object of the present invention is to provide a method for producing a galvanized steel sheet having excellent workability.

In order to achieve the above-mentioned problems, the present invention is weight%, C: 0.010% or less, Si: 0.1% or less, Mn: 0.06% to 1.5%, P: 0.15% or less , S: 0.020% or less, Sol. Al: 0.10-0.40%, N: 0.010% or less, Ti: 0.003-0.010%, Nb: 0.003-0.040%, B: 0.0002-0.0020 %, And Mo: 0.05% or less, and one or two of Sb: 0.005 to 0.05% and Sn: 0.005 to 0.05% are added thereto, and two kinds are added. Sometimes the sum is 0.005 to 0.1%, the balance is composed of Fe and other inevitable impurities, a concentrated product having an average diameter of 1 μm or less is formed on the surface, and 28 to 50 kgf / mm ^The present invention relates to a steel sheet for galvanization excellent in workability having a tensile strength of ² .

  Preferably, in the galvanized steel sheet, the growth of the average diameter of the concentrate is suppressed to within 10% with respect to the annealing temperature increasing by 10 ° C.

  In the present invention, the weight percentage is C: 0.010% or less, Si: 0.1% or less, Mn: 0.06% to 1.5%, P: 0.15% or less, S: 0.020. % Or less, Sol. Al: 0.10-0.40%, N: 0.010% or less, Ti: 0.003-0.010%, Nb: 0.003-0.040%, B: 0.0002-0.0020 %, And Mo: 0.05% or less, and one or two of Sb: 0.005 to 0.05% and Sn: 0.005 to 0.05% are added thereto, and two kinds are added. Sometimes the sum is 0.005-0.1%, and after reheating the steel slab composed of the balance Fe and other inevitable impurities, the hot rolled steel sheet hot-rolled in the austenite single phase region is cold It is related with the manufacturing method of the steel plate for galvanization excellent in workability characterized by performing continuous annealing in the temperature range of 700 degreeC or more after rolling.

According to the present invention, not only has a tensile strength of 28 to 50 kgf / mm ² , excellent formability, excellent secondary work brittleness resistance, and excellent weld fatigue resistance, but also has excellent surface quality. An excellent galvanized steel sheet is provided.

  The present invention will be described in detail below.

  The composition of the steel sheet will be described. C in the steel acts as an interstitial solid solution element and not only inhibits the formation of {111} texture, which is advantageous for workability in the texture formation process of the steel sheet during cold rolling and annealing, but also has a content in steel. In many cases, the addition amount of the carbonitride-forming elements Ti and Nb must be increased, which is disadvantageous economically, so the content is limited to 0.010% or less.

  The Si not only induces surface scale defects, but also generates a temper color during annealing and unplating during plating, so its content is limited to 0.1% or less.

  The Mn is added as a substitutional solid solution strengthening element in order to ensure strength. When the content exceeds 1.5%, the r value rapidly decreases with the elongation, and when the content is less than 0.06%. Is concerned with brittleness due to S in steel, so its content is limited to 0.06% to 1.5%.

  P is also a typical solid solution strengthening element added to increase the strength together with Mn. In the Ti-Nb component steel type as in the present invention, not only the strength is increased, but also the grain refinement and the grain boundary Segregation or the like leads to the development of {111} texture that is advantageous for the r value. However, if its content exceeds 0.15%, the brittleness of the steel greatly increases with a rapid drop in elongation. It is preferable to limit to 15% or less, and more preferably to limit to 0.03-0.15%.

  Usually, when producing deep-working steel, the content of S in the steel is usually limited to 0.005% or less. However, in the present invention, since Mn is added to steel, all S in steel is MnS. A drop in workability due to solid solution S is avoided.

  Therefore, in the present invention, it is preferable to limit the content of S to 0.020% or less of the content that can avoid the region where edge cracks may occur when rolling.

  Sol. In the case of cold-rolled products, Al is generally produced with its content suppressed to about 0.02 to 0.07% in consideration of economic aspects while maintaining the amount of dissolved oxygen in steel sufficiently low. is there.

  However, Sol. Al plays a role of ensuring deep workability stably even at a relatively low annealing temperature.

  That is, Sol. When Al is 0.10% or more, the size of precipitates in the steel is coarsened and the effect of inhibiting the recrystallization suppressing action of P is clearly exhibited to promote the recrystallization. Although it plays the role which develops a texture, when the content exceeds 0.40%, since the cost rise and continuous casting business property are harmed, the content is limited to 0.10% to 0.40%.

  In the steel of the present invention, Sol. Al affects the formation behavior of Ti and Nb-based precipitates of carbonitrides and makes the size of the precipitates coarser, so even if Ti and Nb are added less than normal IF steel, it is better It plays a role of obtaining processability.

  When N in the steel is present in a solid solution state, not only the workability is greatly deteriorated, but when the amount is large, the amount of Ti and Nb added for fixing as precipitates must be increased. Is limited to 0.010% or less.

  B in the steel is an element added to improve the fatigue characteristics of spot welds as a grain boundary strengthening element and to prevent P grain boundary brittleness, and must be added in an amount of 0.0002% or more in order to achieve the addition effect. However, if the content exceeds 0.0020%, the workability falls sharply and the surface properties of the plated steel sheet deteriorate, so the content is limited to 0.0002 to 0.002%.

  Mo in the steel is an element added to improve secondary work brittleness resistance and plating properties. When the content exceeds 0.05%, not only the improvement effect is greatly reduced but also economically. Since it is disadvantageous, the content is limited to 0.05% or less.

  In the present invention, Ti and Nb are very important elements in terms of ensuring the workability of steel, and Ti is 0.003 in consideration of the minimum and optimum amount for achieving an effect of increasing the workability (particularly the r value). -0.010%, Nb is limited to the range of 0.003-0.040%.

The Sb in the steel is a very important element in the present invention, and suppresses the occurrence of surface enrichment such as MnO, SiO ₂ , Al ₂ O _3, etc., and the surface enrichment due to temperature rise and change in hot rolling process There is an excellent effect in suppressing the coarsening of the film. In order to acquire the said effect, the content needs to be at least 0.005% or more, but since the predetermined effect is not acquired when adding more than a specific limit, the upper limit is limited to 0.05%.

  Sn in the steel is a component having an effect similar to that of the Sb. The content of Sn is required to be at least 0.005% or more in order to obtain the addition effect. Therefore, the upper limit is limited to 0.05%.

  Moreover, when Sb and Sn are added simultaneously, the sum of the contents is limited to 0.005 to 0.1%.

  Hereinafter, the production conditions of the present invention will be described.

  After reheating the steel slab composed as described above, finish rolling from the austenite single-phase region and cold rolling the hot rolled steel sheet that has been wound up to ensure the workability of the material In order to achieve this, it is preferable to perform continuous annealing at a temperature of 700 ° C. or higher.

  Generally, as the temperature increases, the softness and r value of the material are improved.

  However, the amount of surface concentrate (Si, Al, Mn, etc. alone or complex oxide) formed on the surface of the material due to an increase in the annealing temperature is increased and the tendency to become coarse is obvious. And surface defects such as surface dents are likely to occur.

  In this invention, the growth of the surface concentrate in the annealing temperature zone is suppressed, and excellent steel plate surface quality can be ensured.

  In the present invention, a preferable steel slab heating temperature is 1100 to 1300 ° C, a preferable hot finish rolling temperature is 830 to 920 ° C, and a preferable winding temperature is 500 to 700 ° C.

  In the present invention, the present invention can be applied to either air cooling or water cooling after hot rolling.

  In order to obtain a high r value of 1.9 or more, the rolling reduction during cold rolling is preferably limited to 65% or more.

  Further, when the annealing temperature of the cold-rolled steel sheet is too low, it is difficult to obtain a high r value of 1.9 or more, and when it is too high, a problem arises in the stripability of the operation strip due to high-temperature annealing. Therefore, the annealing temperature is limited to 700 ° C. or higher, preferably 780 to 860 ° C.

  It is preferable that the average diameter growth of the granular concentrate is within 10% with respect to the annealing temperature increase of 10 ° C. in the annealing temperature section.

  In an ordinary method for producing a steel sheet for ultra-deep processing, continuous annealing of a cold-rolled steel sheet is performed at about 880 to 930 ° C.

  Thus, since the continuous annealing temperature of this invention is low compared with the annealing temperature applied to manufacture of the steel plate for normal ultra deep processing, this invention is more economical and has the operativity which was excellent.

According to the present invention, a concentrated steel sheet having an average diameter of 1 μm or less is formed on the surface, and a steel sheet for galvanization excellent in workability having a tensile strength of 28 to 50 kgf / mm ² can be produced. .

  The concentrate is composed mainly of a single or complex oxide such as Si, Al, Mn, and Ti.

  It is preferable that growth of the average diameter of the concentrate is suppressed within 10% with respect to an increase in the annealing temperature of 10 ° C.

  Hereinafter, the present invention will be described more specifically through examples.

  A steel slab having a composition as shown in Table 1 below was heated in a temperature range of 1200 ° C., finish-rolled at a hot finish rolling temperature of 890 ° C., wound at a winding temperature of 660 ° C., and then air-cooled. Thereafter, the steel sheet was cold-rolled at a reduction rate of 80% to produce a cold-rolled steel sheet.

  Further, for steel types 4 and 5, after rolling the hot-rolled steel sheet as described above, it was water-cooled and then cold-rolled at a reduction rate of 80% to produce a cold-rolled steel sheet.

Among the cold-rolled steel sheets produced as described above, after annealing for 86 seconds in a temperature range of 780 to 830 ° C. in a N ₂ -10% H ₂ atmosphere for steel types 1 to 3, the steel sheet surface was The amount of Mn and Al to be concentrated was investigated, and the results are shown in FIG.

Also, after 86 seconds annealing heat treatment in manufactured out grades 4 and 5 of the cold-rolled steel sheet N ₂ -10% H ₂ atmosphere at 860 ° C. relative (post-winding air and water cooling member) as described above, The shape of the concentrate produced on the steel surface was investigated, and the results are shown in FIG.

Further, among the cold-rolled steel sheets, the cold-rolled steel sheets of steel types 4 and 5 that were air-cooled after winding were annealed in an N ₂ -10% H ₂ atmosphere at 800 to 850 ° C. for 86 seconds, and then formed on the steel surface. The shape of the concentrated product was investigated, and the results are shown in FIG.

As shown in FIG. 1, it can be seen that steel types 2 and 3 consistent with the present invention have less surface enrichment of Mn and Al than steel type 1 outside the scope of the present invention.

  In addition, as shown in FIG. 2, it can be seen that the steel type 5 consistent with the present invention has a smaller amount of surface concentrate and a smaller size than the steel type 4 outside the present invention.

  In particular, in the case of steel type 4, when the water cooling is performed after hot rolling, the size of the surface concentrate is significantly larger than that of the air-cooled material, whereas in the case of steel type 5, the surface concentrated product is hot rolled. It can be seen that the water-cooled material has almost the same size as the air-cooled material when it is cooled with water.

  Further, as shown in FIG. 3, in the case of steel type 4, the size of the surface concentrate increases as the annealing temperature increases, whereas in the case of steel type 5, the size of the surface concentrate becomes annealed. It can be seen that there is almost no change with increasing temperature.

It is the graph showing the change of the steel plate surface concentrated amount according to steel type and annealing temperature. It is the photograph showing the distribution state of the steel sheet surface concentrate with respect to the air cooling material after hot-rolling and a water cooling material by steel classification. It is the photograph showing the distribution state of the steel plate surface concentrate according to steel type and annealing temperature.

Claims (8)

% By weight, C: 0.010% or less, Si: 0.1% or less, Mn: 0.06% to 1.5%, P: 0.15% or less, S: 0.020% or less, Sol. Al: 0.10-0.40%, N: 0.010% or less, Ti: 0.003-0.010%, Nb: 0.003-0.040%, B: 0.0002-0.0020 %, And Mo: 0.05% or less, and one or two of Sb: 0.005 to 0.05% and Sn: 0.005 to 0.05% are added thereto, and two kinds are added. Sometimes the sum is 0.005 to 0.1%, composed of the balance Fe and other inevitable impurities, a concentrate having a size of 1 μm or less is formed on the surface, and 28 to 50 kgf / mm ² Steel sheet for galvanization with excellent tensile strength and workability.   The steel sheet for galvanization excellent in workability according to claim 1, wherein the growth of the average diameter of the granular concentrate is suppressed within 10% when the annealing temperature is increased by 10 ° C.   3. The steel sheet for galvanization excellent in workability according to claim 1, wherein the concentrate contains, as a main component, Si, Al, Mn, and Ti alone or a composite oxide.   % By weight, C: 0.010% or less, Si: 0.1% or less, Mn: 0.06% to 1.5%, P: 0.15% or less, S: 0.020% or less, Sol. Al: 0.1-0.40%, N: 0.010% or less, Ti: 0.003-0.010%, Nb: 0.003-0.040%, B: 0.0002-0.0020 %, And Mo: 0.05% or less, to which one or two of Sb: 0.005 to 0.05% and Sn: 0.005 to 0.05% are added, and two kinds are added Sometimes the sum is 0.005 to 0.1%, and after reheating the steel slab composed of the remainder Fe and other inevitable impurities, the hot rolled steel sheet hot rolled in the austenite single phase region is wound up Then, after cold rolling, continuous annealing in the range of 700 ° C. or higher, a method for producing a steel sheet for galvanization excellent in workability.   The heating temperature of the steel slab is 1100 to 1300 ° C, the hot finish rolling temperature is 830 to 920 ° C, the winding temperature is 500 to 700 ° C, the cold rolling reduction is 65% or more, and the annealing temperature is 780 ° C. It is -860 degreeC, The manufacturing method of the steel plate for galvanization excellent in workability of Claim 4 characterized by the above-mentioned.   6. The method for producing a steel sheet for galvanization excellent in workability according to claim 4, wherein the hot-rolled steel sheet is wound and then air-cooled or water-cooled.   6. The manufacture of a galvanized steel sheet having excellent workability according to claim 4, wherein coarsening of the concentrate is suppressed within 10% when the annealing temperature is increased by 10 ° C. in the annealing temperature section. Method.   The method for producing a steel sheet for galvanization excellent in workability according to claim 6, wherein coarsening of the concentrate is suppressed within 10% when the annealing temperature is increased by 10 ° C in the annealing temperature section.