JP2011117036A - Hot-pressed member and method for manufacturing the same - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a hot-pressed member capable of reliably obtaining excellent coating adhesiveness, and a method for manufacturing the same. <P>SOLUTION: The hot-pressed member has a Zn-Fe alloy layer, a Si-containing layer, and a ZnO layer in this order on the surface of a steel sheet constituting the member. In the method for manufacturing the same, a hot-dip galvannealed steel sheet having an Si-containing compound layer on its surface is heated at the temperature of 800-1,000°C for the time >3 minutes and ≤15 minutes to execute the hot press. Zn in a plating layer and Fe in the steel sheet are subjected to mutual diffusion in an interface between the plating layer and the base steel sheet, and a Zn-Fe alloy layer is formed thereby. Zn in the upper layer portion of the plating layer passes through the Si-containing compound layer and diffused to the surface, and is reacted with O in the atmosphere to form a ZnO layer on the Si-containing compound layer. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a hot press member manufactured by press-working a heated steel plate, and more particularly to a hot press member used in an undercarriage part or a vehicle body structure part of an automobile and a manufacturing method thereof.

  2. Description of the Related Art Conventionally, many undercarriage members and body structure members of automobiles are manufactured by pressing a steel plate having a predetermined strength. In recent years, from the viewpoint of the preservation of the global environment, there has been a strong desire to reduce the weight of automobile bodies, and efforts have been made to increase the strength of steel sheets to be used and to reduce their thickness. However, as the strength of the steel plate increases, the press workability decreases, and it is often difficult to process the steel plate into a desired member shape.

  Therefore, Patent Document 1 describes a process called a hot press that enables both easy processing and high strength by simultaneously processing a heated steel sheet using a die and punch die and simultaneously cooling it. Technology has been proposed. However, in this hot press, the steel sheet is heated to a high temperature of around 950 ° C before hot pressing, so scale (Fe oxide) is generated on the steel sheet surface and the scale peels off during hot pressing. There is a problem that the mold is damaged or the surface of the member after hot pressing is damaged. In addition, the scale remaining on the surface of the member may cause poor appearance, poor paint adhesion, and corrosion resistance. For this reason, the scale on the surface of the member is usually removed by processing such as pickling or shot blasting, but this complicates the manufacturing process and causes a decrease in productivity.

For this reason, the production of scale during heating prior to hot pressing can be suppressed, and a hot press member excellent in coating adhesion and corrosion resistance is desired, and a steel plate provided with a coating such as a plating layer on the surface is used. A hot press member and a manufacturing method thereof have been proposed. For example, in Patent Document 2, the alloyed hot-dip Zn-plated steel sheet is heated at 700 to 1000 ° C. for 2 to 20 minutes and then hot pressed to form a plated layer containing a Fe—Zn solid solution phase on the surface. A hot press-formed product (member) excellent in corrosion resistance and weldability is disclosed. In addition, Patent Document 3 discloses a phosphate treatment property and coating adhesion produced by hot-pressing a hot-dip Zn-plated steel sheet coated with a silicone resin film having a silanol group to the Ac ₃ transformation point or higher. A hot press-molded material (member) having excellent properties and Zn volatilization suppression properties is disclosed.

GB 1490535 Japanese Patent No. 4039548 JP 2007-63578 A

  However, the hot press member described in Patent Document 2 has a problem that the coating adhesion is remarkably inferior. Further, even with the hot press member described in Patent Document 3, there is a problem that excellent paint adhesion cannot always be obtained.

  An object of this invention is to provide the hot press member and its manufacturing method in which the outstanding coating adhesiveness is acquired reliably.

  As a result of intensive studies on the above-mentioned hot press member, the present inventors have obtained the following knowledge.

  i) In order to ensure corrosion resistance, it is effective to provide a Zn—Fe alloy layer on the surface of the steel plate constituting the member.

  ii) When a ZnO layer is provided on this Zn-Fe alloy layer via a Si-containing layer, excellent coating adhesion can be reliably obtained.

  The present invention has been made on the basis of such knowledge, a hot pressed member characterized by having, in order, a Zn-Fe alloy layer, a Si-containing layer, and a ZnO layer on the surface of a steel plate constituting the member. provide.

  The hot-pressed member of the present invention can be produced by heating and pressing an alloyed hot-dip Zn-plated steel sheet having a Si-containing compound layer on the surface at 800 to 1000 ° C. for more than 3 minutes and not more than 15 minutes.

  According to the present invention, it has become possible to manufacture a hot press member that can reliably obtain excellent paint adhesion. The hot press member of the present invention is suitable for an automobile suspension member and a vehicle body structural member.

It is a figure which shows typically the layer structure of the thickness direction cross section in the hot press member which is an example of this invention. It is a figure which shows typically the layer structure of the thickness direction cross section in the hot press member which is a comparative example. It is a figure which shows typically the press method used in the present Example.

1) Hot-pressed member As shown in FIGS. 1 (a) and 1 (b), the hot-pressed member according to an example of the present invention includes, in order, a Zn-Fe alloy layer on the surface of the steel plate constituting the member. A Si-containing layer and a ZnO layer are provided.

  When a Zn—Fe alloy layer is provided directly on the surface of the steel plate constituting the member, excellent corrosion resistance can be obtained. This is presumably because the corrosion potential of the Zn—Fe alloy layer is in a range having a sacrificial anticorrosive effect on the steel. The thickness of the Zn—Fe alloy layer is preferably 5 to 30 μm, and can be measured by observing the cross section of the steel sheet with an optical microscope, SEM (Scanning Electron Microscopy), EPMA (Electron Probe Micro Analyzer) or the like. Further, the Zn-Fe alloy layer may be a Zn-Fe intermetallic compound, or may be Fe in which Zn is dissolved, or Zn in which Fe is dissolved, and both Zn and Fe may exist in the same region. The structure does not matter. Confirmation that both Zn and Fe are present in the same region can be confirmed by point analysis or surface analysis of the sample embedded in the steel sheet cross section by SEM or EPMA.

  If a ZnO layer is provided on this Zn-Fe alloy layer via a Si-containing layer, excellent coating adhesion can be obtained with certainty. This is considered as follows. In other words, the ZnO layer is excellent in adhesion with the chemical conversion coating formed during the coating base treatment, but is inferior in adhesion with the Zn-Fe alloy layer, so it is excellent even if provided directly on the Zn-Fe alloy layer. Paint adhesion cannot be obtained. Therefore, if a Si-containing layer having excellent adhesion between the ZnO layer and the Zn—Fe alloy layer is provided between the two layers, excellent coating adhesion can be obtained.

  Note that even if the ZnO layer provided on the Zn-Fe alloy layer via the Si-containing layer is a continuous layer as shown in FIG. 1 (a), it is discontinuous (island as shown in FIG. 1 (b)). However, if it is provided so as to be in contact with the Zn—Fe alloy layer as shown in FIG. 2, the coating adhesion deteriorates.

  The thickness of the Si-containing layer is preferably 0.5 to 5 μm, and the thickness of the ZnO layer is preferably 0.1 to 10 μm, and can be measured by observing the cross section of the steel sheet with an optical microscope, SEM, EPMA, or the like.

2) Manufacturing method As described above, the hot press member of the present invention is a hot press by heating an alloyed hot-dip Zn-plated steel sheet having a Si-containing compound layer on the surface at 800 to 1000 ° C. for more than 3 minutes and not more than 15 minutes. It can manufacture by performing.

  By heating an alloyed hot-dip Zn-plated steel sheet having a Si-containing compound layer on the surface at 800 to 1000 ° C., Zn in the plated layer and Fe in the steel sheet are interdiffused at the interface between the plated layer and the underlying steel sheet. An Fe alloy layer is formed. Also, Zn in the upper part of the plating layer diffuses to the surface through the Si-containing compound layer, reacts with O in the atmosphere, and as shown in FIGS. 1 (a) and 1 (b), the Si-containing layer A ZnO layer is formed on top. At this time, since the reaction between Zn and O in the atmosphere is difficult to occur uniformly, ZnO is locally generated intensely at the initial stage of the reaction with a heating time of 3 minutes or less, and in the Si-containing layer as shown in FIG. A ZnO layer is mixed, and a contact portion between the ZnO layer and the Zn—Fe layer is formed. However, when heated for more than 3 minutes, the Si-containing layer is layered by a dehydration condensation reaction, etc., and there is no contact portion between the ZnO layer and the Zn-Fe layer as shown in FIGS. 1 (a) and 1 (b) It becomes a state.

  Note that the Si-containing layer is not sufficiently layered by heating below 800 ° C., and a contact portion between the ZnO layer and the Zn—Fe layer as shown in FIG. 2 is formed. When heated to 1000 ° C. or higher, the evaporation of Zn becomes violent, and ZnO is locally generated vigorously, and a contact portion between the ZnO layer and the Zn—Fe layer as shown in FIG. 2 is formed. Moreover, even if it is heated for more than 15 minutes, the effect of layering the Si-containing layer is saturated, resulting in an increase in cost and a decrease in productivity.

  In order to obtain a hot pressed member having a strength of 780 MPa or more, as a base steel sheet of the alloyed hot-dip Zn-plated steel sheet used in the present invention, for example, in mass%, C: 0.1 to 0.5%, Si: 0.05 to 2.0%, Mn: 0.5-3%, P: 0.1% or less, S: 0.05% or less, Al: 0.1% or less, N: 0.01% or less, Cr: 0.4-0.5%, B: 0.0015-0.0025%, the balance being It is preferable to use a steel plate having a composition composed of Fe and inevitable impurities. If necessary, at least one of Ti, Nb, Mo, V, Ni, Cu, and W can be contained.

The composition of the alloyed hot-dip Zn plating layer on the underlying steel plate is not particularly limited, and all known compositions can be applied. For example, a composition having an Fe content of 5 to 15 mass% and an Al content of 0.1 to 0.5 mass% can be mentioned. Moreover, 30-90 g / m < ² > generally used widely is applicable also about the adhesion amount per single side | surface of an alloying hot-dip Zn plating layer. As a method for forming the alloyed hot-dip Zn plating layer, all known methods can be applied, but a method of heating to about 450 to 600 ° C. and then performing an alloying treatment is particularly preferable after being immersed in a hot-dip plating bath.

  Examples of the Si-containing compound layer on the alloyed hot-dip Zn-plated steel sheet include a layer made of a silicone resin, lithium silicate, colloidal silica, a silane coupling agent, and the like. In order to form such a Si-containing compound layer, the Si-containing compound may be applied using a roll coater, a squeeze coater, a die coater, a coating method, a dipping method, a spray method, or the like, and then dried by heating. At this time, it is also possible to adjust the coating amount, make the appearance uniform, and make the adhesion amount uniform by an air knife method or roll drawing method after the coating treatment, dipping treatment, and spraying treatment with a squeeze coater. In addition, a dryer, a hot air furnace, a high-frequency induction heating furnace, an infrared furnace, or the like can be used for heat drying, and the temperature is preferably 40 to 200 ° C., more preferably 50 to 160 ° C. in terms of ultimate plate temperature. When the ultimate plate temperature is 40 ° C. or higher, a solvent such as a solvent or moisture does not remain in the Si-containing compound layer, and coating adhesion is sufficient. Further, when the ultimate plate temperature is set to 200 ° C. or less, it is not only economical, but also defects in the Si-containing compound layer do not occur, and coating adhesion is improved.

If the adhesion amount per side of the Si-containing compound layer is 0.5 g / m ² or more, the coating adhesion can be sufficiently improved, and if it is 5.0 g / m ² or less, the Si-containing compound layer does not become brittle and the coating adhesion From the standpoint of improving properties, 0.5 to 5.0 g / m ² is preferable.

For the purpose of further improving the adhesion between the Si-containing layer and the underlying Zn—Fe alloy layer, a composite oxide film can be provided in the lower layer of the Si-containing layer. For example, before forming the Si-containing compound layer on the alloyed hot-dip Zn-plated steel sheet, at least one of oxide fine particles such as silica, phosphoric acid and / or a phosphoric acid compound, and a metal component such as Mn and Al. What is necessary is just to form 5 to 4000 mg / m < ² > of single-sided composite oxide films containing seeds.

As a steel plate of material, C: 0.23%, Si: 0.12%, Mn: 1.5%, P: 0.02%, S: 0.002%, Al: 0.03%, N: 0.002%, Cr: 0.4%, B : An alloyed hot-dip Zn plating layer containing 10% by mass of Fe and 0.3% by mass of Al on a cold-rolled steel sheet having a thickness of 1.6 mm and containing 0.0022%, the balance being composed of Fe and inevitable impurities, An alloyed hot-dip Zn-plated steel sheet formed on both sides with the plating adhesion amount per side shown in 1 was used. First, after applying the Si-containing compound shown in Table 1 to these alloyed hot-dip Zn-plated steel sheets, the sheet is dried under the condition that the ultimate plate temperature is 140 ° C., and the amount of Si-containing compound layer per one side shown in Table 1 Was formed on both sides. Next, a blank of 200 mm × 220 mm was collected from the steel sheet on which the Si-containing compound layer was formed, and after heating under the heating conditions (attainment plate temperature, time) shown in Table 1 in an electric furnace in the air atmosphere, it was taken out from the furnace, Immediately, drawing was performed by a pressing method as schematically shown in FIG. 3, and hot pressed members No. 1 to 17 were produced. At this time, the punch width was 70 mm and the processing height was 30 mm. And the sample was extract | collected from the flat part of the member head, and the layer structure of the thickness direction cross section of a non-punch contact surface was investigated by SEM. In addition, the paint adhesion of the non-punch contact surface was investigated by the following method.
Paint adhesion: A sample was taken from the flat part of the component head, and after chemical conversion treatment was performed under standard conditions using PB-L3020 manufactured by Nihon Parkerizing Co., Ltd. A test piece was prepared by electrodeposition coating. Then, 100 cross-cuts of 1 mm square crossing reaching the steel substrate with a cutter knife were put into the prepared test piece, and a cross-cut tape peeling test was performed in which the cellophane adhesive tape was used to stick and peel. Evaluation was made according to the following criteria, and if it was ○, the object of the present invention was satisfied.
○: Coating film remaining rate = 100%
Δ: 70% ≦ residual coating rate <100%
×: Residual rate of coating film <70%
The results are shown in Table 1. It turns out that hot press member No. 1-12 which is this invention is excellent in coating adhesiveness.

Claims (2)

  A hot-pressed member comprising a Zn-Fe alloy layer, a Si-containing layer, and a ZnO layer in this order on the surface of a steel plate constituting the member.   A method for producing a hot-pressed member, comprising performing hot pressing by heating an alloyed hot-dip Zn-plated steel sheet having a Si-containing compound layer on a surface at 800 to 1000 ° C for more than 3 minutes and not more than 15 minutes.

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