JP3294322B2 - Method for producing hot-dip galvanized steel sheet for deep drawing with excellent paint bake hardenability and corrosion resistance - Google Patents
Method for producing hot-dip galvanized steel sheet for deep drawing with excellent paint bake hardenability and corrosion resistanceInfo
- Publication number
- JP3294322B2 JP3294322B2 JP17203892A JP17203892A JP3294322B2 JP 3294322 B2 JP3294322 B2 JP 3294322B2 JP 17203892 A JP17203892 A JP 17203892A JP 17203892 A JP17203892 A JP 17203892A JP 3294322 B2 JP3294322 B2 JP 3294322B2
- Authority
- JP
- Japan
- Prior art keywords
- steel sheet
- corrosion resistance
- hot
- dip galvanized
- galvanized 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.)
- Expired - Fee Related
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- Electroplating Methods And Accessories (AREA)
- Coating With Molten Metal (AREA)
- Heat Treatment Of Steel (AREA)
- Heat Treatment Of Sheet Steel (AREA)
- Electroplating And Plating Baths Therefor (AREA)
Description
【0001】[0001]
【産業上の利用分野】本発明は、主に自動車ボディーに
使用される、塗装焼付硬化性および耐孔あき腐食性に優
れた深絞り用溶融亜鉛めっき鋼板の製造方法に関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for producing a hot-dip galvanized steel sheet for deep drawing, which is mainly used for an automobile body and is excellent in paint bake hardening property and corrosion resistance against pitting.
【0002】[0002]
【従来の技術】自動車用に使用される冷延鋼板の分野に
おいては、深絞り性に優れていることのほか、耐デント
性を向上させるために塗装焼付時に鋼板の降伏応力が上
昇する特性、すなわち塗装焼付硬化性が要求されること
が多い。従来よりこの種の冷延鋼板については、低炭素
Alキルド鋼、極低炭素鋼をベースにTiを添加したも
の、およびこれらにSi、Mn、P等を添加して強度を
上げた高強度鋼板については多くの提案がある。2. Description of the Related Art In the field of cold rolled steel sheets used for automobiles, in addition to being excellent in deep drawability, in order to improve dent resistance, the property that the yield stress of steel sheets increases when baking paint is used. That is, paint bake hardenability is often required. Conventionally, cold-rolled steel sheets of this type include low-carbon Al-killed steel, ultra-low-carbon steel with Ti added thereto, and high-strength steel with increased strength by adding Si, Mn, P, etc. There are many suggestions for.
【0003】例えば、特開昭57−98630号、特開
昭58−107414号および特開昭61−27692
7号に極抵炭素Alキルド鋼を素材として、連続焼鈍で
製造する方法が、また、特開昭61−26757号、特
開昭63−276927号および特開平2−11184
1号に極低炭素Ti添加鋼を素材として連続焼鈍で製造
する方法が開示されている。これらは、鋼板の強度を上
げるばかりでなく、優れた成形性を兼ね備えたまま、成
形時は軟質でありながら、プレス成形後の塗装焼付によ
り鋼板が高強度化する焼付硬化型の冷延鋼板の製造方法
である。For example, JP-A-57-98630, JP-A-58-107414 and JP-A-61-27692.
Japanese Patent Application Laid-Open No. 61-26757, Japanese Patent Application Laid-Open No. 63-276927, and Japanese Patent Application Laid-Open No. 2-118484 disclose a method of producing by continuous annealing using a carbon Al killed steel as a raw material.
No. 1 discloses a method of producing by ultra-low carbon Ti added steel by continuous annealing. These not only increase the strength of the steel sheet, but also have excellent formability, while being soft at the time of forming, the baking-hardened cold-rolled steel sheet whose steel sheet is strengthened by paint baking after press forming It is a manufacturing method.
【0004】ところで、これらは深絞り性と強度を同時
に付与する技術であって、自動車用鋼板の薄肉化により
軽量化を達成しようとするものである。しかし、強度面
からは鋼板の板厚を薄くすることも可能であるが、鋼板
の板厚を薄くすると、腐食による耐孔あき寿命が短くな
るという問題が生じてくる。このため、耐食性の良好な
鋼板であることが求められている。[0004] These are techniques for simultaneously imparting deep drawability and strength, and are intended to achieve weight reduction by reducing the thickness of a steel sheet for automobiles. However, from the viewpoint of strength, it is possible to reduce the thickness of the steel sheet. However, when the thickness of the steel sheet is reduced, there arises a problem that the corrosion-resistant life of a hole becomes short. For this reason, it is required that the steel sheet has good corrosion resistance.
【0005】耐食性を改善するためには、各種表面処理
を施した表面処理鋼板の採用が有効であり、現在、合金
化溶融亜鉛めっき鋼板を初めとして各種表面処理鋼板の
需要が急速に増大しつつある。溶融亜鉛めっき鋼板につ
いては、従来より低炭素Alキルド鋼、極低炭素鋼Ti
添加鋼をベースとした溶融亜鉛めっき鋼板、およびこれ
らにSi、Mn、P、Crを添加して強度を上げた高張
力溶融亜鉛めっき鋼板について多くの提案がなされてい
る。In order to improve the corrosion resistance, it is effective to employ surface-treated steel sheets subjected to various surface treatments. At present, demand for various surface-treated steel sheets including alloyed hot-dip galvanized steel sheets is rapidly increasing. is there. For hot-dip galvanized steel sheets, low-carbon Al-killed steel and ultra-low-carbon steel Ti
Many proposals have been made for a hot-dip galvanized steel sheet based on an added steel and a high-tensile hot-dip galvanized steel sheet in which Si, Mn, P, and Cr are added thereto to increase the strength.
【0006】例えば、特公平1−54413号におい
て、低炭素Alキルド鋼にPを添加した溶融亜鉛めっき
鋼板が、また、特開昭57−43974には、極低炭素
Ti添加鋼にPと多量のMnを添加した溶融亜鉛めっき
鋼板が開示されている。For example, Japanese Patent Publication No. 1-54413 discloses a hot-dip galvanized steel sheet obtained by adding P to a low-carbon Al-killed steel. A hot-dip galvanized steel sheet to which Mn is added is disclosed.
【0007】しかし、これらのめっき鋼板でも耐食性は
十分とはいえず、使用される環境によっては、孔あき腐
食を生じることもあるため、めっき付着量を増大してさ
らに耐食性の向上を図っているが、めっき付着量を増大
させると、溶接性が著しく劣化するという問題を生じる
ので、実用上これまで以上にめっき厚を増大させること
は困難である。However, even with these plated steel sheets, corrosion resistance cannot be said to be sufficient, and depending on the environment in which they are used, perforated corrosion may occur. Therefore, the amount of plating adhesion is increased to further improve corrosion resistance. However, increasing the amount of plating causes a problem that the weldability is significantly deteriorated, so that it is practically difficult to increase the plating thickness more than ever.
【0008】本発明者らは、上記問題点を解決するため
に、鋼板自体の耐食性を改善し、塗装焼付硬化性、深絞
り性がともに優れた冷延鋼板の製造方法に関して種々の
検討を行い、極低炭素鋼、あるいは極低炭素+微量Ti
添加鋼をベースにP、Cuの複合添加、さらにはSi、
MnおよびNi、Mo、Cr等を添加することにより、
塗装焼付硬化性および耐食性に優れた深絞り用冷延鋼板
を得る方法を見出だし、特願平3−212713号に開
示した。In order to solve the above problems, the present inventors have conducted various studies on a method of manufacturing a cold rolled steel sheet which has improved corrosion resistance of the steel sheet itself, and has excellent paint bake hardenability and deep drawability. , Ultra low carbon steel, or ultra low carbon + trace Ti
Composite addition of P and Cu based on the added steel, and also Si,
By adding Mn and Ni, Mo, Cr, etc.,
A method for obtaining a cold-rolled steel sheet for deep drawing excellent in paint bake hardenability and corrosion resistance has been found and disclosed in Japanese Patent Application No. 3-212713.
【0009】しかし、この発明は、主に塗装焼付硬化性
と耐食性の改善に主眼をおいたものであり、深絞り性に
ついては十分な特性が得られていなかった。また、冷延
鋼板としては耐食性に優れているものの、海浜地域や、
冬期に道路凍結防止のため融雪塩が散布されるような厳
しい腐食環境において孔あき腐食が生じない程の耐食性
は得られていなかった。However, the present invention mainly focuses on improving the baking hardenability of paint and the corrosion resistance, and has not been able to obtain sufficient properties for deep drawability. In addition, although it has excellent corrosion resistance as a cold-rolled steel sheet,
Corrosion resistance to the extent that perforated corrosion does not occur in severe corrosive environments where snow-melting salt is sprayed to prevent road freezing in winter has not been obtained.
【0010】[0010]
【発明が解決しようとする課題】本発明は、上述の事情
に鑑み、鋼板自体の耐食性を改善した焼付硬化型冷延鋼
板をベースとして、優れた深絞り性と耐食性が得られる
溶融亜鉛めっき鋼板の製造方法を提供することを目的と
する。SUMMARY OF THE INVENTION In view of the above circumstances, the present invention provides a hot-dip galvanized steel sheet having excellent deep drawability and corrosion resistance based on a bake hardened cold-rolled steel sheet having improved corrosion resistance of the steel sheet itself. It is an object of the present invention to provide a method for producing the same.
【0011】[0011]
【問題を解決するための手段】本発明者らは、鋼板自体
の耐食性を改善した極低炭素P、Cu複合添加の焼付硬
化型の深絞り用溶融亜鉛めっき鋼板の製造方法に関し、
詳細な検討を行った結果、微量のNbを添加し、さらに
必要に応じて固溶CをTiCとして固定できない程度の
微量のTi添加を行うことにより、優れた深絞り性が得
られることがわかった。Means for Solving the Problems The present inventors relate to a method for producing a bake hardening type deep drawing hot-dip galvanized steel sheet with the addition of a very low carbon P and Cu composite in which the corrosion resistance of the steel sheet itself is improved.
As a result of a detailed study, it was found that excellent deep drawability can be obtained by adding a small amount of Nb and, if necessary, adding a small amount of Ti such that solid solution C cannot be fixed as TiC. Was.
【0012】本発明は、重量%でC:0.001〜0.
008、Si:1.5以下、Mn:0.05〜1.8、
P:0.03〜0.20、S:0.015以下、Cu:
0.05〜0.38、Mo:0.14〜3.0、so
l.Al:0.005〜0.100、N:0.005以
下、Nb:0.005〜0.03、0.003≦Ti≦
(48/32)×S+(48/14)×Nに従う範囲の
Tiを含有し、さらに必要に応じて1.0以下のNi、
7.0以下のCrの1種もしくは2種を含有し、残部は
Feおよび不可避的不純物よりなる鋼のスラブを:熱間
圧延を行い、酸洗後、冷間圧延を行い、その後、連続式
溶融亜鉛めっきラインで800〜950℃の焼鈍を行っ
て亜鉛めっきするか、あるいは、連続焼鈍ラインで80
0〜950℃の焼鈍を行い、連続式電気めっきラインで
Fe合金めっきを施した後、連続式溶融亜鉛めっきライ
ンで亜鉛めっきすることからなる塗装焼付硬化性および
耐食性に優れた深絞り用溶融亜鉛めっき鋼板の製造方法
を提供する。In the present invention, C: 0.001-0.
008, Si: 1.5 or less, Mn: 0.05 to 1.8,
P: 0.03 to 0.20, S: 0.015 or less, Cu:
0.05-0.38 , Mo: 0.14-3.0, so
l. Al: 0.005 to 0.100, N: 0.005 or less, Nb: 0.005 to 0.03, 0.003 ≦ Ti ≦
(48/32) × S + (48/14) × N containing Ti in a range according to N, and if necessary, Ni 2 of 1.0 or less ;
7 . A slab of steel containing one or two types of Cr of 0 or less, the balance being Fe and unavoidable impurities: hot-rolled, pickled, cold-rolled, and then continuously molten zinc Perform 800-950 ° C. annealing on the plating line to galvanize, or use a continuous annealing line
Hot-dip galvanized zinc for deep drawing with excellent baking hardenability and corrosion resistance consisting of annealing at 0 to 950 ° C, applying Fe alloy plating in a continuous electroplating line, and then galvanizing in a continuous galvanizing line. Provided is a method for manufacturing a plated steel sheet.
【0013】本発明はまた、重量%でB:0.0003
〜0.003含有することからなる前記の方法による、
塗装焼付硬化性および耐食性に優れた深絞り用溶融亜鉛
めっき鋼板の製造方法を提供する。The present invention also provides B: 0.0003 by weight%.
0.003 Income before Symbol of the method consists of containing,
Provided is a method for producing a hot-dip galvanized steel sheet for deep drawing having excellent paint bake hardenability and corrosion resistance.
【0014】まず、本発明に係わる、鋼板の製造方法の
各種成分の作用および上記の範囲に限定した理由につい
て説明する。Cは、塗装焼付硬化性を得るのに必須の元
素であり、十分な塗装焼付硬化性を得るためには0.0
01%以上必要である。他方、0.008%を超える
と、固溶Cが多くなり非常に高い塗装焼付硬化性が得ら
れるが、室温時効を生じ、延性の急激な劣化を招く。こ
のため、Cは0.001〜0.008%の範囲に限定し
た。First, the action of various components of the method for producing a steel sheet according to the present invention and the reason for limiting to the above range will be described. C is an essential element for obtaining paint bake hardenability, and is required to be 0.0 to obtain sufficient paint bake hardenability.
01% or more is required. On the other hand, when the content exceeds 0.008%, the amount of solid solution C increases and very high baking hardenability is obtained, but aging at room temperature occurs, leading to rapid deterioration of ductility. For this reason, C is limited to the range of 0.001 to 0.008%.
【0015】Siは、高強度化および耐孔あき腐食性の
改善に有効に作用する元素であるが、1.5%を超える
と、熱間圧延工程でスケール疵が発生し、製品の表面性
状を劣化させること、および硬質となり延性の劣化を招
くことから、添加量の上限を1.5%とした。[0015] Si is an element that effectively acts to increase strength and improve perforation corrosion resistance. However, if it exceeds 1.5%, scale flaws are generated in the hot rolling step, and the surface properties of the product are reduced. The upper limit of the amount of addition was set to 1.5%, because it deteriorated the hardness and resulted in deterioration of ductility.
【0016】Mnは、強度を向上させるのに有効な元素
であり、そのためには最低0.05%以上必要である。
一方、1.8%を超えると、延性および深絞り性が劣化
するため、0.05〜1.8%の範囲に限定した。Mn is an element effective for improving the strength, and for that purpose, at least 0.05% or more is required.
On the other hand, if it exceeds 1.8%, ductility and deep drawability deteriorate, so the range is limited to 0.05 to 1.8%.
【0017】Pは、本発明における特徴的な元素であ
り、Cuとの複合添加によって、耐孔あき腐食性を著し
く改善する。適正な添加量は、耐食性改善の観点から
0.03%以上必要である。しかし、0.20%を超え
て添加すると、延性および深絞り性が劣化する。そのた
め、添加量を0.03〜0.20%に限定した。P is a characteristic element in the present invention, and significantly improves the pitting corrosion resistance when added in combination with Cu. An appropriate addition amount is required to be 0.03% or more from the viewpoint of improving corrosion resistance. However, when added in excess of 0.20%, ductility and deep drawability deteriorate. Therefore, the addition amount is limited to 0.03 to 0.20%.
【0018】Sは、深絞り性に有害な元素であり、少な
いほど望ましいが、0.015%までは許容できるの
で、0.015%以下とした。S is an element harmful to the deep drawability, and is preferably as small as possible. However, S is allowable up to 0.015%.
【0019】Cuは、前述のようにPと複合して添加す
ることにより、耐食性の改善に有効な元素であるが、
0.05%未満ではその効果が認められない。また、
0.38%を超えて添加するとコストの上昇を招くた
め、0.05〜0.38%の範囲に限定した。Cu is an element effective for improving corrosion resistance by being added in combination with P as described above.
If less than 0.05%, the effect is not recognized. Also,
If the addition exceeds 0.38%, the cost is increased. Therefore , the content is limited to the range of 0.05 to 0.38 %.
【0020】Alは、脱酸剤として添加するものであ
り、その役割を果たすためには0.005%以上必要で
ある。しかし、0.10%を超えて添加すると、Al2
O3などの介在物が増加し、加工性および表面品質を劣
化させるので、0.005〜0.10%の範囲に限定し
た。Al is added as a deoxidizing agent, and at least 0.005% is required to fulfill its role. However, if added in excess of 0.10%, Al 2
Since inclusions such as O 3 increase and degrade workability and surface quality, the range is limited to the range of 0.005 to 0.10%.
【0021】Nは、耐食性、深絞り性に有害な元素であ
り少ないほど望ましいが、0.005%までは許容でき
るので0.005%以下とした。N is an element harmful to corrosion resistance and deep drawability, and is preferably as small as possible.
【0022】Nbは、深絞り性の改善に有効な元素であ
るが、0.005%未満ではその効果が認められない。
また、0.03%を超えて含有しても、その効果が飽和
するばかりでなく、いたずらに再結晶温度を上昇させ、
かえって、深絞り性および延性を劣化させるので、0.
005〜0.03%の範囲に限定した。Nb is an element effective for improving the deep drawability, but its effect is not recognized at less than 0.005%.
Further, if the content exceeds 0.03%, not only the effect is saturated, but also the recrystallization temperature is unnecessarily increased,
On the contrary, deep drawability and ductility are deteriorated.
It was limited to the range of 005 to 0.03%.
【0023】Tiは、深絞り性を確保するために有効な
元素であるが、0.003%未満ではその効果が認めら
れない。また、Tiは、N,S,Cと化合物を形成し、
TiN,TiS,TiCなどの析出物として析出する
が、ここで、TiをTiN,TiSとして全量析出する
として計算した量を超えて添加すると、十分な塗装焼付
硬化性が得られなくなる。したがって、添加量の下限値
を、0.003%、上限値を(48/32)×S+(4
8/14)×N%とした。[0023] Ti is an element effective for securing the deep drawability, but its effect is not recognized if it is less than 0.003%. Also, Ti forms a compound with N, S, and C,
Precipitates as precipitates such as TiN, TiS, and TiC. If Ti is added in an amount exceeding that calculated as the total precipitation of TiN and TiS, sufficient paint bake hardenability cannot be obtained. Therefore, the lower limit of the addition amount is 0.003%, and the upper limit is (48/32) × S + (4
8/14) × N%.
【0024】また、本発明においては、鋼板の強度上昇
と耐食性の改善のために1.0%以下のNi、3.0%
以下のMoおよび7.0%以下のCrの1種もしくは2
種以上を含有せしめることができる。Further, in the present invention, Ni of 1.0% or less, 3.0%
At least one of Mo and 7.0% or less of Cr
More than one species can be included.
【0025】Niは、Cuによる熱間脆性の防止と耐孔
あき腐食性の改善に有効に作用するが、1.0%を超え
るとその効果は飽和するとともに、製造コストの上昇を
招くため、添加量の上限を1.0%とした。Ni effectively acts to prevent hot brittleness due to Cu and to improve corrosive corrosion resistance. However, if the Ni content exceeds 1.0%, the effect is saturated and the production cost is increased. The upper limit of the amount added was 1.0%.
【0026】Moは、鋼板の強度上昇と耐孔あき腐食性
の改善に有効に作用するが、3.0%を超えて添加する
とその効果は飽和するとともに、硬質となり延性を劣化
させ、さらにコストの上昇を招くため、添加量の上限を
3.0%とした。Mo effectively acts to increase the strength of the steel sheet and to improve the pitting corrosion resistance. However, if added in excess of 3.0%, the effect is saturated and becomes hard, deteriorates ductility, and further reduces cost. , The upper limit of the addition amount is set to 3.0%.
【0027】Crは、鋼板の強度上昇と耐食性の改善に
有効に作用する元素であるが、7%を超えると非常にコ
スト高となるため、添加量の上限を7.0%とした。[0027] Cr is an element that effectively acts to increase the strength of the steel sheet and improve the corrosion resistance. However, if it exceeds 7%, the cost becomes very high. Therefore, the upper limit of the addition amount is set to 7.0%.
【0028】Bは、二次加工脆性の改善に有効であり、
そのためには、0.0003%以上の添加が必要であ
る。しかし、0.003%を超えて添加してもその効果
は飽和するので、添加量を0.0003〜0.003%
の範囲に限定した。B is effective in improving the brittleness of secondary working,
For that purpose, it is necessary to add 0.0003% or more. However, the effect is saturated even if it is added in excess of 0.003%, so that the added amount is 0.0003 to 0.003%.
Limited to the range.
【0029】本発明においては、かかる成分を含有する
鋼を熱間圧延工程、冷間圧延工程を経て薄鋼板とする
が、この場合、熱間圧延工程における仕上げ温度は、A
r3変態点以下では深絞り性が劣化する。巻取温度が5
00℃未満では深絞り性が劣化するとともに板形状が悪
くなる。750℃を超えると酸洗性が劣化するとともに
巻取後にコイルの変形が生じる。このため、熱間圧延の
仕上げ温度はAr3変態点以上が、巻取温度は500〜
750℃とすることがの望ましい。In the present invention, a steel sheet containing such a component is formed into a thin steel sheet through a hot rolling step and a cold rolling step. In this case, the finishing temperature in the hot rolling step is A
Below the r 3 transformation point, the deep drawability deteriorates. Winding temperature is 5
If the temperature is lower than 00 ° C., the deep drawability deteriorates and the plate shape deteriorates. If it exceeds 750 ° C., the pickling properties will deteriorate and the coil will be deformed after winding. For this reason, the finishing temperature of hot rolling is higher than the Ar 3 transformation point, and the winding temperature is 500 to
It is desirable that the temperature be 750 ° C.
【0030】冷間圧延工程では、深絞り性を確保するた
めには、50〜95%の冷延率が必要である。冷延率が
50%未満では深絞り性が劣り、95%を超えると冷間
圧延機の負荷が大きくなり、生産性が劣る。In the cold rolling step, a cold-rolling ratio of 50 to 95% is required in order to secure deep drawability. If the cold rolling ratio is less than 50%, the deep drawability is inferior, and if it exceeds 95%, the load on the cold rolling mill increases, and the productivity is inferior.
【0031】本発明においては、冷間圧延後、そのまま
連続式溶融亜鉛めっきラインを通板する方法が製造コス
ト上有利であるが、例えば、Siを0.5%を超えて添
加するような場合には、めっき密着性が劣化するため、
溶融亜鉛めっきラインを通板する前に、連続焼鈍ライン
で焼鈍を行い、さらに連続式電気めっきラインで、Fe
合金めっきを施すこともできる。In the present invention, a method of passing a continuous hot-dip galvanizing line as it is after cold rolling is advantageous in terms of manufacturing cost. For example, in the case where Si is added in excess of 0.5%, In some cases, plating adhesion deteriorates.
Before passing through the hot-dip galvanizing line, annealing is performed in a continuous annealing line.
Alloy plating can also be applied.
【0032】本発明では、Nb添加を必須としており、
再結晶温度が高くなるため、再結晶温度以上で加工性を
改善するためには高温で焼鈍する必要がある。また、N
bは熱間圧延工程にてNbCとして析出するので、塗装
焼付硬化性を付与するためには、高温の焼鈍により析出
したNbCを固溶させる必要があることから、800℃
以上の高温焼鈍が必要である。しかし、950℃を超え
る温度で焼鈍すると連続式溶融亜鉛めっきラインまたは
連続焼鈍ラインにおいて表面疵が発生しやすくなる。し
たがって、連続式溶融亜鉛めっきラインあるいは連続焼
鈍ラインにおける焼鈍温度は、800〜950℃の範囲
に限定した。In the present invention, Nb addition is essential,
Since the recrystallization temperature becomes high, it is necessary to perform annealing at a high temperature in order to improve workability at a temperature higher than the recrystallization temperature. Also, N
Since b is precipitated as NbC in the hot rolling step, it is necessary to dissolve the NbC precipitated by high-temperature annealing to form a solid solution in order to impart paint bake hardenability.
The above high temperature annealing is necessary. However, if annealing is performed at a temperature exceeding 950 ° C., surface flaws are likely to occur in a continuous galvanizing line or a continuous annealing line. Therefore, the annealing temperature in the continuous galvanizing line or the continuous annealing line was limited to the range of 800 to 950 ° C.
【0033】[0033]
【実施例1】表1に示す組成よりなる10鋼種を用いて
表2に示す条件下の熱間圧延で板厚3.2mmの熱延板
とし、酸洗後、冷間圧延を施し板厚:0.8mmの冷延
鋼板とした。その後、No.11〜14,16〜17お
よび20鋼は、連続式溶融亜鉛めっきラインで、焼鈍お
よび片面当たり45g/m2の溶融亜鉛めっきを施し、
インラインでめっき層の合金化処理を行い、伸び率:
0.8%のスキンパス圧延を行った。No.18,19
鋼は、冷延鋼板を連続焼鈍ラインで焼鈍後、連続式電気
めっきラインで片面当たり2g/m2のFe−B合金め
っきを施し、連続式溶融亜鉛めっきラインで700℃の
加熱還元処理の後、片面当たり45g/m2の溶融亜鉛
めっきを行い、さらにインラインでめっき層の合金化処
理を行い、伸び率:0.8%のスキンパス圧延を行っ
た。得られた溶融亜鉛めっき鋼板の引張特性と耐食性お
よび耐二次加工脆性を調査し、その結果を表2に併記し
た。Example 1 A hot-rolled sheet having a thickness of 3.2 mm was formed by hot rolling using 10 steel grades having the compositions shown in Table 1 under the conditions shown in Table 2, and after pickling, cold rolling was performed. : 0.8 mm cold rolled steel sheet. After that, No. 11-14, 16-17
And 20 steel were subjected to annealing and hot dip galvanizing of 45 g / m 2 per side in a continuous hot dip galvanizing line,
Alloying treatment of plating layer in-line, elongation:
A 0.8% skin pass rolling was performed. No. 18, 19
After annealing the cold-rolled steel sheet with a continuous annealing line, a continuous electroplating line is applied with 2 g / m 2 of Fe-B alloy plating on one side, and a continuous hot-dip galvanizing line is subjected to a heat reduction treatment at 700 ° C. And hot-dip galvanizing of 45 g / m 2 per side, and furthermore, in-line plating layer alloying
And skin pass rolling at an elongation of 0.8%. The tensile properties, corrosion resistance, and secondary work brittleness resistance of the obtained hot-dip galvanized steel sheet were investigated, and the results are shown in Table 2.
【0034】引張特性の調査には、JISZ2201の
5号試験片を用いた。耐食性試験は、70×150mm
の試験片を切り出し、端面および裏面をシールして複合
腐食試験を行い、最大侵食深さを測定した。複合腐食試
験は、図1に示すようにJISZ2371に準じた塩水
噴霧試験を2時間、60℃の乾燥試験を4時間、50℃
で湿度95%以上の湿潤試験を2時間の合計8時間を1
サイクルとする条件にて行った。また、耐二次加工脆性
は、鋼板をブランクした後、円筒ダイス絞り比が2.0
となるようにカップ成形し、種々の試験温度で5kgの
重りを1m高さから落下させ、試片を圧壊させ、脆性割
れの発生発生する臨界温度を調査した。焼付硬化性(B
H)は,JIS 5号引張試験片を用い2%の引張予歪
みを付与後、170℃×20分の人工時効を施し,予歪
み付与時の応力と人工時効後の降伏応力との差をBHと
して求めた。 A No. 5 test piece of JISZ2201 was used for examining the tensile properties. Corrosion resistance test is 70 × 150mm
Was cut out, the end face and the back face were sealed, and a composite corrosion test was performed to measure the maximum erosion depth. As shown in FIG. 1, the combined corrosion test was carried out in a salt spray test according to JISZ2371 for 2 hours, a drying test at 60 ° C. for 4 hours, and 50 ° C.
Humidity test of 95% or more for 2 hours, 8 hours in total
The test was performed under the condition of a cycle. In addition, the secondary work brittleness resistance, after blanking a steel plate, the cylindrical die drawing ratio is 2.0
Then, a 5 kg weight was dropped from a height of 1 m at various test temperatures to crush the test piece, and the critical temperature at which brittle cracking occurred was investigated. Bake hardenability (B
H): 2% tensile prestrain using JIS No. 5 tensile test piece
After artificial aging, apply artificial aging at 170 ° C for 20 minutes and pre-strain
BH is the difference between the stress at the time of application and the yield stress after artificial aging.
I asked.
【0035】[0035]
【表1】 [Table 1]
【0036】[0036]
【表2】 [Table 2]
【0037】表2の結果に見られるように、Cが高くP
とCuが本発明で規定する量より少なく、Tiの添加量
が高すぎるNo.11鋼は、伸び(El)が低く、かつ
十分な塗装焼付硬化性(BH)が得られない。また、耐
食性に劣っている。Cuが本発明で規定する量より少な
いNo.12鋼は、引張特性は本発明鋼と同等な良好な
値を示すものの、耐食性に劣っている。これに対し、本
発明で規定する範囲の化学組成を有するNo.18,1
9鋼は、引張強さ(TS)が高い割に、降伏点(YS)
が低く、伸び(El)や塗装焼付硬化性(BH)が良好
で、さらに耐食性に優れている。なお、Bを添加したN
o.20鋼は、耐二次加工性にも優れていることがわか
る。As can be seen from the results in Table 2, C is high and P
No. and Cu are smaller than the amounts specified in the present invention, and the amount of Ti added is too high. Steel No. 11 has a low elongation (El) and does not provide sufficient bake hardenability (BH). Also, it has poor corrosion resistance. No. Cu is smaller than the amount specified in the present invention. Steel No. 12 exhibits good tensile properties equivalent to those of the steel of the present invention, but is inferior in corrosion resistance. On the other hand, No. 1 having a chemical composition within the range specified in the present invention. 18,1
Nine Steel has a high yield strength (YS) despite its high tensile strength (TS).
, The elongation (El) and the bake hardenability (BH) are good, and the corrosion resistance is excellent. In addition , N to which B was added
o. It can be seen that Steel No. 20 also has excellent secondary workability.
【0038】〔参考実験例〕 表1のNo.13鋼を用いて表3に示す条件下の熱間圧
延で板厚3.2mmの熱延板とし、酸洗後、冷間圧延を
施し板厚:0.8mmの冷延鋼板とし、連続式溶融亜鉛
めっきラインで種々の温度で焼鈍を行い、片面当たり4
5g/m2の溶融亜鉛めっきを施し、インラインでめっ
き層の合金化処理を行った。その後、伸び率:0.8%
のスキンパス圧延を行った。得られた鋼板の引張特性と
耐食性を調査し、その結果を表3に併記した。 [Reference Experimental Example] Hot rolled steel sheet having a thickness of 3.2 mm by hot rolling under the conditions shown in Table 3 using 13 steel, cold-rolled by pickling and then cold-rolled steel sheet having a thickness of 0.8 mm, continuous Annealing at various temperatures in a hot dip galvanizing line, 4 per side
Hot-dip galvanizing of 5 g / m 2 was performed, and alloying of the plating layer was performed in-line. After that, elongation: 0.8%
Was subjected to skin pass rolling. The tensile properties and corrosion resistance of the obtained steel sheet were investigated, and the results are shown in Table 3.
【0039】[0039]
【表3】 [Table 3]
【0040】焼鈍温度が750℃では、伸び(El)や
平均r値はある程度良好な値が得られているが、NbC
の固溶が十分でなく、塗装焼付硬化性(BH)が得られ
ない。これに対して、焼鈍温度が800℃以上になる
と、伸び(El)や平均r値が良好で、しかも塗装焼付
硬化性(BH)にも優れている。[0040] In the annealing temperature is 750 ° C., the elongation (El) and the average r value is somewhat better values are obtained, NbC
Is not sufficiently dissolved, and baking hardenability (BH) cannot be obtained. On the other hand, the annealing temperature becomes 800 ° C. or more .
And the elongation (El) and the average r value are good, and the coating bake hardenability (BH) is also excellent.
【0041】[0041]
【発明の効果】以上のように、本発明は深絞り性、延性
といった加工性を維持しながら、塗装焼付硬化性、耐食
性に優れた溶融亜鉛めっき鋼板の製造方法を明らかにし
たものである。本発明は、自動車の軽量化、長寿命化に
大きく寄与するものであり、その産業上の意義、利益は
極めて大きい。As described above, the present invention clarifies a method for producing a hot-dip galvanized steel sheet having excellent baking hardenability and corrosion resistance while maintaining workability such as deep drawability and ductility. INDUSTRIAL APPLICABILITY The present invention greatly contributes to weight reduction and long life of automobiles, and its industrial significance and profit are extremely large.
【図1】腐食試験の条件を示した試験サイクル図であ
る。FIG. 1 is a test cycle diagram showing conditions of a corrosion test.
───────────────────────────────────────────────────── フロントページの続き (51)Int.Cl.7 識別記号 FI C22C 38/00 301 C22C 38/00 301S 301T 38/48 38/48 C25D 3/20 C25D 3/20 5/26 5/26 M (72)発明者 宗下 美紀夫 広島県呉市昭和町11番1号 日新製鋼株 式会社 鉄鋼研究所 プロセス・鋼材研 究部内 (72)発明者 山田 利郎 広島県呉市昭和町11番1号 日新製鋼株 式会社 鉄鋼研究所 プロセス・鋼材研 究部内 (56)参考文献 特開 平2−173213(JP,A) 特開 平3−281732(JP,A) 特開 平5−65595(JP,A) (58)調査した分野(Int.Cl.7,DB名) C21D 9/48 C21D 8/04 C22C 38/00 C22C 38/48 C25D 3/20 C25D 5/26 ──────────────────────────────────────────────────の Continued on the front page (51) Int.Cl. 7 Identification code FI C22C 38/00 301 C22C 38/00 301S 301T 38/48 38/48 C25D 3/20 C25D 3/20 5/26 5/26 M (72) Inventor Mikio Soshita 11-1, Showa-cho, Kure-shi, Hiroshima Prefecture Nisshin Steel Co., Ltd.Steel Research Laboratories Process and Steel Research Department (72) Inventor Toshiro Yamada 11-1 Showa-cho, Kure-shi, Hiroshima Prefecture No. Nisshin Steel Co., Ltd. Steel Research Laboratory Process and Steel Research Laboratory (56) References JP-A-2-173213 (JP, A) JP-A-3-281732 (JP, A) JP-A 5-655595 ( JP, A) (58) Fields investigated (Int. Cl. 7 , DB name) C21D 9/48 C21D 8/04 C22C 38/00 C22C 38/48 C25D 3/20 C25D 5/26
Claims (2)
Si:1.5以下、Mn:0.05〜1.8、P:0.
03〜0.20、S:0.015以下、Cu:0.05
〜0.38、Mo:0.14〜3.0、sol.Al:
0.005〜0.100、N:0.005以下、Nb:
0.005〜0.03、0.003≦Ti≦(48/3
2)×S+(48/14)×Nに従う範囲のTiを含有
し、さらに必要に応じて1.0以下のNi、7.0以下
のCrの1種もしくは2種を含有し、残部はFeおよび
不可避的不純物よりなる鋼のスラブを:熱間圧延を行
い、酸洗後、冷間圧延を行い、その後、連続式溶融亜鉛
めっきラインで800〜950℃の焼鈍を行って亜鉛め
っきするか、あるいは、連続焼鈍ラインで800〜95
0℃の焼鈍を行い、連続式電気めっきラインでFe合金
めっきを施した後、連続式溶融亜鉛めっきラインで亜鉛
めっきすることからなる塗装焼付硬化性および耐食性に
優れた深絞り用溶融亜鉛めっき鋼板の製造方法。C: 0.001 to 0.008 by weight%;
Si: 1.5 or less, Mn: 0.05 to 1.8, P: 0.
03 to 0.20, S: 0.015 or less, Cu: 0.05
-0.38, Mo: 0.14-3.0, sol. Al:
0.005 to 0.100, N: 0.005 or less, Nb:
0.005 to 0.03, 0.003 ≦ Ti ≦ (48/3
2) × S + (48/14) containing Ti in the range according to the × N, depending on further required than 1.0 Ni, 7. A slab of steel containing one or two types of Cr of 0 or less, the balance being Fe and unavoidable impurities: hot-rolled, pickled, cold-rolled, and then continuously molten zinc Galvanize by annealing at 800 to 950 ° C. in a plating line, or 800 to 95 in a continuous annealing line.
Hot-dip galvanized steel sheet for deep drawing with excellent baking hardenability and corrosion resistance consisting of annealing at 0 ° C, applying Fe alloy plating in a continuous electroplating line, and then galvanizing in a continuous galvanizing line Manufacturing method.
含有することからなる請求項1に記載した塗装焼付硬化
性および耐食性に優れた深絞り用溶融亜鉛めっき鋼板の
製造方法。2. B: 0.0003 to 0.003 by weight%
The method for producing a hot-dip galvanized steel sheet for deep drawing according to claim 1, which is excellent in paint bake hardenability and corrosion resistance.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP17203892A JP3294322B2 (en) | 1992-06-05 | 1992-06-05 | Method for producing hot-dip galvanized steel sheet for deep drawing with excellent paint bake hardenability and corrosion resistance |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP17203892A JP3294322B2 (en) | 1992-06-05 | 1992-06-05 | Method for producing hot-dip galvanized steel sheet for deep drawing with excellent paint bake hardenability and corrosion resistance |
Publications (2)
Publication Number | Publication Date |
---|---|
JPH06240367A JPH06240367A (en) | 1994-08-30 |
JP3294322B2 true JP3294322B2 (en) | 2002-06-24 |
Family
ID=15934379
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JP17203892A Expired - Fee Related JP3294322B2 (en) | 1992-06-05 | 1992-06-05 | Method for producing hot-dip galvanized steel sheet for deep drawing with excellent paint bake hardenability and corrosion resistance |
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JP3958921B2 (en) | 2000-08-04 | 2007-08-15 | 新日本製鐵株式会社 | Cold-rolled steel sheet excellent in paint bake-hardening performance and room temperature aging resistance and method for producing the same |
JP4543566B2 (en) * | 2001-03-08 | 2010-09-15 | Jfeスチール株式会社 | Manufacturing method of hot-dip galvanized steel sheet with excellent press formability |
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- 1992-06-05 JP JP17203892A patent/JP3294322B2/en not_active Expired - Fee Related
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