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JPH09256132A - Hot dip aluminum-zinc alloy plated steel sheet and its production - Google Patents

Hot dip aluminum-zinc alloy plated steel sheet and its production

Info

Publication number
JPH09256132A
JPH09256132A JP6826196A JP6826196A JPH09256132A JP H09256132 A JPH09256132 A JP H09256132A JP 6826196 A JP6826196 A JP 6826196A JP 6826196 A JP6826196 A JP 6826196A JP H09256132 A JPH09256132 A JP H09256132A
Authority
JP
Japan
Prior art keywords
steel sheet
workability
alloy
plating
plated steel
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Pending
Application number
JP6826196A
Other languages
Japanese (ja)
Inventor
Keiji Miki
啓司 三木
Toshio Nakamori
俊夫 中森
Masahiko Hori
雅彦 堀
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Nippon Steel Corp
Original Assignee
Sumitomo Metal Industries Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Sumitomo Metal Industries Ltd filed Critical Sumitomo Metal Industries Ltd
Priority to JP6826196A priority Critical patent/JPH09256132A/en
Publication of JPH09256132A publication Critical patent/JPH09256132A/en
Pending legal-status Critical Current

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Abstract

PROBLEM TO BE SOLVED: To produce a hot dip Al-Zn alloy plated steel sheet having a plating film withstanding severe working and to provide a method for producing the same. SOLUTION: This hot dip aluminum-zinc alloy plated steel sheet has a plating layer of an Al-Zn ally contg., by weight, 25 to 75% Al, one or >= two kinds among Mo, W, Nb and Ta by 0.01 to 0.50% in total, one or two kinds of V and Cr by 0 to 0.50% in total and Si by 0.5 to 5.0% to the content of Al. By subjecting the steel sheet to heat treatment of executing heating at 150 to 350 deg.C, the workability of the film can furthermore be improved.

Description

【発明の詳細な説明】Detailed Description of the Invention

【0001】[0001]

【発明の属する技術分野】本発明は、めっき層の加工性
がすぐれた溶融アルミニウム−亜鉛合金めっき鋼板と、
その製造方法に関する。
TECHNICAL FIELD The present invention relates to a hot-dip aluminum-zinc alloy-plated steel sheet having a plated layer having excellent workability,
It relates to the manufacturing method.

【0002】[0002]

【従来の技術】Alを25〜75%とAl量のO.5〜5.0%の
Siとを含有し、残部はZnと不可避的不純物からなる
めっき層を有する溶融アルミニウム−亜鉛(以下Al−
Znと略記)合金めっき鋼板は、溶融亜鉛めっき鋼板に
比べて数倍の高い耐食性があり、溶融アルミニウムめっ
き鋼板並の耐熱性や熱反射性をもち、しかも、溶融アル
ミニウムめっき鋼板にはない端面の耐食性も併せ持って
いる。このような鋼板の代表的なものとして、Zn−55
%Al− 1.6%Si合金めっき鋼板があるが、そのすぐ
れた耐食性から、屋根材や壁材等の建材製品、ガードレ
ール、配線配管や防音壁等の土木製品、自動車の排気系
統、電機洗濯機、電子レンジ等の家電製品等の用途に急
速に普及しつつある。
2. Description of the Related Art Molten aluminum-zinc (hereinafter referred to as "Al-") containing 25 to 75% of Al and 0.5 to 5.0% of the amount of Al, and the balance Zn having Zn and unavoidable impurities.
Zn abbreviated) alloy-coated steel sheet has corrosion resistance several times higher than that of hot-dip galvanized steel sheet, has heat resistance and heat reflectivity comparable to hot-dip aluminum-plated steel sheet, and has an end surface that is not found in hot-dip aluminum-plated steel sheet. It also has corrosion resistance. Zn-55 is a typical example of such a steel sheet.
% Al-1.6% Si alloy plated steel sheet is available, but due to its excellent corrosion resistance, building material products such as roofing materials and wall materials, civil engineering products such as guardrails, wiring pipes and soundproof walls, automobile exhaust systems, electric washing machines, It is rapidly spreading to applications such as home appliances such as microwave ovens.

【0003】しかし溶融Al−Zn合金めっき鋼板は、
めっき層の加工性が悪く、例えば曲げ加工の曲率半径が
小さくなるとめっき層に割れを発生し、その部分の耐食
性が低下することが問題になっていた。なおここで、表
面のめっきは上述のようにAl、ZnおよびSiを含む
合金であるが、母材鋼板とめっきの間には、めっき処理
の過程でFeを含む合金が形成されている。そして、め
っき層の評価、とくにその加工性などは、この界面に形
成された合金ないしは金属間化合物の性質や量に左右さ
れる場合も多い。そこで、以降、単にめっき層という記
述は、とくに断らない限り、この界面にできたFe等を
含有する合金層まで含んでいるものとする。
However, the hot-dip Al-Zn alloy plated steel sheet is
When the workability of the plating layer is poor, for example, when the radius of curvature of bending becomes small, cracks occur in the plating layer, and the corrosion resistance of that portion deteriorates. The surface plating is an alloy containing Al, Zn and Si as described above, but an alloy containing Fe is formed between the base steel plate and the plating during the plating process. The evaluation of the plating layer, especially the workability thereof, is often dependent on the properties and amount of the alloy or intermetallic compound formed at this interface. Therefore, hereinafter, the term "plated layer" includes the alloy layer containing Fe or the like formed at this interface unless otherwise specified.

【0004】めっき層の加工性が悪い理由は、次のよう
にいくつかあげられている。まず、めっき層の合金組成
はZnに対するAlの過共晶合金であるため、溶融状態
から冷やされる際、Alのリッチな初晶によるデンドラ
イトの間をZnのリッチな相が埋めていくという形で凝
固し、不均質な組織になる。めっきの場合は、これが急
冷されるのでめっき層の組織は微細になる傾向にはある
が、残留歪みが多くなってその加工性が悪くなる。ま
た、鋼との接触面においては、めっき層中のAlがFe
と速やかに反応してAl−Fe合金を作るため、これの
抑制を目的として浴中にSiが添加される。しかしなが
ら、この反応は完全には抑止できず、Al−FeやAl
−Fe−Siの金属間化合物を主とする層が鋼とめっき
の界面近傍に形成され、これらの化合物は極めて脆いた
め、めっき層の加工性を低下させる原因となる。さら
に、AlとFeとの反応抑止のために添加したSiは、
その含有量がめっき合金の凝固温度近くでは固溶限を超
えるようになり、デンドライドの間で針状の硬いSiの
金属結晶が沈殿し、これも変形時の亀裂の起点になって
めっき層の加工性を劣化させる。
There are several reasons why the workability of the plated layer is poor. First, since the alloy composition of the plated layer is a hypereutectic alloy of Al with respect to Zn, when the molten state is cooled, the Zn-rich phase fills the space between the dendrites of the Al-rich primary crystals. It solidifies and becomes a heterogeneous tissue. In the case of plating, the structure of the plating layer tends to become fine because it is rapidly cooled, but the residual strain increases and the workability deteriorates. On the contact surface with steel, Al in the plating layer is Fe
Rapidly reacts with Al to produce an Al-Fe alloy, and Si is added to the bath for the purpose of suppressing this. However, this reaction cannot be completely suppressed, and Al--Fe and Al
A layer mainly containing an intermetallic compound of —Fe—Si is formed in the vicinity of the interface between the steel and the plating, and these compounds are extremely brittle, which causes the workability of the plated layer to be deteriorated. Furthermore, Si added to suppress the reaction between Al and Fe is
The content exceeds the solid solubility limit near the solidification temperature of the plating alloy, and needle-like hard metal crystals of Si precipitate between the dendrites, which also becomes the starting point of cracks during deformation and It deteriorates workability.

【0005】このAl−Zn合金めっき層の劣った加工
性を改善するために、めっき後に歪み取りの加熱処理を
施す方法があるが、温度を上げすぎるとAlとFeの合
金化が進むので、低温長時間(例えば200 ℃、24時間)
の加熱でなければ十分な効果は得られない。しかし、連
続ラインでは、長時間の熱処理の実施は困難であり、別
工程の処理を要する。この改良に、めっき鋼板にショッ
トブラスト処理をおこなって、加熱時間を短縮する発明
が特開平 4-41657号公報に提示されている。ブラスト処
理により加熱時間が短縮できるので、めっき鋼板上への
塗装時の塗料焼付けを目的とした短時間加熱でも、めっ
き層の熱処理が可能であるとしている。しかしながら、
ショットブラスト処理は別工程を必要とし、その分工程
が長くなり、かなりのコスト上昇を招く結果となる。
In order to improve the inferior workability of the Al-Zn alloy plated layer, there is a method of performing heat treatment for removing strain after plating. However, if the temperature is raised too much, alloying of Al and Fe will proceed. Low temperature for a long time (eg 200 ° C, 24 hours)
If it is not heated, a sufficient effect cannot be obtained. However, in a continuous line, it is difficult to perform heat treatment for a long time, and a separate process is required. In order to improve this, Japanese Patent Laid-Open No. 41657/1992 discloses an invention in which a plated steel sheet is shot-blasted to shorten the heating time. Since the heating time can be shortened by the blast treatment, it is said that the heat treatment of the plating layer can be performed even for a short time for the purpose of baking the paint during coating on the plated steel sheet. However,
The shot blasting process requires a separate process, which requires a longer process, resulting in a considerable cost increase.

【0006】これに対して、めっき浴中にSr、Vある
いはCr等の元素を添加し、めっき層の加工性を向上さ
せる方法が報告されている(ALZINC PLUS:A NEW CONTIN
UOUSHOT-DIP 55% Al-Zn PROTECTIVE COATING : M.Lambe
rigts,et al;GALVATEC'92,Amsterdam (1992),p.412
参照)。これは、上記の元素の少量添加によって、めっ
き層の組織を微細化し、鋼とめっき層の界面の組織を変
え、Siの針状沈殿粒子を球状化させ、めっき層の加工
性を向上させようとするものであるが、その加工性向上
効果は必ずしも十分ではない。
On the other hand, it has been reported that an element such as Sr, V or Cr is added to the plating bath to improve the workability of the plating layer (ALZINC PLUS: A NEW CONTIN.
UOUSHOT-DIP 55% Al-Zn PROTECTIVE COATING: M.Lambe
rigts, et al; GALVATEC'92, Amsterdam (1992), p.412
reference). This is to improve the workability of the plating layer by refining the structure of the plating layer, changing the structure of the interface between the steel and the plating layer, and spheroidizing the acicular precipitate particles of Si by adding a small amount of the above elements. However, the workability improving effect is not always sufficient.

【0007】以上のように、Al−Zn合金めっき鋼板
に関し、表面のめっき層の加工性向上のために種々の対
策が検討されてきた。しかしながら現状では、必ずしも
満足すべき鋼板は得られてなく、工業的に容易に採用で
きる低コストの製造方法も十分確立されているとは言い
難い。
As described above, various measures have been studied for improving the workability of the plated layer on the surface of the Al—Zn alloy plated steel sheet. However, at present, satisfactory steel sheets have not necessarily been obtained, and it is hard to say that a low-cost manufacturing method that can be industrially easily adopted is well established.

【0008】[0008]

【発明が解決しようとする課題】本発明の目的は、きび
しい加工に耐える表面めっき層を有する溶融Al−Zn
合金めっき鋼板とその製造方法を提供することにある。
SUMMARY OF THE INVENTION It is an object of the present invention to provide a molten Al-Zn having a surface plating layer that withstands severe processing.
An object is to provide an alloy-plated steel sheet and a method for manufacturing the same.

【0009】[0009]

【課題を解決するための手段】本発明者らは鋼板の溶融
Al−Zn合金めっき、すなわちAlを25〜75%と、A
l量のO.5〜5.0%のSiとを含有し、残部はZnと不可
避的不純物からなるめっき層の加工性を向上させるた
め、その組織の改善を主な課題にして種々検討をおこな
った。鋼板表面に付着した後のAl−Zn合金の、溶融
から凝固に至る熱履歴は、浴温が 600℃前後と高い以
外、基本的に通常の溶融亜鉛めっきラインの場合と同じ
であり、大きくは変えられない。したがって、ほぼ定っ
た冷却条件下にて凝固組織を変えさらには加工性を改善
するには、添加元素を種々検討すべきであると考えられ
た。
DISCLOSURE OF THE INVENTION The inventors of the present invention have performed hot-dip Al-Zn alloy plating on a steel sheet, that is, 25 to 75% Al,
In order to improve the workability of a plating layer containing 1% of O.5-5.0% of Si and the balance Zn and unavoidable impurities, various studies were conducted with the main problem of improving the structure. . The thermal history from melting to solidification of the Al-Zn alloy after adhering to the surface of the steel sheet is basically the same as that of a normal hot dip galvanizing line except that the bath temperature is as high as around 600 ° C, Can not change. Therefore, it was considered that various additive elements should be studied in order to change the solidification structure under substantially constant cooling conditions and further improve the workability.

【0010】そこで、上記少量のSiを含むAl−Zn
合金の凝固組織とめっきした鋼板の加工性に対する添加
元素の影響を種々検討の結果、Mo、W、Nb、Ta、
V、Crの少量添加が、めっき層の組織を改善し硬度を
低下させるか、あるいは加工性を向上させる効果がある
ことがわかってきた。さらに、これら元素は適量組合せ
て含有させることによって、加工性改善の効果がより顕
著になることを見出した。ただし、組合せて添加した場
合、単に合計の添加量に依存して効果が現われる場合
と、予想した影響以上の効果が現われ、相乗効果がある
と考えられる場合とがあった。
Therefore, Al-Zn containing the above-mentioned small amount of Si
As a result of various studies on the influence of additional elements on the solidification structure of the alloy and the workability of the plated steel sheet, Mo, W, Nb, Ta,
It has been found that the addition of a small amount of V or Cr has the effect of improving the structure of the plating layer and lowering the hardness, or improving the workability. Further, it was found that the effect of improving the workability becomes more remarkable by including these elements in appropriate amounts in combination. However, when they were added in combination, there were cases where the effect appeared simply depending on the total amount added, and cases where the effect more than the expected effect appeared and there was a synergistic effect.

【0011】これらの元素の添加によるめっき層の加工
性改善には、主として二つの効果があるように思われ
る。一つはめっき層の凝固組織ないしは金属組織を微細
化させる効果である。これは、溶けたAl−Zn合金が
鋼板に付着して急冷され、過冷の状態から凝固する際
に、AlまたはZnとの金属間化合物や第2相を速やか
に形成し、これらが微細に分散して多数の凝固核とな
り、凝固組織を変化させたと推定されるものである。微
細化した組織は加工性が向上し、その後の熱履歴によっ
ては硬さも低下し、加工性はさらによくなる。このよう
な効果のある元素は、上記の中のMo、W、Nbおよび
Taである。これらの元素をAグループの元素とする。
It seems that there are mainly two effects for improving the workability of the plated layer by adding these elements. One is the effect of refining the solidification structure or the metal structure of the plating layer. This is because when the molten Al-Zn alloy adheres to the steel sheet and is rapidly cooled and solidifies from a supercooled state, it rapidly forms an intermetallic compound with Al or Zn and a second phase, and these are finely divided. It is presumed that a large number of solidification nuclei were dispersed to change the solidification structure. The workability of the micronized structure is improved, and the hardness is lowered depending on the subsequent heat history, and the workability is further improved. Elements having such an effect are Mo, W, Nb and Ta among the above. These elements are the elements of group A.

【0012】もう一つは、鋼に接しためっきとの界面に
できるAl−FeやAl−Fe−Siの金属間化合物を
主とする脆い合金層の、形態を変化させる効果である。
それによって、加工時めっき層の割れの起点となる脆い
合金層での亀裂発生を抑止し、結果としてめっき層の加
工性を向上させると推定されるものである。このような
効果をもたらすと考えられるのはVとCrである。これ
らの元素をBグループの元素とする。これらBグループ
の元素は、Aグループの元素のようにめっき層の大部分
を占める合金の組織には殆ど影響しないため、加工性向
上の効果が小さいように見える。しかし、同じグループ
の中の元素を組み合せて含有させても、その合計量に応
じた程度の効果しか得られないのに対し、Aグループの
元素とBグループの元素とを組み合せて添加すると、相
乗的に改善効果が現われる。
The other is the effect of changing the morphology of a brittle alloy layer mainly composed of Al-Fe or Al-Fe-Si intermetallic compounds formed at the interface with the plating in contact with steel.
It is presumed that this suppresses the occurrence of cracks in the brittle alloy layer, which becomes the starting point of cracking of the plating layer during processing, and consequently improves the workability of the plating layer. It is V and Cr that are considered to bring about such an effect. These elements are defined as B group elements. Unlike the elements of the A group, these elements of the B group have almost no effect on the structure of the alloy that occupies most of the plating layer, so that the effect of improving the workability seems to be small. However, even if the elements in the same group are contained in combination, only the effect corresponding to the total amount can be obtained, whereas if the elements of group A and elements of group B are added in combination, they are synergistic. The improvement effect appears.

【0013】急冷凝固した合金中には歪みや内部応力が
残存し、これがめっき層の加工性を悪くする傾向がある
が、熱処理はその組織の残留応力を解放するため、さら
に加工性を向上させる効果があることも明らかになっ
た。ことに本発明では、上記元素の添加によって組織が
微細化されたため、歪みの解放が容易になり、短時間で
十分な効果が得られるものと思われた。
Strain and internal stress remain in the rapidly solidified alloy, which tends to deteriorate the workability of the plating layer, but the heat treatment releases the residual stress of the structure, further improving the workability. It was also revealed that it has an effect. In particular, in the present invention, since the structure was made finer by the addition of the above-mentioned elements, it was thought that the strain could be released easily and a sufficient effect could be obtained in a short time.

【0014】これらの知見から効果的な含有範囲、さら
には熱処理の有効範囲を明らかにして本発明を完成させ
た。本発明の要旨とするところは次のとおりである。
The present invention has been completed by clarifying the effective content range and the effective range of heat treatment based on these findings. The gist of the present invention is as follows.

【0015】(1) 重量%にて、Alを25〜75%、Mo、
W、Nb、Taの1種または2種以上を合計量で0.01〜
0.50%、VとCrの1種または2種を合計量で 0〜0.50
%、およびAl量の 0.5〜 5.0%のSiを含有するAl
−Zn合金のめっき層を有することを特徴とする溶融ア
ルミニウム−亜鉛合金めっき鋼板。
(1) 25% to 75% Al, Mo,
One or more of W, Nb, and Ta in a total amount of 0.01 to
0.50%, 0 or 0.50 in total of one or two of V and Cr
%, And Al containing 0.5 to 5.0% of the amount of Al
-A hot-dip aluminum-zinc alloy-plated steel sheet having a Zn alloy plating layer.

【0016】(2) めっき後、 150〜 350℃の温度範囲に
加熱する熱処理をおこなうことを特徴とする請求項1に
記載の溶融アルミニウム−亜鉛合金めっき鋼板の製造方
法。
(2) The method for producing a hot-dip aluminum-zinc alloy-plated steel sheet according to claim 1, characterized in that after plating, heat treatment is performed by heating in a temperature range of 150 to 350 ° C.

【0017】[0017]

【発明の実施の形態】本発明において、めっき層のAl
含有量を25〜75%と限定する。理由は、この範囲よりも
多くても少なくても、鋼板の耐食性が劣ってくるためで
ある。すなわちAl含有量が25%を下回ると、耐熱性や
Alによるすぐれた耐食性が失われ、75%を超えると切
断端面の防食効果が失われる。
BEST MODE FOR CARRYING OUT THE INVENTION In the present invention, the Al of the plating layer is
The content is limited to 25 to 75%. The reason is that the corrosion resistance of the steel sheet becomes inferior even if it is more or less than this range. That is, when the Al content is less than 25%, heat resistance and excellent corrosion resistance due to Al are lost, and when it exceeds 75%, the anticorrosion effect of the cut end surface is lost.

【0018】このめっき層には、SiをAl含有量の
0.5〜 5.0%含有させる。Siの添加は、めっき温度で
速やかに進行するFeとAlの合金化反応を抑え、めっ
き層と母材鋼板の境界に発達する脆いAl−Feの金属
間化合物相の発達を阻止して、めっき層の密着性を維持
し、さらに耐食性を向上させる効果がある。Al量に対
し 0.5%未満のSi含有量の場合は、合金化の抑制効果
が不十分である。また、多すぎると効果が飽和するばか
りでなく、浴のドロスの発生が増して製品表面品質を劣
化させ、その上、めっき層中の金属Si粒子が増加して
被膜の加工性を悪くする。そこで上限をAl量の 5.0%
までとする。なお、代表的組成はAl:55%、Si:
1.6%(Al量の 2.9%)である。
This plating layer contains Si with an Al content.
0.5 to 5.0% is included. The addition of Si suppresses the alloying reaction of Fe and Al that rapidly progresses at the plating temperature, and prevents the development of the brittle Al-Fe intermetallic compound phase that develops at the boundary between the plating layer and the base steel sheet, It has the effect of maintaining the adhesion of the layer and further improving the corrosion resistance. When the Si content is less than 0.5% with respect to the Al amount, the effect of suppressing alloying is insufficient. Further, if the amount is too large, not only the effect is saturated, but also the generation of bath dross increases and the product surface quality is deteriorated, and moreover, the metal Si particles in the plating layer increase and the workability of the coating deteriorates. Therefore, the upper limit is 5.0% of the Al amount.
Up to. The typical composition is Al: 55%, Si:
1.6% (2.9% of Al content).

【0019】合金中にはAグループの元素、すなわちM
o、W、NbまたはTaの1種以上を、合計量0.01〜0.
50%の範囲で含有させる。めっき層への含有を目的に、
浴中にこれらの元素を添加することによって、被膜の加
工性が大幅に向上する。その場合、被膜中の合計の含有
量が、0.01%未満では加工性向上の効果が小さい。ま
た、0.50%を超えるようになると逆に加工性が劣化して
くる。したがって、合計の含有量の上限を0.50%とす
る。多すぎるとめっき層の加工性が劣化してくるのは、
金属間化合物や第2相の量が増してくるためと思われ
る。
In the alloy, the elements of group A, namely M
o, W, Nb or Ta, one or more of them in a total amount of 0.01-0.
Include in the range of 50%. For the purpose of inclusion in the plating layer,
By adding these elements to the bath, the processability of the coating is greatly improved. In that case, if the total content in the coating is less than 0.01%, the effect of improving the workability is small. On the other hand, if it exceeds 0.50%, the workability deteriorates. Therefore, the upper limit of the total content is 0.50%. If the amount is too large, the workability of the plating layer will deteriorate.
This is probably because the amount of intermetallic compounds and second phase increases.

【0020】Bグループの元素、すなわちVまたはCr
の1種または2種の含有もめっき層の加工性を向上させ
る効果がある。Aグループの元素の含有で十分の効果を
得ている場合には、とくには添加しなくてもよいが、こ
れにBグループの元素を添加することによって、さらに
加工性を向上させ得る。Aグループの元素の場合、添加
の効果は顕著であるが、多すぎる含有は加工性を悪くす
る。これに対して、Bグループの元素は添加の効果がや
や劣る傾向があるが、過剰に添加しても悪影響が小さ
い。そのためAグループの元素を含有させた上でBグル
ープの元素を添加すると、効果を大きく増進させること
ができる。また同じ効果を得るのにAグループの元素の
含有量を低減することも可能である。
B group elements, ie V or Cr
The inclusion of one or two of these also has the effect of improving the workability of the plating layer. When the effect of containing the elements of the A group is sufficient, it is not necessary to add the element in particular, but by adding the element of the B group to this, the workability can be further improved. In the case of the elements of group A, the effect of addition is remarkable, but if the content is too large, the workability deteriorates. On the other hand, the elements of the B group tend to be slightly inferior in the effect of addition, but the adverse effect is small even if added in excess. Therefore, the effect can be greatly enhanced by adding the element of group B after adding the element of group A. Further, it is possible to reduce the content of the element of the A group to obtain the same effect.

【0021】このBグループの元素、すなわちVまたは
Crの添加の効果を得るのに望ましい含有量は、合計量
で0.01%以上である。しかし多く添加してもその効果は
飽和するので、めっき層中のVまたはCrの1種または
2種の含有量の上限は合計で0.50%とする。
The desirable content for obtaining the effect of the addition of the element of the B group, that is, V or Cr is 0.01% or more in total. However, even if added in a large amount, the effect is saturated, so the upper limit of the content of one or two of V or Cr in the plating layer is 0.50% in total.

【0022】Al−Zn合金を溶融めっきする場合、Z
nのめっきの場合に比較して温度が高いことやAlはF
eと金属間化合物を作りやすい傾向があり、めっきと鋼
板の接触界面にFeを含んだ合金層が形成される。この
合金層はきわめて脆く、加工の際のめっき層剥離や亀裂
発生の原因となるので、その形成抑止のためにSiが添
加されるが効果は十分ではない。Bグループの元素の添
加は、この合金層形成を抑止する効果はないが、できた
合金層が原因と推定されるめっき層の割れを低減する効
果を示すのである。その理由はあきらかではないが、脆
くなる理由の一つである針状のSiの粒子を球状化させ
ることが考えられる。
In the case of hot dipping Al-Zn alloy, Z
The temperature is higher than in the case of n plating and Al is F
e tends to easily form an intermetallic compound, and an alloy layer containing Fe is formed at the contact interface between the plating and the steel sheet. Since this alloy layer is extremely brittle and causes peeling of the plating layer and generation of cracks during processing, Si is added to suppress its formation, but the effect is not sufficient. The addition of the elements of the B group has no effect of suppressing the formation of the alloy layer, but exhibits the effect of reducing cracks in the plating layer which are presumed to be caused by the alloy layer formed. The reason for this is not clear, but it is considered that one of the reasons for becoming brittle is to make acicular Si particles spherical.

【0023】本発明の鋼板の場合、溶融めっきラインに
てめっきしたままでも、めっき層の加工性は従来の溶融
Al−Zn合金めっき鋼板のそれよりもすぐれている。
しかし、 150〜 350℃の温度範囲に加熱するという熱処
理により、さらに被膜の加工性を向上させることができ
る。加熱の保持時間はとくには規制しないが、温度の低
い場合は長い方がよく温度が高ければ短くてもよい。温
度が 150℃未満では長時間保持しても加工性向上効果は
小さく、 350℃を超える温度では表面が灰色から灰黒色
に変色するばかりでなく、耐蝕性が低下したり、合金層
が発達してめっきの密着性が低下してくる。そこで、加
熱の温度範囲を 150〜 350℃とするが、望ましいのは 1
70〜 340℃にて 2〜10min 程度の加熱である。
In the case of the steel sheet of the present invention, the workability of the plating layer is better than that of the conventional hot-dip Al—Zn alloy-plated steel sheet even when it is plated on the hot-dip galvanizing line.
However, the workability of the coating can be further improved by the heat treatment of heating in the temperature range of 150 to 350 ° C. The holding time of heating is not particularly limited, but longer is better when the temperature is low and shorter if the temperature is high. If the temperature is lower than 150 ° C, the workability improvement effect is small even if it is kept for a long time, and if the temperature exceeds 350 ° C, not only the surface changes color from gray to gray black, but also the corrosion resistance decreases and the alloy layer develops. Adhesion of the plating will decrease. Therefore, the heating temperature range is set to 150 to 350 ° C, but 1 is preferred.
Heating at 70 to 340 ℃ for 2 to 10 minutes.

【0024】このような熱処理は、めっき鋼板にさらに
塗装をおこなう際の塗料の焼きつけ処理で実現可能であ
り、表面への塗装後鋼板を加工する場合に、塗装下地の
めっき部分に生ずる亀裂を抑止し、鋼板使用時の耐食性
を向上させることができる。
Such heat treatment can be realized by baking the paint when the coated steel sheet is further coated, and when processing the steel sheet after coating on the surface, cracks that occur in the plated portion of the coating base are suppressed. However, the corrosion resistance when using the steel sheet can be improved.

【0025】[0025]

【実施例】素材鋼板として、板厚 0.8mmの低炭素Alキ
ルド鋼板(成分分析値:重量%にて、C:0.05、Si:
0.01、Mn:0.24、P: 0.015、S: 0.011、sol.A
l:0.028、N:0.0023)より採取した幅80mm、長さ 20
0mmの試験片を使用し、還元性雰囲気中から直接溶融め
っき浴中に装入させることのできる竪型溶融めっき試験
装置を用いて、予熱、還元焼鈍後、溶融めっきを行っ
た。そのめっき条件を表1に示す。めっき浴の成分調整
には、 99.99%Zn、99.9%Al、13%Si−Al母合
金、およびそれぞれ 5%前後の元素を含むMo、W、N
b、Ta、V、CrのAl母合金を適宜使用した。試作
しためっきの被膜の組成を表2に示す。めっき後に熱処
理をおこなう場合は、所定温度に加熱した恒温電気炉に
試験片を投入し、所定時間保持の方法とした。雰囲気は
大気中である。
[Example] As a material steel plate, a low carbon Al killed steel plate having a plate thickness of 0.8 mm (compositional analysis value: wt%, C: 0.05, Si:
0.01, Mn: 0.24, P: 0.015, S: 0.011, sol.A
L: 0.028, N: 0.0023) width 80mm, length 20
Using a 0 mm test piece, a vertical hot dip galvanizing tester capable of being directly charged into the hot dip plating bath from a reducing atmosphere was used to perform preheating, reduction annealing, and then hot dip plating. The plating conditions are shown in Table 1. For adjusting the components of the plating bath, 99.99% Zn, 99.9% Al, 13% Si-Al master alloy, and Mo, W, and N containing about 5% of each element.
An Al master alloy of b, Ta, V and Cr was used as appropriate. Table 2 shows the composition of the coating film of the trial plating. When heat treatment was performed after plating, the test piece was placed in a constant temperature electric furnace heated to a predetermined temperature and kept for a predetermined time. The atmosphere is in the atmosphere.

【0026】[0026]

【表1】 [Table 1]

【0027】[0027]

【表2】 [Table 2]

【0028】めっき後の鋼板の性能評価として、表面外
観の調査、 2t曲げまたは密着曲げ(t= 0)試験、お
よび耐食性試験をおこなった。表面外観は目視、色差計
および光沢度計を併用して総合的に判定した。曲げによ
る加工性の評価は、幅15mm、長さ 100mmの試験片を切出
し、長手方向に直角に 2t曲げまたは密着曲げをおこな
った後、試験片を樹脂に埋め込んで曲げ部の断面を研磨
し、電子顕微鏡にて加工されためっき層を観察した。こ
の場合、曲げの外側の被膜に発生した亀裂のうち、表面
から下地の鉄にまで達するものの数を数え、評価値とし
た。この数の少ないものほど被膜の加工性は良好であ
る。耐食性の評価は、端面および裏面をシールした試験
片により、JIS-Z-2371に準拠した塩水噴霧試験をおこな
い、赤錆発生までの時間を測定した。これらの結果も併
せて表2に示す。
As a performance evaluation of the plated steel sheet, a surface appearance investigation, a 2t bending or a contact bending (t = 0) test, and a corrosion resistance test were conducted. The surface appearance was evaluated comprehensively by visual inspection, using a color difference meter and a gloss meter together. To evaluate the workability by bending, a test piece with a width of 15 mm and a length of 100 mm is cut out, bent 2 t at right angles to the longitudinal direction or closely bent, and then embedded in resin to polish the cross section of the bent part. The processed plating layer was observed with an electron microscope. In this case, among the cracks generated in the coating on the outside of the bending, the number of cracks reaching from the surface to the underlying iron was counted and used as the evaluation value. The smaller the number, the better the workability of the coating. The corrosion resistance was evaluated by performing a salt spray test according to JIS-Z-2371 on a test piece whose end face and back face were sealed, and measuring the time until the occurrence of red rust. Table 2 also shows these results.

【0029】この結果から明らかなように、本発明の定
める被膜組成の鋼板は、すぐれた加工性および耐食性を
示すことがわかる。めっきのままでも十分な加工性を有
しているが、さらに熱処理を施すことによって、曲げに
よる亀裂の発生はさらに減少し、加工性が向上してい
る。
As is clear from these results, the steel sheet having the coating composition defined by the present invention has excellent workability and corrosion resistance. Although it has sufficient workability even when it is plated, the heat treatment further reduces the occurrence of cracks due to bending and improves the workability.

【0030】[0030]

【発明の効果】本発明の溶融Al−Zn合金めっき鋼板
は、その利点である優れた耐食性、耐熱性、熱反射性を
そのまま保持して、被膜の加工性が従来よりも大幅に改
善されており、また、焼きつけ塗装時の加熱でもさらに
めっき被膜の加工性が向上し、加工部分でも安定した耐
食性を維持できるものである。このように、本発明は従
来よりも加工性にすぐれた溶融Al−Zn合金めっき鋼
板を提供できる。
EFFECTS OF THE INVENTION The hot-dip Al—Zn alloy-plated steel sheet of the present invention retains its advantages of excellent corrosion resistance, heat resistance, and heat reflectivity as it is, and the workability of the coating is significantly improved as compared with the conventional case. In addition, the workability of the plating film is further improved by heating during baking coating, and stable corrosion resistance can be maintained even in the processed portion. As described above, the present invention can provide a hot-dip Al-Zn alloy plated steel sheet having better workability than ever before.

Claims (2)

【特許請求の範囲】[Claims] 【請求項1】重量%にて、Alを25〜75%、Mo、W、
Nb、Taの1種または2種以上を合計量で0.01〜0.50
%、VとCrの1種または2種を合計量で 0〜0.50%、
およびAl量の 0.5〜 5.0%のSiを含有するAl−Z
n合金のめっき層を有することを特徴とする溶融アルミ
ニウム−亜鉛合金めっき鋼板。
1. A weight percentage of 25-75% Al, Mo, W,
0.01 to 0.50 in total of one or more of Nb and Ta
%, One or two of V and Cr in a total amount of 0 to 0.50%,
And Al-Z containing Si of 0.5 to 5.0% of Al amount
A hot-dip aluminum-zinc alloy plated steel sheet having an n-alloy plated layer.
【請求項2】めっき後、 150〜 350℃の温度範囲に加熱
する熱処理をおこなうことを特徴とする請求項1に記載
の溶融アルミニウム−亜鉛合金めっき鋼板の製造方法。
2. The method for producing a hot-dip aluminum-zinc alloy plated steel sheet according to claim 1, wherein after the plating, heat treatment is performed by heating in a temperature range of 150 to 350 ° C.
JP6826196A 1996-03-25 1996-03-25 Hot dip aluminum-zinc alloy plated steel sheet and its production Pending JPH09256132A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP6826196A JPH09256132A (en) 1996-03-25 1996-03-25 Hot dip aluminum-zinc alloy plated steel sheet and its production

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP6826196A JPH09256132A (en) 1996-03-25 1996-03-25 Hot dip aluminum-zinc alloy plated steel sheet and its production

Publications (1)

Publication Number Publication Date
JPH09256132A true JPH09256132A (en) 1997-09-30

Family

ID=13368643

Family Applications (1)

Application Number Title Priority Date Filing Date
JP6826196A Pending JPH09256132A (en) 1996-03-25 1996-03-25 Hot dip aluminum-zinc alloy plated steel sheet and its production

Country Status (1)

Country Link
JP (1) JPH09256132A (en)

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