JPH0925551A - Aluminum-zinc alloy plated steel sheet excellent in press formability and heat resistance - Google Patents

Abstract

PROBLEM TO BE SOLVED: To produce an aluminum-zinc alloy plated steel sheet combining excellent deep drawability and heat resistance. SOLUTION: A steel sheet contg., by weight, <0.003% C, <=0.015% S, <=0.003% N, 0.02 to 0.1% Ti, 0.0002 to 0.0015% B and <=0.036% P is applied with Al-Zn alloy plating contg. 25 to 90% Al and Si by 1 to 10% of the Al content, and the balance substantial Zn to obtain the aluminum-zinc alloy plated steel sheet excellent in press formability and heat resistance.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an aluminum-zinc alloy plated steel sheet having both excellent deep drawability and heat resistance.

[0002]

2. Description of the Related Art Aluminum-zinc alloy-plated steel sheets are:
It has high corrosion resistance and weather resistance and is used for building materials, etc., and also has heat resistance, and is also used for heat resistant applications such as electric appliances, heat appliances and automobiles (Japanese Patent Publication No. 46-7161 etc.). . This plated steel sheet is generally manufactured by passing the steel sheet after cold rolling through a continuous hot-dip galvanizing line, continuously annealing and dipping it in a plating bath, and then adjusting the coating weight.

When this aluminum-zinc alloy-plated steel sheet is used in an environment exceeding the heat resistance limit, alloying between the plating film and the base steel sheet rapidly progresses, and characteristics such as corrosion resistance deteriorate. . On the other hand, Tokuhei 1-
35071 discloses that by using a carbon steel containing 0.039% by weight or more of P as a base steel plate of an aluminum-zinc alloy plated steel plate, Z
It is disclosed that the diffusion of n is suppressed and the heat resistance is improved.

[0004]

In applications such as electric appliances and automobiles, severe forming may be performed. In this case, the aluminum-zinc alloy plated steel sheet is required to have high forming workability. In continuous hot-dip galvanizing, as a material for such applications, the so-called IF, which is an ultra-low carbon steel with excellent deep drawability and non-aging steel, added with Ti and the like.
(Interstitial Free) Steel is generally used.

However, the aluminum-zinc alloy-plated steel sheet using such IF steel as the base steel sheet has a lower deep drawability than the general low carbon aluminum killed steel as the base steel sheet in the vicinity of the heat-resistant limit temperature. However, the alloying of the plating film and the base steel sheet proceeded fairly quickly, and the heat resistance and durability were inferior. This is such an I
This is because the cleanliness of the steel F is much higher than that of general low carbon steel, and the alloying reaction at grain boundaries is faster.

In order to improve the heat resistance, the addition of high concentration of P to the IF steel as described above not only leads to an increase in the strength of the steel and lowers the formability, but also lowers the low temperature toughness. Subsequent processing brittleness is also deteriorated, and it may be difficult to apply it to such severe forming processing applications.

The present invention advantageously solves such a problem and has excellent deep drawing formability (press formability).
And an aluminum-zinc alloy plated steel sheet having heat resistance.

[0008]

As a result of studies for such an object, the present inventor has found that by appropriately controlling the chemical composition of the base steel sheet and its concentration, the characteristics of IF steel are not impaired, and high temperature It has been found that it is possible to suppress the progress of alloying in the environment.

That is, the gist of the present invention is as follows.
% By weight, C: less than 0.0030%, S: 0.015%
Hereinafter, N: 0.0030% or less, Ti: 0.02 to 0.
1%, B: 0.0003 to 0.0015%, P: 0.0
36% or less, preferably 0.02 to 0.036%, Si: 0.05% or less, Mn: 0.05 to
0.5%, sol. Steel plate containing Al: 0.02 to 0.1%, Al: 25 to 90%, Si: 1% or more of Al content 1
Al-Zn containing 0% or less and the balance being substantially Zn
It is an aluminum-zinc alloy plated steel sheet excellent in press formability and heat resistance, characterized by being subjected to a system alloy plating.

The present invention will be described in detail below. The aluminum-zinc alloy-plated steel sheet of the present invention is a continuous hot-dip galvanizing line for a steel sheet after cold rolling produced through a normal process, continuous annealing, immersion in a plating bath, and adjustment of the adhesion amount, An aluminum-zinc alloy plated steel sheet is manufactured. Each chemical composition of the base steel sheet was determined from the effect on various properties of the steel sheet after plating, as shown below.

C is preferably low in order to obtain high deep drawability, but is set to less than 0.003% by weight in a range that does not impair the effects of the present invention in practical use. S is an element harmful to the ductility of the steel sheet and is preferably as low as possible, but its upper limit is set to 0 as a range that does not impair the effects of the present invention in practical use.
It was set to 015% by weight.

It is desirable that the N content is small in order to obtain a high-grade formation, and the upper limit is set to 0.003% by weight so as not to impair the effects of the present invention in practical use. Ti is an essential component for fixing solid solution C and N in steel as precipitates and for obtaining high deep drawability. If it is less than 0.02% by weight, the effect is not sufficient, and if it exceeds 0.1% by weight, the effect is not only saturated, but also it is disadvantageous in terms of cost. The range was limited to 1% by weight.

Even if added in a small amount, B has the effect of suppressing alloying between the plating film and the base steel sheet in a high temperature environment which is concentrated in crystal grain boundaries and promoted by grain boundary diffusion. For this reason B
Must be added in an amount of 0.0002% by weight or more. However, B is an element that deteriorates the deep drawing formability of the steel sheet,
If it exceeds 0.0015% by weight, deep drawing formability becomes a practical problem. That is, the heat resistance and the deep drawability can be balanced in such a small amount range.

As described above, P has the effect of suppressing the alloying of the plating film and the base steel sheet in a high temperature environment. However, when P is added alone, it is necessary to add P in a relatively high concentration. However, the addition of a relatively high concentration of P leads to an increase in the strength of the steel and reduces the formability, so it is necessary to keep the amount of P added low. In the present invention, the combined addition with B can improve the heat resistance improving effect with a small addition amount of P of 0.036% by weight or less. However, it is preferably 0.02% by weight to 0.036% by weight. Further, the decrease in the secondary working brittleness due to the addition of P is alleviated because B is added in a complex manner, and there is no problem in such a small addition range.

Si is an element which strengthens the steel to be added if necessary, and if added in excess of 0.05% by weight of Si, ductility is lowered and formability is adversely affected.

Mn is also an element which is added if necessary and affects the strength increase similarly to Si. If added in excess of 0.5% by weight, the formability is deteriorated, so the range is set to this range. Al
Is an element that is added for the purpose of deoxidizing, if necessary.
sol. Al: 0.02 wt% or more is necessary, but the effect is saturated even if added in a large amount, so the upper limit was made 0.1 wt%.

The steel having the above-mentioned components is hot-rolled, pickled and cold-rolled by a usual method, then continuously annealed in a continuous hot dip galvanizing line and immersed in a predetermined plating bath, and then gas. The coating amount is adjusted by wiping, and an aluminum-zinc alloy plated steel sheet is manufactured.

This aluminum-zinc alloy plating is made of Al
Although Zn and Zn are the main components and a small amount of Si is added, the addition of a trace amount of alloying additive elements for improving the plating film characteristics is also included in the scope of application of the present invention. Here, Al is an element that imparts corrosion resistance and heat resistance to the plating film, but if it is less than 25% by weight, these properties are inferior,
If it exceeds 90% by weight, the Zn content is small and the sacrificial corrosion resistance is poor. Si is added to suppress the development of an alloy layer mainly composed of Fe-Al during plating. If the Al content is less than 1%, the suppression of the alloy layer is insufficient, and if the Al content is more than 10%, the coating properties are deteriorated, for example, the number of cracks during processing of the plated coating increases.

[0019]

BEST MODE FOR CARRYING OUT THE INVENTION The present invention will now be described in more detail with reference to specific examples. Continuous cast steel slabs of the steel components of the present invention shown in Tables 1 and 2 and the comparative steel components shown in Table 3 were prepared in 11
After heating to 50 to 1250 ° C., hot rolling to a thickness of 3.
A 2 mm steel plate was wound up at 570 to 670 ° C., followed by pickling and cold rolling to a plate thickness of 0.7 mm.
Then, in a continuous hot dip galvanizing line, 820-89
After continuous annealing at 0 ° C., Zn-55 wt% Al-1.
After passing through a 5 wt% Si alloy plating bath (bath temperature 600 ° C.) to adjust the adhesion amount, an aluminum-zinc alloy plated steel sheet of 150 g / m ^{2 on} both sides was obtained. The following performance tests were performed on the obtained aluminum-zinc alloy plated steel sheet.

(1) Press Formability After being processed into a JIS No. 5 test piece, a tensile test was conducted to measure mechanical property values, and the formability was evaluated by the elongation (E1) and the Rankford value (r value).

The r value was measured in the directions of 0, 45, and 90 degrees in the rolling direction, and evaluated as an average r value (r *) by the following formula. r * = 1/4 (r ₀ + 2r ₄₅ + r ₉₀ ) In the above evaluation, El: 40% or more and r * value 1.85.
The above materials were considered to have good moldability. The evaluation is shown in Table 4.
~ Shown in Table 6 (Table 6 is a comparative example).

(2) Heat resistance The sample was heated at 400 ° C. for 480 hours in the air and the surface condition of the sample was observed. Table 2 shows the observation results. Here, each symbol has the following meaning.

◯: Almost no change in surface condition, good Δ: Alloying progressed locally up to the surface, surface slightly changed to gray black ×: Progression of alloying was remarkable, and a considerable portion of the surface Changes to gray black. From Tables 4 to 6, it can be seen that the samples of the present invention are all excellent in press moldability and heat resistance.

[0024]

[Table 1]

[0025]

[Table 2]

[0026]

[Table 3]

[0027]

[Table 4]

[0028]

[Table 5]

[0029]

[Table 6]

[0030]

As described above, according to the present invention, it is possible to obtain an aluminum-zinc alloy plated steel sheet which is excellent in press formability and also excellent in heat resistance. Is high.

[Brief description of drawings]

FIG. 1 is a drawing showing changes in heat resistance and r ^* value with the addition amount of B.

FIG. 2 is a drawing showing changes in heat resistance and El depending on the amount of P added.

─────────────────────────────────────────────────── ─── Continuation of the front page (51) Int.Cl. ⁶ Identification number Office reference number FI technical display location // C25D 5/26 C25D 5/26 F

Claims (2)

[Claims] 1. By weight%, C: less than 0.003%, S:
0.015% or less, N: 0.003% or less, Ti: 0.
02-0.1%, B: 0.0002-0.0015%,
A steel sheet containing P: 0.036% or less, Al: 25-
Aluminum-zinc alloy excellent in press formability and heat resistance, characterized by being 90%, Si: 1% or more and 10% or less of the amount of Al, and the balance being substantially Zn Al-Zn alloy plating. Plated steel sheet. 2. The steel sheet, in% by weight, further comprises Si: 0.
05% or less, Mn: 0.05 to 0.5%, sol.Al:
The aluminum-zinc alloy plated steel sheet excellent in press formability and heat resistance according to claim 1 or 2, containing 0.02 to 0.1%.