TWI551696B - Cold rolled steel sheet and method for producing the same - Google Patents

Cold rolled steel sheet and method for producing the same Download PDF

Info

Publication number
TWI551696B
TWI551696B TW105108202A TW105108202A TWI551696B TW I551696 B TWI551696 B TW I551696B TW 105108202 A TW105108202 A TW 105108202A TW 105108202 A TW105108202 A TW 105108202A TW I551696 B TWI551696 B TW I551696B
Authority
TW
Taiwan
Prior art keywords
less
cold
steel sheet
mass
rolled steel
Prior art date
Application number
TW105108202A
Other languages
Chinese (zh)
Other versions
TW201621061A (en
Inventor
齋藤勇人
小林崇
船川義正
Original Assignee
杰富意鋼鐵股份有限公司
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 杰富意鋼鐵股份有限公司 filed Critical 杰富意鋼鐵股份有限公司
Publication of TW201621061A publication Critical patent/TW201621061A/en
Application granted granted Critical
Publication of TWI551696B publication Critical patent/TWI551696B/en

Links

Classifications

    • CCHEMISTRY; METALLURGY
    • C21METALLURGY OF IRON
    • C21DMODIFYING THE PHYSICAL STRUCTURE OF FERROUS METALS; GENERAL DEVICES FOR HEAT TREATMENT OF FERROUS OR NON-FERROUS METALS OR ALLOYS; MAKING METAL MALLEABLE, e.g. BY DECARBURISATION OR TEMPERING
    • C21D9/00Heat treatment, e.g. annealing, hardening, quenching or tempering, adapted for particular articles; Furnaces therefor
    • C21D9/46Heat treatment, e.g. annealing, hardening, quenching or tempering, adapted for particular articles; Furnaces therefor for sheet metals
    • CCHEMISTRY; METALLURGY
    • C21METALLURGY OF IRON
    • C21DMODIFYING THE PHYSICAL STRUCTURE OF FERROUS METALS; GENERAL DEVICES FOR HEAT TREATMENT OF FERROUS OR NON-FERROUS METALS OR ALLOYS; MAKING METAL MALLEABLE, e.g. BY DECARBURISATION OR TEMPERING
    • C21D8/00Modifying the physical properties by deformation combined with, or followed by, heat treatment
    • C21D8/02Modifying the physical properties by deformation combined with, or followed by, heat treatment during manufacturing of plates or strips
    • C21D8/0221Modifying the physical properties by deformation combined with, or followed by, heat treatment during manufacturing of plates or strips characterised by the working steps
    • C21D8/0226Hot rolling
    • CCHEMISTRY; METALLURGY
    • C21METALLURGY OF IRON
    • C21DMODIFYING THE PHYSICAL STRUCTURE OF FERROUS METALS; GENERAL DEVICES FOR HEAT TREATMENT OF FERROUS OR NON-FERROUS METALS OR ALLOYS; MAKING METAL MALLEABLE, e.g. BY DECARBURISATION OR TEMPERING
    • C21D8/00Modifying the physical properties by deformation combined with, or followed by, heat treatment
    • C21D8/02Modifying the physical properties by deformation combined with, or followed by, heat treatment during manufacturing of plates or strips
    • C21D8/0221Modifying the physical properties by deformation combined with, or followed by, heat treatment during manufacturing of plates or strips characterised by the working steps
    • C21D8/0242Flattening; Dressing; Flexing
    • CCHEMISTRY; METALLURGY
    • C21METALLURGY OF IRON
    • C21DMODIFYING THE PHYSICAL STRUCTURE OF FERROUS METALS; GENERAL DEVICES FOR HEAT TREATMENT OF FERROUS OR NON-FERROUS METALS OR ALLOYS; MAKING METAL MALLEABLE, e.g. BY DECARBURISATION OR TEMPERING
    • C21D8/00Modifying the physical properties by deformation combined with, or followed by, heat treatment
    • C21D8/02Modifying the physical properties by deformation combined with, or followed by, heat treatment during manufacturing of plates or strips
    • C21D8/04Modifying the physical properties by deformation combined with, or followed by, heat treatment during manufacturing of plates or strips to produce plates or strips for deep-drawing
    • C21D8/0421Modifying the physical properties by deformation combined with, or followed by, heat treatment during manufacturing of plates or strips to produce plates or strips for deep-drawing characterised by the working steps
    • C21D8/0436Cold rolling
    • CCHEMISTRY; METALLURGY
    • C22METALLURGY; FERROUS OR NON-FERROUS ALLOYS; TREATMENT OF ALLOYS OR NON-FERROUS METALS
    • C22CALLOYS
    • C22C38/00Ferrous alloys, e.g. steel alloys
    • CCHEMISTRY; METALLURGY
    • C22METALLURGY; FERROUS OR NON-FERROUS ALLOYS; TREATMENT OF ALLOYS OR NON-FERROUS METALS
    • C22CALLOYS
    • C22C38/00Ferrous alloys, e.g. steel alloys
    • C22C38/001Ferrous alloys, e.g. steel alloys containing N
    • CCHEMISTRY; METALLURGY
    • C22METALLURGY; FERROUS OR NON-FERROUS ALLOYS; TREATMENT OF ALLOYS OR NON-FERROUS METALS
    • C22CALLOYS
    • C22C38/00Ferrous alloys, e.g. steel alloys
    • C22C38/002Ferrous alloys, e.g. steel alloys containing In, Mg, or other elements not provided for in one single group C22C38/001 - C22C38/60
    • CCHEMISTRY; METALLURGY
    • C22METALLURGY; FERROUS OR NON-FERROUS ALLOYS; TREATMENT OF ALLOYS OR NON-FERROUS METALS
    • C22CALLOYS
    • C22C38/00Ferrous alloys, e.g. steel alloys
    • C22C38/004Very low carbon steels, i.e. having a carbon content of less than 0,01%
    • CCHEMISTRY; METALLURGY
    • C22METALLURGY; FERROUS OR NON-FERROUS ALLOYS; TREATMENT OF ALLOYS OR NON-FERROUS METALS
    • C22CALLOYS
    • C22C38/00Ferrous alloys, e.g. steel alloys
    • C22C38/005Ferrous alloys, e.g. steel alloys containing rare earths, i.e. Sc, Y, Lanthanides
    • CCHEMISTRY; METALLURGY
    • C22METALLURGY; FERROUS OR NON-FERROUS ALLOYS; TREATMENT OF ALLOYS OR NON-FERROUS METALS
    • C22CALLOYS
    • C22C38/00Ferrous alloys, e.g. steel alloys
    • C22C38/008Ferrous alloys, e.g. steel alloys containing tin
    • CCHEMISTRY; METALLURGY
    • C22METALLURGY; FERROUS OR NON-FERROUS ALLOYS; TREATMENT OF ALLOYS OR NON-FERROUS METALS
    • C22CALLOYS
    • C22C38/00Ferrous alloys, e.g. steel alloys
    • C22C38/02Ferrous alloys, e.g. steel alloys containing silicon
    • CCHEMISTRY; METALLURGY
    • C22METALLURGY; FERROUS OR NON-FERROUS ALLOYS; TREATMENT OF ALLOYS OR NON-FERROUS METALS
    • C22CALLOYS
    • C22C38/00Ferrous alloys, e.g. steel alloys
    • C22C38/04Ferrous alloys, e.g. steel alloys containing manganese
    • CCHEMISTRY; METALLURGY
    • C22METALLURGY; FERROUS OR NON-FERROUS ALLOYS; TREATMENT OF ALLOYS OR NON-FERROUS METALS
    • C22CALLOYS
    • C22C38/00Ferrous alloys, e.g. steel alloys
    • C22C38/06Ferrous alloys, e.g. steel alloys containing aluminium
    • CCHEMISTRY; METALLURGY
    • C22METALLURGY; FERROUS OR NON-FERROUS ALLOYS; TREATMENT OF ALLOYS OR NON-FERROUS METALS
    • C22CALLOYS
    • C22C38/00Ferrous alloys, e.g. steel alloys
    • C22C38/08Ferrous alloys, e.g. steel alloys containing nickel
    • CCHEMISTRY; METALLURGY
    • C22METALLURGY; FERROUS OR NON-FERROUS ALLOYS; TREATMENT OF ALLOYS OR NON-FERROUS METALS
    • C22CALLOYS
    • C22C38/00Ferrous alloys, e.g. steel alloys
    • C22C38/12Ferrous alloys, e.g. steel alloys containing tungsten, tantalum, molybdenum, vanadium, or niobium
    • CCHEMISTRY; METALLURGY
    • C22METALLURGY; FERROUS OR NON-FERROUS ALLOYS; TREATMENT OF ALLOYS OR NON-FERROUS METALS
    • C22CALLOYS
    • C22C38/00Ferrous alloys, e.g. steel alloys
    • C22C38/14Ferrous alloys, e.g. steel alloys containing titanium or zirconium
    • CCHEMISTRY; METALLURGY
    • C22METALLURGY; FERROUS OR NON-FERROUS ALLOYS; TREATMENT OF ALLOYS OR NON-FERROUS METALS
    • C22CALLOYS
    • C22C38/00Ferrous alloys, e.g. steel alloys
    • C22C38/16Ferrous alloys, e.g. steel alloys containing copper
    • CCHEMISTRY; METALLURGY
    • C22METALLURGY; FERROUS OR NON-FERROUS ALLOYS; TREATMENT OF ALLOYS OR NON-FERROUS METALS
    • C22CALLOYS
    • C22C38/00Ferrous alloys, e.g. steel alloys
    • C22C38/18Ferrous alloys, e.g. steel alloys containing chromium
    • CCHEMISTRY; METALLURGY
    • C22METALLURGY; FERROUS OR NON-FERROUS ALLOYS; TREATMENT OF ALLOYS OR NON-FERROUS METALS
    • C22CALLOYS
    • C22C38/00Ferrous alloys, e.g. steel alloys
    • C22C38/60Ferrous alloys, e.g. steel alloys containing lead, selenium, tellurium, or antimony, or more than 0.04% by weight of sulfur
    • CCHEMISTRY; METALLURGY
    • C21METALLURGY OF IRON
    • C21DMODIFYING THE PHYSICAL STRUCTURE OF FERROUS METALS; GENERAL DEVICES FOR HEAT TREATMENT OF FERROUS OR NON-FERROUS METALS OR ALLOYS; MAKING METAL MALLEABLE, e.g. BY DECARBURISATION OR TEMPERING
    • C21D2211/00Microstructure comprising significant phases
    • C21D2211/002Bainite
    • CCHEMISTRY; METALLURGY
    • C21METALLURGY OF IRON
    • C21DMODIFYING THE PHYSICAL STRUCTURE OF FERROUS METALS; GENERAL DEVICES FOR HEAT TREATMENT OF FERROUS OR NON-FERROUS METALS OR ALLOYS; MAKING METAL MALLEABLE, e.g. BY DECARBURISATION OR TEMPERING
    • C21D2211/00Microstructure comprising significant phases
    • C21D2211/003Cementite
    • CCHEMISTRY; METALLURGY
    • C21METALLURGY OF IRON
    • C21DMODIFYING THE PHYSICAL STRUCTURE OF FERROUS METALS; GENERAL DEVICES FOR HEAT TREATMENT OF FERROUS OR NON-FERROUS METALS OR ALLOYS; MAKING METAL MALLEABLE, e.g. BY DECARBURISATION OR TEMPERING
    • C21D2211/00Microstructure comprising significant phases
    • C21D2211/005Ferrite
    • CCHEMISTRY; METALLURGY
    • C21METALLURGY OF IRON
    • C21DMODIFYING THE PHYSICAL STRUCTURE OF FERROUS METALS; GENERAL DEVICES FOR HEAT TREATMENT OF FERROUS OR NON-FERROUS METALS OR ALLOYS; MAKING METAL MALLEABLE, e.g. BY DECARBURISATION OR TEMPERING
    • C21D2211/00Microstructure comprising significant phases
    • C21D2211/009Pearlite

Landscapes

  • Chemical & Material Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Materials Engineering (AREA)
  • Metallurgy (AREA)
  • Organic Chemistry (AREA)
  • Physics & Mathematics (AREA)
  • Thermal Sciences (AREA)
  • Crystallography & Structural Chemistry (AREA)
  • Heat Treatment Of Sheet Steel (AREA)

Description

冷軋鋼板及其製造方法Cold rolled steel sheet and method of manufacturing same

本發明是有關於一種冷軋鋼板及其製造方法,該冷軋鋼板適合於作為汽車用驅動系零件(automotive drive-train parts)的板(plate)或盤(disk)、環(ring)等的原材料、且衝壓性(punchability)及耐熱應變特性(heat strain resistance)優異。The present invention relates to a cold-rolled steel sheet suitable for use as a plate, a disk, a ring, or the like of an automotive drive-train parts. The raw material is excellent in punchability and heat strain resistance.

被用作汽車的驅動系零件的板、盤、環等(例如自動變速器(automatic transmission,AT)板等),先前在將鋼板衝壓為規定的形狀後,實施以硬化(hardening)為目的的淬火(quenching)等熱處理而調整為規定的硬度,然後,黏接摩擦材料(friction material)而製造。然而,在現有的製造方法中,熱處理中要消耗大量的熱能,並且需要專用的熱處理設備,因而無法避免製造成本增大。It is used as a plate, a disk, a ring, etc. (for example, an automatic transmission (AT) plate, etc.) of a drive system component of an automobile. Before the steel plate is punched into a predetermined shape, hardening is performed for the purpose of hardening. (Quenching) or the like is heat-treated and adjusted to a predetermined hardness, and then bonded by a friction material. However, in the existing manufacturing method, a large amount of heat energy is consumed in the heat treatment, and a dedicated heat treatment apparatus is required, so that an increase in manufacturing cost cannot be avoided.

在上述狀況下,近年來,正應用代替衝壓成形(blanking)後的熱處理,而利用冷軋調整為所需硬度的冷軋鋼板。在應用冷軋鋼板的情況下,不再需要淬火等熱處理,因此可大幅削減製造成本。然而,在應用冷軋鋼板的情況下,衝壓加工後的零件有時會產生大的翹曲。因此,存在衝壓後需要進行形狀矯正(shape straightening)的問題。進而,存在即便矯正亦無法獲得規定的形狀的問題。即便在衝壓後獲得了良好的平坦形狀(flatness),但當在與摩擦材料的黏接步驟(bonding process)中或實際使用環境(actual use environment)下暴露於高溫時,亦存在殘留應力(residual stress)釋放而變形的熱應變的問題。Under the above circumstances, in recent years, a cold-rolled steel sheet which is adjusted to a desired hardness by cold rolling has been used instead of the heat treatment after the blanking. In the case of applying a cold-rolled steel sheet, heat treatment such as quenching is not required, so that the manufacturing cost can be drastically reduced. However, in the case of applying a cold-rolled steel sheet, a large warpage sometimes occurs in the parts after press working. Therefore, there is a problem that shape straightening is required after punching. Further, there is a problem that a predetermined shape cannot be obtained even if it is corrected. Even if a good flatness is obtained after stamping, residual stress is also present when exposed to high temperatures in a bonding process with a friction material or an actual use environment (residual Stress) The problem of thermal strain that is released and deformed.

關於以板為首的驅動系零件用的冷軋鋼板,至今為止提出有各種技術。 例如,專利文獻1中提出有如下的製造薄鋼板的技術:將鋼以加工溫度(finishing temperature)(Ar3 變態點-20℃)以上進行熱軋後,以冷卻速度超過120℃/秒、冷卻停止溫度650℃以下、鋼板寬度方向的中心部與邊緣部的冷卻停止溫度之差為30℃以下的方式進行冷卻,以捲繞溫度600℃以下進行捲繞,酸洗後,以軋縮率40%以上進行冷軋,或者以退火溫度600℃以上、Ac1 變態點以下進行退火後以軋縮率40%以上進行冷軋,藉此鋼板的板面硬度(surface hardness of steel sheet)Hv為170~300,鋼板的長度方向及寬度方向的各位置的板面硬度差的最大值ΔHv為20以下,其中上述鋼以質量%計含有C:0.05%~0.6%、Si:2.0%以下、Mn:0.2%~2.0%、P:0.03%以下、S:0.03%以下、Sol.Al:0.1%以下、N:0.01%以下,其餘部分包含Fe及不可避免的雜質。根據專利文獻1中提出的技術,獲得如下的直接冷軋的薄鋼板,即,鋼板的長度方向及寬度方向的位置不同所引起的殘留應力的差異得到抑制,且衝壓後的平坦度(flatness)優異。Various techniques have been proposed so far for cold-rolled steel sheets for drive-type parts including a plate. For example, Patent Document 1 proposes a technique for producing a steel sheet by hot rolling a steel at a finishing temperature (Ar 3 transformation point - 20 ° C) or more, and cooling at a cooling rate of more than 120 ° C / sec. The temperature is 650° C. or less, and the difference between the cooling stop temperature of the center portion in the width direction of the steel sheet and the edge portion is 30° C. or less, and the winding is performed at a winding temperature of 600° C. or less. After pickling, the rolling reduction ratio is 40. % or more of cold rolling, or annealing at an annealing temperature of 600 ° C or higher and below the A c1 transformation point, and then cold rolling at a rolling reduction ratio of 40% or more, whereby the surface hardness of steel sheet Hv is 170. ~300, the maximum value ΔHv of the difference in sheet surface hardness at each position in the longitudinal direction and the width direction of the steel sheet is 20 or less, wherein the steel contains C: 0.05% to 0.6% by mass%, and Si: 2.0% or less, Mn: 0.2% to 2.0%, P: 0.03% or less, S: 0.03% or less, Sol. Al: 0.1% or less, and N: 0.01% or less, and the balance contains Fe and unavoidable impurities. According to the technique proposed in Patent Document 1, the following direct cold-rolled steel sheet is obtained, that is, the difference in residual stress caused by the difference in the longitudinal direction and the width direction of the steel sheet is suppressed, and the flatness after the stamping is suppressed. Excellent.

專利文獻2中提出了如下技術:將鋼原材料以精軋的精軋結束溫度設為Ar3 變態點以上進行熱軋,在精軋結束後的8 s以內冷卻至500℃~650℃為止,且以500℃~650℃實施捲繞處理,從而形成熱軋鋼板,然後對該熱軋鋼板實施軋縮率為30%~70%的冷軋,從而製造出冷軋鋼板,其中上述鋼原材料具有如下組成,即,以質量%計含有C:0.05%~小於0.10%、Si:0.5%以下、Mn:0.20%~2.0%、P:0.03%以下、S:0.020%以下、Cr:0.05%~0.5%,且其餘部分包含Fe及不可避免的雜質,上述熱軋鋼板具有包含共析前肥粒鐵(pro-eutectoid ferrite)、波來鐵(pearlite)、變韌鐵肥粒鐵(bainitic ferrite)或者變韌鐵(bainite)的基質(matrix),且具有分散著平均計為1.0×104 個/平方毫米以上的該基質中存在的雪明碳鐵(cementite)的組織,且上述熱軋鋼板的拉伸強度為440 MPa以上。而且,根據專利文獻2中提出的技術,獲得衝壓加工後的平坦度優異且端面性狀優異的冷軋鋼板。Patent Document 2 proposes a technique in which the steel material is hot-rolled at a finish rolling finishing temperature of the finish rolling at an Ar 3 transformation point or higher, and is cooled to 500° C. to 650° C. within 8 s after completion of the finish rolling, and The hot-rolled steel sheet is formed by performing a winding treatment at 500 ° C to 650 ° C, and then the cold-rolled steel sheet is subjected to cold rolling at a rolling reduction ratio of 30% to 70% to produce a cold-rolled steel sheet having the following steel raw materials as follows The composition contains C: 0.05% to less than 0.10%, Si: 0.5% or less, Mn: 0.20% to 2.0%, P: 0.03% or less, S: 0.020% or less, and Cr: 0.05% to 0.5% by mass%. %, and the rest contains Fe and unavoidable impurities. The hot-rolled steel sheet has a pro-eutectoid ferrite, a pearlite, a bainitic ferrite or a matrix of a bainite having a structure in which a cemetite present in the matrix of 1.0×10 4 /mm 2 or more is dispersed, and the above-mentioned hot-rolled steel sheet The tensile strength is 440 MPa or more. Moreover, according to the technique proposed in Patent Document 2, a cold-rolled steel sheet having excellent flatness after press working and excellent end surface properties is obtained.

專利文獻3中提出有如下技術:將鋼坯(slab)以熱軋加工溫度:Ar3 變態點以上、捲繞溫度:500℃~600℃進行熱軋,在對熱軋鋼板進行酸洗處理之後,不進行退火處理而以軋縮率50%以上進行冷軋,進而使用直徑為300 mm以上的輥實施軋縮率1%以下的輕壓下軋延(light draft rolling),藉此製造冷軋鋼板,其中上述鋼坯具有如下組成,即,含有C:0.15質量%~0.25質量%、Si:0.25質量%以下、Mn:0.3質量%~0.9質量%、P:0.03質量%以下、S:0.015質量%以下、Al:0.01質量%~0.08質量%、N:0.008質量%以下、Ti:0.01質量%~0.05質量%、B:0.002質量%~0.005質量%,且其餘部分實質為Fe。根據專利文獻3中提出的技術,獲得冷軋時生成的殘留應力得以降低的AT板用冷軋鋼板(cold rolled steel sheet for automatic transmission)。 先前技術文獻 專利文獻Patent Document 3 proposes a technique in which a slab is hot rolled at a hot rolling processing temperature: Ar 3 transformation point or higher, and a winding temperature: 500 ° C to 600 ° C, and after pickling the hot rolled steel sheet, Cold rolling is performed at a rolling reduction ratio of 50% or more without annealing, and further, a cold rolled steel sheet is produced by performing a light draft rolling of a rolling reduction of 1% or less using a roll having a diameter of 300 mm or more. The slab has a composition of C: 0.15 mass% to 0.25 mass%, Si: 0.25 mass% or less, Mn: 0.3 mass% to 0.9 mass%, P: 0.03 mass% or less, and S: 0.015 mass%. Hereinafter, Al: 0.01% by mass to 0.08% by mass, N: 0.008% by mass or less, Ti: 0.01% by mass to 0.05% by mass, B: 0.002% by mass to 0.005% by mass, and the remainder is substantially Fe. According to the technique proposed in Patent Document 3, a cold rolled steel sheet for automatic transmission is obtained in which residual stress generated during cold rolling is reduced. Prior art document patent document

專利文獻1:日本日本專利特開2006-307281號公報 專利文獻2:日本日本專利特開2008-138237號公報 專利文獻3:日本日本專利特開2005-200712號公報Patent Document 1: Japanese Patent Laid-Open Publication No. Hei. No. Hei. No. Hei. No. Hei. No. Hei. No. Hei. No. Hei. No. Hei.

然而,專利文獻1提出的技術中,因在熱軋結束後進行急速冷卻,並以低至600℃以下的溫度捲繞,故在熱軋鋼板的階段內部的殘留應力會增大,結果,冷軋後的薄鋼板亦成為蓄積著大的殘留應力的狀態。若將如此蓄積著大的殘留應力的直接冷軋的薄鋼板衝壓成形,則雖在保持衝壓成形的狀態下獲得了良好的平坦度,但因繼衝壓成形後的摩擦材料的黏接步驟中的加熱而殘留應力被釋放,從而存在平坦度劣化的熱應變的問題。However, in the technique proposed in Patent Document 1, since the rapid cooling is performed after the completion of the hot rolling and the temperature is wound at a temperature as low as 600 ° C or lower, the residual stress inside the hot-rolled steel sheet is increased, and as a result, it is cold. The rolled steel sheet also has a state in which a large residual stress is accumulated. When the directly cold-rolled steel sheet in which the large residual stress is accumulated is press-formed, good flatness is obtained while maintaining the press forming, but in the bonding step of the friction material after the press forming The residual stress is released by heating, so that there is a problem of thermal strain in which flatness is deteriorated.

專利文獻2提出的技術中,因對包含著大量的相較於肥粒鐵而為硬質的波來鐵或變韌鐵的熱軋鋼板實施冷軋,故冷軋時會在肥粒鐵與波來鐵或變韌鐵的相界面(phase boundary)附近產生不均勻的變形,從而鋼板內部的殘留應力增大。因此,若對如此獲得的冷軋鋼板進行衝壓成形,則雖在保持衝壓成形的狀態下獲得了良好的平坦形狀及衝壓端面性狀(appearances of punched surface),但與專利文獻1提出的技術同樣地,存在產生熱應變(heat strain)的問題。In the technique proposed in Patent Document 2, since a large number of hot-rolled steel sheets containing a lot of ferrite or toughened iron which are harder than ferrite iron are subjected to cold rolling, cold iron and waves are formed during cold rolling. Uneven deformation occurs near the phase boundary of the iron or toughened iron, and the residual stress inside the steel sheet increases. Therefore, when the cold-rolled steel sheet thus obtained is subjected to press forming, a good flat shape and appearances of punched surface are obtained while maintaining the press forming, but the same as the technique proposed in Patent Document 1. There is a problem of generating a heat strain.

專利文獻3提出的技術中,C含量高達0.15質量%~0.25質量%,熱軋步驟的捲繞溫度低至500℃~600℃,因而會在熱軋鋼板中大量地生成波來鐵或變韌鐵。因此,與專利文獻2提出的技術同樣地,在冷軋時鋼板內部的殘留應力增大,結果,即便在保持衝壓成形的狀態下獲得了平坦的形狀,亦存在因衝壓成形後的加熱而產生熱應變的問題。In the technique proposed in Patent Document 3, the C content is as high as 0.15 mass% to 0.25 mass%, and the winding temperature in the hot rolling step is as low as 500 ° C to 600 ° C, so that a large amount of ferrite or toughening is generated in the hot rolled steel sheet. iron. Therefore, similarly to the technique proposed in Patent Document 2, the residual stress in the steel sheet during cold rolling increases, and as a result, even if a flat shape is obtained while maintaining press forming, there is a case where heating occurs after press forming. The problem of thermal strain.

本發明的目的在於解決上述問題,提供一種兼備用作板或盤等驅動系零件而所需的硬度、衝壓後的平坦度及衝壓端面性狀以及耐熱應變特性的冷軋鋼板及其製造方法。此處,耐熱應變特性是指,在摩擦材料的黏接步驟或實際使用環境下加熱至100℃~400℃左右的溫度範圍時,薄鋼板的變形少且獲得充分的平坦度的特性。An object of the present invention is to solve the above problems and to provide a cold-rolled steel sheet having a hardness required for use as a drive component such as a plate or a disk, a flatness after press, a press end surface property, and a heat-resistant strain characteristic, and a method for producing the same. Here, the heat-resistant strain property is a property in which the deformation of the steel sheet is small and sufficient flatness is obtained when heated to a temperature range of about 100° C. to 400° C. in the bonding step of the friction material or the actual use environment.

為了解決上述課題,本發明者等人對影響冷軋鋼板的耐熱應變特性、衝壓後的平坦度及衝壓端面性狀的各種因素反覆進行了積極研究。In order to solve the above problems, the inventors of the present invention have actively studied various factors affecting the heat-resistant strain characteristics of the cold-rolled steel sheet, the flatness after press, and the properties of the press-faced end.

結果發現,為提高耐熱應變特性,有效的是降低冷軋後的殘留應力。並發現為了降低冷軋後的殘留應力,重要的是將冷軋中的軋縮率(rolling reduction)設為規定值以下;及將鋼原材料的C量降低至規定值以下並且規定熱軋步驟的捲繞溫度,藉此,將冷軋前的熱軋板設為肥粒鐵主相,降低該熱軋板的波來鐵相或變韌鐵相的體積分率,且控制冷軋後的鋼板的波來鐵或變韌鐵相的平均粒徑及平均縱橫比(average aspect ratio)。As a result, it was found that in order to improve the heat resistance strain characteristics, it is effective to reduce the residual stress after cold rolling. In addition, it is found that in order to reduce the residual stress after cold rolling, it is important to set the rolling reduction in cold rolling to a predetermined value or less; and to reduce the amount of C of the steel material to a predetermined value or less and to specify the hot rolling step. The winding temperature, whereby the hot-rolled sheet before cold rolling is used as the main phase of the ferrite-grained iron, the volume fraction of the ferrite phase or the toughened iron phase of the hot-rolled sheet is lowered, and the steel sheet after cold rolling is controlled Average particle size and average aspect ratio of the Borne or toughened iron phase.

在冷軋前的熱軋板包含作為主相的肥粒鐵、以及作為硬質相的波來鐵相或變韌鐵相(以下亦有時將波來鐵相、變韌鐵相中的任一種以上稱作「硬質相」)的情況下,在冷軋時肥粒鐵相-硬質相界面的附近會產生不均勻的變形,從而殘留應力容易蓄積。因此,藉由將冷軋前的熱軋板設為肥粒鐵主相,且降低該熱軋板中所含的硬質相的體積分率,而可在冷軋時降低伴隨肥粒鐵/波來鐵的界面附近、或者肥粒鐵/變韌鐵的界面附近的不均勻的變形的殘留應力,從而可提高冷軋鋼板的耐熱應變特性。若使用上述冷軋鋼板來製造板等驅動系零件,則衝壓成形為規定形狀後當然可解決由熱應變引起的平坦度的降低的問題,即便在與摩擦材料的黏接步驟中或實際使用環境下暴露於高溫下,亦可解決由熱應變引起的平坦度的降低的問題。The hot-rolled sheet before cold rolling contains ferrite iron as a main phase, and a ferromagnetic phase or a toughened iron phase as a hard phase (hereinafter, any of a ferrite phase and a tough iron phase may be used hereinafter) In the case of the above-mentioned "hard phase", uneven deformation occurs in the vicinity of the interface between the ferrite-iron phase and the hard phase during cold rolling, and residual stress is likely to be accumulated. Therefore, by setting the hot-rolled sheet before cold rolling as the ferrite-grain main phase and reducing the volume fraction of the hard phase contained in the hot-rolled sheet, it is possible to reduce the accompanying ferrite iron/wave during cold rolling. The residual stress of uneven deformation near the interface of the iron or the interface of the ferrite iron/toughened iron can improve the heat-resistant strain characteristics of the cold-rolled steel sheet. When the above-described cold-rolled steel sheet is used to manufacture a drive component such as a plate, it is of course possible to solve the problem of lowering the flatness due to thermal strain after being press-formed into a predetermined shape, even in the step of bonding with the friction material or the actual use environment. The lower exposure to high temperatures also solves the problem of flatness reduction caused by thermal strain.

本發明者等人發現:將冷軋前的熱軋板設為肥粒鐵主相,降低該熱軋板的硬質相的體積分率,且控制硬質相的平均粒徑及平均縱橫比,對於改善冷軋鋼板的衝壓後的平坦度及衝壓端面性狀而言極為有效。The present inventors have found that the hot-rolled sheet before cold rolling is used as the main phase of the ferrite-grained iron, the volume fraction of the hard phase of the hot-rolled sheet is lowered, and the average particle diameter and the average aspect ratio of the hard phase are controlled. It is extremely effective to improve the flatness and the end face properties of the cold-rolled steel sheet after the press.

藉由在冷軋前的熱軋板中極力避免生成硬質相,而在冷軋後的鋼板內獲得均勻的特性,因而衝壓後獲得良好的平坦度。而且,藉由在冷軋前的熱軋板中極力避免生成硬質相,而在衝壓成形時減少容易產生裂紋的異相界面(肥粒鐵相與硬質相的界面),因此衝壓端面性狀提高。By forming a hard phase as much as possible in the hot-rolled sheet before cold rolling, uniform characteristics are obtained in the steel sheet after cold rolling, and good flatness is obtained after punching. Further, by forming a hard phase as much as possible in the hot-rolled sheet before cold rolling, the hetero-phase interface (the interface between the ferrite-grained iron phase and the hard phase) which is likely to cause cracks is reduced during press forming, and thus the punching end face property is improved.

在冷軋中,硬質相向軋延方向伸展,但作為主相的肥粒鐵與硬質相的硬度差大,因而硬質相越向軋延方向伸展(亦即,硬質相的縱橫比越大),則肥粒鐵相與硬質相的界面中累積的應變越大,從而殘留應力蓄積,冷軋鋼板的耐熱應變特性降低。因此,為了提高該些特性,需要將包含波來鐵、變韌鐵相中的任一種以上的硬質相的平均縱橫比設為規定值以下。進而,藉由將硬質相的平均粒徑控制為規定值以下,即便從異相界面(boundary between different phases)產生裂紋(crack),亦可防止裂紋大幅傳播,從而獲得無缺陷的衝壓端面。In the cold rolling, the hard phase extends in the rolling direction, but the hardness difference between the ferrite iron and the hard phase as the main phase is large, and thus the hard phase is extended toward the rolling direction (that is, the aspect ratio of the hard phase is larger), The larger the strain accumulated in the interface between the ferrite grain iron phase and the hard phase, the residual stress is accumulated, and the heat-resistant strain characteristics of the cold-rolled steel sheet are lowered. Therefore, in order to improve these characteristics, it is necessary to set the average aspect ratio of the hard phase containing any one or more of the ferrite and the toughened iron phase to a predetermined value or less. Further, by controlling the average particle diameter of the hard phase to a predetermined value or less, even if cracks occur from the boundary between different phases, crack propagation can be prevented from being largely propagated, and a defective end face can be obtained.

為了如上述般將冷軋前的熱軋板設為肥粒鐵主相,且降低該熱軋板的硬質相的體積分率,除了將鋼原材料的C量降低至規定值以下之外,亦需要將熱軋步驟的捲繞溫度設為超過600℃且750℃以下的高溫。為了控制冷軋後的鋼板的硬質相的平均粒徑及平均縱橫比,除將熱軋板的軋延條件最佳化之外,亦需要限制冷軋的軋縮率。In order to reduce the volume fraction of the hard phase of the hot-rolled sheet by reducing the volume fraction of the hard phase of the hot-rolled sheet, the hot-rolled sheet before cold rolling is reduced to a predetermined value or less. It is necessary to set the winding temperature of the hot rolling step to a high temperature exceeding 600 ° C and 750 ° C or lower. In order to control the average particle diameter and the average aspect ratio of the hard phase of the steel sheet after cold rolling, in addition to optimizing the rolling conditions of the hot rolled sheet, it is also necessary to limit the rolling reduction ratio of the cold rolling.

本發明基於以上的發現而完成,本發明的主旨為以下所示。 [1]一種衝壓性及耐熱應變特性優異的冷軋鋼板,具有如下的組成,以質量%計含有C:0.01%以上且0.08%以下、Si:0.01%以上且1.0%以下、Mn:0.05%以上且1.0%以下、P:0.03%以下、S:0.015%以下、Al:0.005%以上且0.10%以下以及N:0.01%以下,其餘部分包含Fe及不可避免的雜質;且具有如下的組織:肥粒鐵相的面積率為80%以上,包含波來鐵相、變韌鐵相中的任一種以上的硬質相的面積率合計為20%以下,上述硬質相的平均粒徑為1 μm以上、10 μm以下,且上述硬質相的平均縱橫比為10.0以下;維氏硬度(Vickers hardness)為Hv170以上。The present invention has been completed based on the above findings, and the gist of the present invention is as follows. [1] A cold-rolled steel sheet having excellent pressability and heat-resistant strain characteristics, which has a composition of C: 0.01% or more and 0.08% or less, Si: 0.01% or more and 1.0% or less, and Mn: 0.05% by mass%. The above is 1.0% or less, P: 0.03% or less, S: 0.015% or less, Al: 0.005% or more and 0.10% or less, and N: 0.01% or less, and the balance contains Fe and unavoidable impurities; and has the following structure: The area ratio of the ferrite-grain iron phase is 80% or more, and the area ratio of the hard phase including at least one of the ferrite phase and the toughened iron phase is 20% or less in total, and the average particle diameter of the hard phase is 1 μm or more. 10 μm or less, and the average aspect ratio of the hard phase is 10.0 or less; and the Vickers hardness is Hv170 or more.

[2]如上述[1]的衝壓性及耐熱應變特性優異的冷軋鋼板,除上述組成外,進而以質量%計含有Cu:0.01%以上且0.20%以下、Ni:0.01%以上且0.50%以下中的任一種以上。[2] The cold-rolled steel sheet having excellent pressability and heat-resistant strain characteristics as in the above [1], in addition to the above composition, further contains, by mass%, Cu: 0.01% or more and 0.20% or less, and Ni: 0.01% or more and 0.50%. Any one of the following.

[3]如上述[1]或[2]的衝壓性及耐熱應變特性優異的冷軋鋼板,除上述組成外,進而以質量%計含有Ti:0.005%以上且0.10%以下、Nb:0.005%以上且0.10%以下、V:0.005%以上且0.50%以下、Zr:0.005%以上且0.10%以下、Mo:0.02%以上且0.50%以下、Cr:0.03%以上且0.50%以下、B:0.0003%以上且0.0050%以下中的任一種以上。[3] The cold-rolled steel sheet having excellent pressability and heat-resistant strain characteristics as in the above [1] or [2], in addition to the above composition, further contains, by mass%, Ti: 0.005% or more and 0.10% or less, and Nb: 0.005%. The above is 0.10% or less, V: 0.005% or more and 0.50% or less, Zr: 0.005% or more and 0.10% or less, Mo: 0.02% or more and 0.50% or less, Cr: 0.03% or more and 0.50% or less, and B: 0.0003%. Any of the above and 0.0050% or less.

[4]如上述[1]至[3]中任一項的衝壓性及耐熱應變特牲優異的冷軋鋼板,除上述組成外,進而以質量%計含有Ca:0.0003%以上且0.0050%以下、REM:0.0003%以上且0.0100%以下中的任一種以上。[4] The cold-rolled steel sheet excellent in the squeezing property and the heat-resistant strain characteristic of any one of the above [1] to [3], in addition to the above composition, further contains Ca: 0.0003% or more and 0.0050% or less by mass%. And REM: 0.0003% or more and 0.0100% or less.

[5]如上述[1]至[4]中任一項的衝壓性及耐熱應變特性優異的冷軋鋼板,除上述組成外,進而以質量%計含有Sb:0.001%以上且0.030%以下、Sn:0.001%以上且0.030%以下中的任一種以上。[5] The cold-rolled steel sheet having excellent pressability and heat-resistant strain characteristics according to any one of the above [1] to [4], in addition to the above composition, further contains, by mass%, Sb: 0.001% or more and 0.030% or less. Sn: Any one or more of 0.001% or more and 0.030% or less.

[6]一種衝壓性及耐熱應變特性優異的冷軋鋼板的製造方法,對鋼原材料實施將精軋結束溫度設為800℃以上、950℃以下的熱軋,在熱軋結束後,以超過600℃且750℃以下的捲繞溫度進行捲繞,並藉由酸洗(pickling)去除鏽皮(scale),然後以30%以上、70%以下的軋縮率實施冷軋,上述鋼原材料具有如下組成,以質量%計含有C:0.01%以上且0.08%以下、Si:0.01%以上且1.0%以下、Mn:0.05%以上且1.0%以下、P:0.03%以下、S:0.015%以下、Al:0.005%以上且0.10%以下、以及N:0.01%以下,且其餘部分包含Fe及不可避免的雜質。[6] A method for producing a cold-rolled steel sheet having excellent squeezing properties and heat-resistant strain characteristics, wherein the steel material is subjected to hot rolling at a finishing finish temperature of 800 ° C or higher and 950 ° C or lower, and after hot rolling is over 600 Winding is performed at a winding temperature of ° C and 750 ° C or less, and scale is removed by pickling, and then cold rolling is performed at a rolling reduction ratio of 30% or more and 70% or less. The following composition contains, by mass%, C: 0.01% or more and 0.08% or less, Si: 0.01% or more and 1.0% or less, Mn: 0.05% or more and 1.0% or less, P: 0.03% or less, and S: 0.015% or less. Al: 0.005% or more and 0.10% or less, and N: 0.01% or less, and the balance contains Fe and unavoidable impurities.

[7]如上述[6]的衝壓性及耐熱應變特性優異的冷軋鋼板的製造方法,在實施上述冷軋後,實施調質軋延(temper rolling)。[7] The method for producing a cold-rolled steel sheet having excellent pressability and heat-resistant strain characteristics as described in the above [6], after performing the above-described cold rolling, performing temper rolling.

[8]如上述[6]或[7]的衝壓性及耐熱應變特性優異的冷軋鋼板的製造方法,除上述組成外,進而以質量%計含有Cu:0.01%以上且0.20%以下、Ni:0.01%以上且0.50%以下中的任一種以上。[8] The method for producing a cold-rolled steel sheet having excellent pressability and heat-resistant strain characteristics as described in the above [6] or [7], in addition to the above composition, further contains Cu: 0.01% or more and 0.20% or less in terms of % by mass, Ni : 0.01% or more and 0.50% or less.

[9]如上述[6]至[8]中任一項的衝壓性及耐熱應變特性優異的冷軋鋼板的製造方法,除上述組成外,進而以質量%計含有Ti:0.005%以上且0.10%以下、Nb:0.005%以上且0.10%以下、V:0.005%以上且0.50%以下、Zr:0.005%以上且0.10%以下、Mo:0.02%以上且0.50%以下、Cr:0.03%以上且0.50%以下、B:0.0003%以上且0.0050%以下中的任一種以上。[9] The method for producing a cold-rolled steel sheet having excellent pressability and heat-resistant strain characteristics according to any one of the above [6] to [8], further comprising, in addition to the above composition, Ti: 0.005% or more and 0.10 by mass% % or less, Nb: 0.005% or more and 0.10% or less, V: 0.005% or more and 0.50% or less, Zr: 0.005% or more and 0.10% or less, Mo: 0.02% or more and 0.50% or less, and Cr: 0.03% or more and 0.50. % or less, B: 0.0003% or more and 0.0050% or less.

[10]如上述[6]至[9]中任一項的衝壓性及耐熱應變特性優異的冷軋鋼板的製造方法,除上述組成外,進而以質量%計含有Ca:0.0003%以上且0.0050%以下、REM:0.0003%以上且0.0100%以下中的任一種以上。[10] The method for producing a cold-rolled steel sheet having excellent pressability and heat-resistant strain characteristics according to any one of the above [6] to [9], further comprising, in addition to the above composition, Ca: 0.0003% or more and 0.0050% by mass % or less, REM: 0.0003% or more and 0.0100% or less.

[11]如上述[6]至[10]中任一項的衝壓性及耐熱應變特性優異的冷軋鋼板的製造方法,除上述組成外,進而以質量%計含有Sb:0.001%以上且0.030%以下、Sn:0.001%以上且0.030%以下中的任一種以上。 (發明的效果)[11] The method for producing a cold-rolled steel sheet having excellent pressability and heat-resistant strain characteristics according to any one of the above [6] to [10], further comprising, in addition to the above composition, Sb: 0.001% or more and 0.030% by mass % or less, and Sn: 0.001% or more and 0.030% or less. (Effect of the invention)

根據本發明,可容易地製造除衝壓後的平坦度及衝壓端面性狀良好以外耐熱應變特性亦優異的冷軋鋼板,從而實現產業上明顯的效果。本發明的冷軋鋼板極適合作為汽車用零件、尤其是板或盤等驅動系零件用原材料。According to the present invention, it is possible to easily produce a cold-rolled steel sheet having excellent heat resistance and strain characteristics in addition to the flatness after press and the good end surface properties of the press, thereby realizing an industrially remarkable effect. The cold-rolled steel sheet according to the present invention is extremely suitable as a material for automotive parts, particularly for driving parts such as plates or discs.

首先,對本發明冷軋鋼板的成分組成的限定理由進行說明。作為各成分元素含量的單位的%只要不作特別說明則是指質量%的含義。First, the reason for limiting the component composition of the cold-rolled steel sheet of the present invention will be described. The % of the unit of the content of each component element means the meaning of mass% unless otherwise specified.

C:0.01%以上、0.08%以下 C為鋼板的強化所需的元素,為了獲得作為板或盤等驅動系零件用原材料所需的硬度,而需要將C含量設為0.01%以上。另一方面,若C含量超過0.08%,則硬度變得過高,而且,波來鐵分率提高,衝壓後的平坦度劣化,並且衝壓端面性狀劣化。因此,將C含量的上限設為0.08%。尤其自衝壓端面性狀的觀點而言,較佳為將C含量設為小於0.05%。更佳為0.04%以下。C: 0.01% or more and 0.08% or less C is an element required for strengthening the steel sheet, and it is necessary to set the C content to 0.01% or more in order to obtain the hardness required as a raw material for a drive component such as a plate or a disk. On the other hand, when the C content is more than 0.08%, the hardness becomes too high, and the iron content of the wave is increased, the flatness after the pressing is deteriorated, and the end surface properties of the press are deteriorated. Therefore, the upper limit of the C content is set to 0.08%. In particular, from the viewpoint of punching the end face properties, the C content is preferably made less than 0.05%. More preferably, it is 0.04% or less.

Si:0.01%以上、1.0%以下 Si為鋼的去氧劑(deoxidizer),具有提高鋼的清潔度(cleanliness)的效果,因而將含量設為0.01%以上。Si亦為藉由固溶強化(solid solution hardening)而使鋼板的硬度提高的元素,為了獲得所需的硬度而可添加該元素。然而,若Si含量超過1.0%,則鋼板的表面性狀(surface quality)劣化,因而將Si含量的上限設為1.0%。尤其對產生摩擦的零件中所使用的板材要求良好的表面性狀,因而較佳設為0.6%以下。Si: 0.01% or more and 1.0% or less Si is a deoxidizer of steel, and has an effect of improving the cleanliness of steel. Therefore, the content is made 0.01% or more. Si is also an element which improves the hardness of a steel sheet by solid solution hardening, and can add this element in order to obtain a desired hardness. However, when the Si content exceeds 1.0%, the surface quality of the steel sheet deteriorates, so the upper limit of the Si content is made 1.0%. In particular, since the sheet used in the friction-generating part requires a good surface property, it is preferably set to 0.6% or less.

Mn:0.05%以上、1.0%以下 Mn為藉由固溶強化而使鋼板的硬度提高的元素,為了獲得所需的硬度需要將Mn含量設為0.05%以上。較佳為0.1%以上。若Mn含量超過1.0%,則會過剩地生成波來鐵或變韌鐵等,此外會因偏析(segregation)而導致層狀地生成波來鐵等,從而衝壓端面性狀劣化。因此,Mn含量設為1.0%以下。較佳為0.5%以下。Mn: 0.05% or more and 1.0% or less Mn is an element which improves the hardness of the steel sheet by solid solution strengthening, and it is necessary to set the Mn content to 0.05% or more in order to obtain a desired hardness. It is preferably 0.1% or more. When the Mn content is more than 1.0%, the pulverized iron or the toughened iron or the like is excessively formed, and the pulverized iron or the like is formed in a layered manner due to segregation, and the end surface properties of the press are deteriorated. Therefore, the Mn content is set to 1.0% or less. It is preferably 0.5% or less.

P:0.03%以下 P為在鋼中容易偏析的元素,若大量地含有則因P的偏析而促進層狀組織的形成,從而衝壓端面性狀劣化。因此,P含量需要設為0.03%以下。較佳為0.02%以下。P: 0.03% or less P is an element which is easily segregated in steel. When it is contained in a large amount, P is segregated to promote formation of a layered structure, and the end surface properties of the press are deteriorated. Therefore, the P content needs to be set to 0.03% or less. It is preferably 0.02% or less.

S:0.015%以下 S形成MnS等硫化物系中介物,而使衝壓端面性狀劣化。因此,S含量需要設為0.015%以下。較佳為0.010%以下。S: 0.015% or less S forms a sulfide-based intermediate such as MnS, and deteriorates the surface properties of the press. Therefore, the S content needs to be set to 0.015% or less. It is preferably 0.010% or less.

Al:0.005%以上、0.10%以下 Al作為去氧元素而添加,藉此可提高鋼板的清潔度,因此需要將其含量設為0.005%以上。較佳為0.03%以上。另一方面,若Al含量超過0.10%,則會過剩地生成氧化物而表面性狀劣化,與摩擦材料的黏接性劣化。因此,Al含量設為0.10%以下。較佳為0.08%以下。Al: 0.005% or more and 0.10% or less Al is added as a deoxidizing element, whereby the cleanliness of the steel sheet can be improved. Therefore, the content thereof is required to be 0.005% or more. It is preferably 0.03% or more. On the other hand, when the Al content exceeds 0.10%, an oxide is excessively formed and the surface properties are deteriorated, and the adhesion to the friction material is deteriorated. Therefore, the Al content is set to 0.10% or less. It is preferably 0.08% or less.

N:0.01%以下 N在本發明中為有害的元素,若其含量過剩則鋼板的延性降低,衝壓端面性狀劣化。因此,N含量設為0.01%以下。較佳為0.006%以下。N: 0.01% or less N is a harmful element in the present invention, and if the content is excessive, the ductility of the steel sheet is lowered, and the end surface properties of the press are deteriorated. Therefore, the N content is set to 0.01% or less. It is preferably 0.006% or less.

以上為本發明冷軋鋼板的基本成分,但本發明冷軋鋼板除含有該些基本成分之外,可視需要而含有以下的元素。The above is the basic component of the cold-rolled steel sheet of the present invention, but the cold-rolled steel sheet of the present invention contains the following elements as needed in addition to the basic components.

Cu:0.01%以上且0.20%以下、Ni:0.01%以上且0.50%以下中的任一種以上 Cu及Ni為藉由固溶強化而有助於提高鋼板的硬度的元素,為了對鋼板賦予所需的硬度而可含有該些元素。為了獲得上述效果,較佳為將Cu含量設為0.01%以上,Ni含量設為0.01%以上。更佳為Cu含量設為0.02%以上,Ni含量設為0.02%以上。另一方面,若該些元素的含量過剩,則表面性狀劣化,與摩擦材料的黏接性劣化。因此,較佳為Cu含量設為0.20%以下,Ni含量設為0.50%以下。更佳為Cu含量設為0.10%以下,Ni含量設為0.30%以下。Cu: 0.01% or more and 0.20% or less, and Ni: 0.01% or more and 0.50% or less. Cu and Ni are elements which contribute to the hardness of the steel sheet by solid solution strengthening, and are required for the steel sheet. The hardness may contain these elements. In order to obtain the above effects, the Cu content is preferably 0.01% or more, and the Ni content is made 0.01% or more. More preferably, the Cu content is 0.02% or more, and the Ni content is 0.02% or more. On the other hand, when the content of these elements is excessive, the surface properties are deteriorated, and the adhesion to the friction material is deteriorated. Therefore, the Cu content is preferably 0.20% or less, and the Ni content is made 0.50% or less. More preferably, the Cu content is set to 0.10% or less, and the Ni content is set to 0.30% or less.

Ti:0.005%以上且0.10%以下、Nb:0.005%以上且0.10%以下、V:0.005%以上且0.50%以下、Zr:0.005%以上且0.10%以下、Mo:0.02%以上且0.50%以下、Cr:0.03%以上且0.50%以下、B:0.0003%以上且0.0050%以下中的任一種以上 Ti、Nb、V、Zr、Mo、Cr、B為有助於提高鋼板的硬度的元素,為了對鋼板賦予所需的硬度較佳為含有該些元素。另一方面,若該些元素的含量過剩,則殘留應力增大,產生衝壓後的平坦度或熱應變。因此,較佳為Ti含量設為0.005%以上、0.10%以下,Nb含量設為0.005%以上、0.10%以下,V含量設為0.005%以上、0.50%以下,Zr含量設為0.005%以上、0.10%以下,Mo含量設為0.02%以上、0.50%以下,Cr含量設為0.03%以上、0.50%以下,B含量設為0.0003%以上、0.0050%以下。更佳為Ti含量設為0.008%以上、0.03%以下,Nb含量設為0.008%以上、0.05%以下,V含量設為0.01%以上、0.20%以下,Zr含量設為0.01%以上、0.03%以下,Mo含量設為0.05%以上、0.20%以下,Cr含量設為0.05%以上、0.20%以下,B含量設為0.0005%以上、0.0030%以下。Ti: 0.005% or more and 0.10% or less, Nb: 0.005% or more and 0.10% or less, V: 0.005% or more and 0.50% or less, Zr: 0.005% or more and 0.10% or less, and Mo: 0.02% or more and 0.50% or less. Cr: 0.03% or more and 0.50% or less, and B: 0.0003% or more and 0.0050% or less. Ti, Nb, V, Zr, Mo, Cr, and B are elements which contribute to the improvement of the hardness of the steel sheet. It is preferred that the steel sheet imparts the desired hardness to contain the elements. On the other hand, if the content of these elements is excessive, the residual stress increases, and flatness or thermal strain after punching occurs. Therefore, the Ti content is preferably 0.005% or more and 0.10% or less, the Nb content is 0.005% or more and 0.10% or less, the V content is 0.005% or more and 0.50% or less, and the Zr content is 0.005% or more and 0.10. % or less, the Mo content is 0.02% or more and 0.50% or less, the Cr content is 0.03% or more and 0.50% or less, and the B content is 0.0003% or more and 0.0050% or less. More preferably, the Ti content is 0.008% or more and 0.03% or less, the Nb content is 0.008% or more and 0.05% or less, the V content is 0.01% or more and 0.20% or less, and the Zr content is 0.01% or more and 0.03% or less. The Mo content is set to 0.05% or more and 0.20% or less, the Cr content is set to 0.05% or more and 0.20% or less, and the B content is set to 0.0005% or more and 0.0030% or less.

Ca:0.0003%以上且0.0050%以下、REM:0.0003%以上且0.0100%以下中的任一種以上 Ca、REM均為具有將硫化物的形態控制為球狀而提高鋼板的衝壓端面性狀的作用的元素,可視需要而含有。為了獲得上述效果,較佳為將Ca含量設為0.0003%以上,REM含量設為0.0003%以上。更佳為將Ca含量設為0.0008%以上,REM含量設為0.0008%以上。另一方面,若該些元素的含量過剩,則中介物增大,使鋼板的衝壓端面性狀劣化,因此較佳為將Ca含量設為0.0050%以下,REM含量設為0.0100%以下。而且,更佳為將Ca含量設為0.0030%以下,REM含量設為0.0050%以下。Ca: 0.0003% or more and 0.0050% or less, and any one or more of REM: 0.0003% or more and 0.0100% or less. Both Ca and REM are elements having a function of controlling the form of the sulfide to a spherical shape and improving the punching end surface property of the steel sheet. It can be included as needed. In order to obtain the above effects, the Ca content is preferably 0.0003% or more, and the REM content is 0.0003% or more. More preferably, the Ca content is 0.0008% or more, and the REM content is 0.0008% or more. On the other hand, when the content of these elements is excessive, the medium is increased and the surface end properties of the steel sheet are deteriorated. Therefore, the Ca content is preferably made 0.0050% or less, and the REM content is made 0.0100% or less. Further, it is more preferable to set the Ca content to 0.0030% or less and the REM content to 0.0050% or less.

Sb:0.001%以上且0.030%以下、Sn:0.001%以上且0.030%以下中的任一種以上 Sb及Sn為提高鋼板的表面性狀的元素,且具有提高與摩擦材料的黏接性的效果。為了獲得上述效果,較佳為將Sb含量設為0.001%以上,Sn含量設為0.001%以上。另一方面,若該些元素的含量過剩,則表面偏析(surface segregation)變得顯著,鋼板的表面性狀劣化而與摩擦材料的黏接性降低,因此較佳為將Sb含量設為0.030%以下,Sn含量設為0.030%以下。更佳為將Sb含量設為0.005%以上、0.020%以下,Sn含量設為0.005%以上、0.015%以下。Sb: 0.001% or more and 0.030% or less, and Sn: 0.001% or more and 0.030% or less. Sb and Sn are elements which improve the surface properties of the steel sheet, and have an effect of improving the adhesion to the friction material. In order to obtain the above effects, the Sb content is preferably 0.001% or more, and the Sn content is 0.001% or more. On the other hand, when the content of these elements is excessive, surface segregation becomes remarkable, and the surface properties of the steel sheet deteriorate and the adhesion to the friction material is lowered. Therefore, the Sb content is preferably made 0.030% or less. The Sn content is set to 0.030% or less. More preferably, the Sb content is made 0.005% or more and 0.020% or less, and the Sn content is made 0.005% or more and 0.015% or less.

上述成分以外的其餘部分為Fe及不可避免的雜質。作為不可避免的雜質,可例示O、Mg、Co、Zn、Ta、W、Pb、Bi等,該些元素的含量只要分別為約0.01%以下則可容許。The rest of the above components are Fe and unavoidable impurities. Examples of the unavoidable impurities include O, Mg, Co, Zn, Ta, W, Pb, and Bi, and the content of these elements is acceptable as long as they are each about 0.01% or less.

接下來,對本發明冷軋鋼板的組織進行說明。 本發明的冷軋鋼板具有如下組織,即,肥粒鐵相的面積率為80%以上,包含波來鐵相、變韌鐵相中的任一種以上的硬質相的面積率合計為20%以下,上述硬質相的平均粒徑為1 μm以上、10 μm以下,且上述硬質相的平均縱橫比為10.0以下。Next, the structure of the cold rolled steel sheet of the present invention will be described. The cold-rolled steel sheet according to the present invention has a structure in which the area ratio of the ferrite-grained iron phase is 80% or more, and the area ratio of the hard phase including at least one of the ferrite phase and the toughened iron phase is 20% or less. The average particle diameter of the hard phase is 1 μm or more and 10 μm or less, and the average aspect ratio of the hard phase is 10.0 or less.

本發明中,藉由使冷軋時的鋼板內的變形變得均勻,而降低冷軋鋼板的殘留應力。根據上述觀點來看,本發明的冷軋鋼板需要將主相設為軟質的肥粒鐵相,並抑制硬質的波來鐵相及變韌鐵相。在包含波來鐵相、變韌鐵相中的任一種以上的硬質相以合計面積率計超過20%而大量含有的情況下,冷軋後的殘留應力增大,衝壓後的鋼板形狀劣化,或衝壓時在肥粒鐵相與硬質相的界面產生裂紋而鋼板的衝壓端面性狀劣化。進而,因伴隨殘留應力的增大而耐熱應變特性劣化,故在將此種冷軋鋼板衝壓成形後,若暴露於高溫環境下則會產生熱應變。In the present invention, the residual stress in the cold-rolled steel sheet is lowered by making the deformation in the steel sheet during cold rolling uniform. From the above point of view, the cold-rolled steel sheet of the present invention needs to have the main phase as a soft ferrite-grained iron phase and suppress the hard corrugated iron phase and the toughened iron phase. When the hard phase including any one or more of the ferrite phase and the toughened iron phase is more than 20% in total area ratio, the residual stress after cold rolling increases, and the shape of the steel sheet after the press is deteriorated. At the time of pressing, a crack is generated at the interface between the ferrite grain iron phase and the hard phase, and the stamping end surface property of the steel sheet is deteriorated. Further, since the heat-resistant strain characteristics are deteriorated due to an increase in the residual stress, after the cold-rolled steel sheet is press-formed, thermal strain is generated when exposed to a high-temperature environment.

基於以上的理由,本發明中,需要將肥粒鐵相的面積率設為80%以上,將包含波來鐵相、變韌鐵相中的任一種以上的硬質相的面積率合計設為20%以下。肥粒鐵相的面積率較佳設為85%以上,更佳設為90%以上。另一方面,上述硬質相的面積率較佳設為合計為15%以下,更佳為10%以下。For the above reasons, in the present invention, the area ratio of the ferrite-grain iron phase needs to be 80% or more, and the area ratio of the hard phase including at least one of the ferrite phase and the toughened iron phase is set to 20 %the following. The area ratio of the ferrite iron phase is preferably set to 85% or more, more preferably 90% or more. On the other hand, the area ratio of the hard phase is preferably 15% or less in total, more preferably 10% or less.

然而,若上述硬質相的面積率變得極低,則無法獲得所需的鋼板硬度,因而上述硬質相的面積率較佳設為合計為2%以上。另外,作為本發明的冷軋鋼板組織,除肥粒鐵相、波來鐵相、變韌鐵相外,亦可包含雪明碳鐵。雪明碳鐵的面積率較佳設為1%以下。However, if the area ratio of the hard phase is extremely low, the required hardness of the steel sheet cannot be obtained, and therefore the area ratio of the hard phase is preferably 2% or more in total. Further, the cold rolled steel sheet structure of the present invention may contain ferritic carbon iron in addition to the ferrite iron phase, the buck iron phase, and the toughened iron phase. The area ratio of Xueming carbon iron is preferably set to 1% or less.

而且,本發明的冷軋鋼板具有如下的組織,即,包含波來鐵相、變韌鐵相中的任一種以上的硬質相的平均粒徑為1 μm以上、10 μm以下,且上述硬質相的平均縱橫比為10.0以下。另外,硬質相的平均粒徑與平均縱橫比的求法記載於後述的實施例中。Further, the cold-rolled steel sheet according to the present invention has a structure in which an average particle diameter of a hard phase including at least one of a ferrite phase and a toughened iron phase is 1 μm or more and 10 μm or less, and the hard phase is The average aspect ratio is 10.0 or less. Further, the method of determining the average particle diameter and the average aspect ratio of the hard phase is described in Examples to be described later.

若硬質相的平均粒徑超過10 μm,則硬質相與肥粒鐵相的界面處產生的裂紋大幅傳播,在鋼板的衝壓端面產生破損,從而端面性狀下降。因此,將硬質相的平均粒徑設為10 μm以下。較佳為7 μm以下。硬質相的平均粒徑越小,則自鋼板的衝壓性的觀點而言越佳。然而,為了減小硬質相的平均粒徑,必須在鋼板製造時降低熱軋的精軋結束溫度及捲繞溫度。另一方面,為了獲得本發明的以肥粒鐵相為主相的組織,需要如後述般將熱軋的精軋結束溫度與捲繞溫度設為規定的溫度以上,從而在該熱軋條件範圍內硬質相的結晶粒微細化存在極限。因此,硬質相的平均粒徑設為1 μm以上。When the average particle diameter of the hard phase exceeds 10 μm, the crack generated at the interface between the hard phase and the ferrite phase is largely propagated, and the end surface of the steel sheet is damaged, and the end surface property is lowered. Therefore, the average particle diameter of the hard phase is set to 10 μm or less. It is preferably 7 μm or less. The smaller the average particle diameter of the hard phase, the better from the viewpoint of the punchability of the steel sheet. However, in order to reduce the average particle diameter of the hard phase, it is necessary to lower the finish rolling finishing temperature and the winding temperature of the hot rolling at the time of manufacture of the steel sheet. On the other hand, in order to obtain the structure in which the ferrite-grained iron phase is the main phase of the present invention, it is necessary to set the finish rolling finishing temperature and the winding temperature of the hot rolling to a predetermined temperature or higher as described later, and to be in the range of the hot rolling conditions. There is a limit to the refinement of crystal grains in the inner hard phase. Therefore, the average particle diameter of the hard phase is set to 1 μm or more.

而且,若硬質相的平均縱橫比超過10.0,則硬質相與作為主相的肥粒鐵相的界面的應變增大,殘留應力增大,因此冷軋鋼板的耐熱應變特性下降。因此,硬質相的平均縱橫比設為10.0以下。較佳為8.0以下。Further, when the average aspect ratio of the hard phase exceeds 10.0, the strain at the interface between the hard phase and the ferrite-grained iron phase as the main phase increases, and the residual stress increases, so that the heat-resistant strain characteristics of the cold-rolled steel sheet are lowered. Therefore, the average aspect ratio of the hard phase is set to be 10.0 or less. It is preferably 8.0 or less.

本發明的冷軋鋼板的硬度以Hv(維氏硬度)計為170以上。若鋼板的硬度小於Hv170,則強度不足,無法經受得住作為汽車用驅動系零件的板或盤、環的使用。因此,冷軋鋼板的硬度設為Hv170以上。較佳為Hv190以上。另一方面,本發明的冷軋鋼板的硬度主要基於冷軋的加工硬化,因此,若硬度過高(亦即,若冷軋的軋縮率過高),則鋼板的殘留應力亦增大,從而耐熱應變特性劣化。因此,冷軋鋼板的硬度較佳設為Hv250以下。The hardness of the cold-rolled steel sheet of the present invention is 170 or more in terms of Hv (Vickers hardness). If the hardness of the steel sheet is less than Hv170, the strength is insufficient, and it is not possible to withstand the use of a plate, a disk, or a ring as a drive component of an automobile. Therefore, the hardness of the cold rolled steel sheet is set to Hv170 or more. It is preferably Hv190 or more. On the other hand, the hardness of the cold-rolled steel sheet according to the present invention is mainly based on work hardening of cold rolling. Therefore, if the hardness is too high (that is, if the rolling reduction ratio of the cold rolling is too high), the residual stress of the steel sheet also increases. Thereby the heat resistant strain characteristics are deteriorated. Therefore, the hardness of the cold rolled steel sheet is preferably set to Hv 250 or less.

接下來,對本發明的冷軋鋼板的製造方法進行說明。 本發明的冷軋鋼板藉由如下而獲得:對具有上述化學組成的鋼原材料實施熱軋,形成以肥粒鐵相為主相的熱軋板,藉由酸洗去除鏽皮後,以規定的軋縮率對該熱軋板進行冷軋。Next, a method of producing the cold-rolled steel sheet of the present invention will be described. The cold-rolled steel sheet according to the present invention is obtained by subjecting a steel material having the above chemical composition to hot rolling to form a hot-rolled sheet having a ferrite-grained iron phase as a main phase, and removing the scale by pickling. The rolling reduction rate is cold rolling the hot rolled sheet.

鋼原材料的製造方法無需作特別限定。例如,將具有上述組成的熔鋼在轉爐或電爐中熔化,較佳為藉由真空除氣爐(vacuum degassing furnace)進行二次熔煉(secondary smelting),並利用連續鑄造等製造方法形成鋼坯等鋼原材料的常用方法等均可適用。The method for producing the steel raw material is not particularly limited. For example, the molten steel having the above composition is melted in a converter or an electric furnace, preferably secondary smelting by a vacuum degassing furnace, and a steel such as a slab is formed by a manufacturing method such as continuous casting. Common methods for raw materials can be applied.

接下來,對鋼原材料實施包含粗軋(rough rolling)與精軋(finish rolling)的熱軋,從而形成熱軋板。在實施熱軋時,亦可對鋼原材料進行直接軋延(direct rolling),該直接軋延是在鑄造後立即進行熱軋,或者在鑄造後實施以補充熱量為目的的加熱後進行熱軋。當在熱軋前將鋼原材料加熱時,其加熱溫度無需作特別限定,較佳設為1000℃以上、1300℃以下的範圍的溫度。若上述加熱溫度小於1000℃,則存在變形阻力(deformation resistance)增高,而無法獲得良好的形狀的情況。另一方面,若超過1300℃而為高溫,則有促進鏽皮的成長,而鋼板的表面性狀下降之虞。另外,粗軋的條件不作特別限定。Next, hot rolling including rough rolling and finish rolling is performed on the steel raw material to form a hot rolled sheet. In the case of performing hot rolling, the steel raw material may be subjected to direct rolling, which is hot rolling immediately after casting, or after heating for the purpose of supplementing heat after casting, and then hot rolling. When the steel material is heated before hot rolling, the heating temperature is not particularly limited, but is preferably set to a temperature in the range of 1000 ° C or more and 1300 ° C or less. When the heating temperature is less than 1000 ° C, the deformation resistance is increased, and a good shape cannot be obtained. On the other hand, when the temperature is higher than 1300 ° C, the growth of the scale is promoted, and the surface properties of the steel sheet are lowered. Further, the conditions of the rough rolling are not particularly limited.

精軋結束溫度:800℃以上、950℃以下 若精軋結束溫度超過950℃,則熱軋板的組織粗大化。結果,冷軋後的鋼板的硬質相的平均粒徑增大,因而衝壓端面性狀劣化。另一方面,若精軋結束溫度小於800℃,則熱軋板的組織成為包含極端伸展的結晶粒的組織,硬質相的縱橫比亦增大。若對如此包含在熱軋板的階段沿軋延方向伸展的硬質相的鋼板進一步進行冷軋,則硬質相與作為主相的肥粒鐵相的硬度差大,因而在組織沿軋延方向伸長時,在硬質相與作為主相的肥粒鐵相的界面產生大的殘留應力。因此,冷軋後的鋼板中蓄積的殘留應力增大,容易產生熱應變。因此,精軋結束溫度設為800℃以上、950℃以下。較佳為850℃以上、920℃以下。Finishing finish temperature: 800 ° C or more and 950 ° C or less If the finish rolling finish temperature exceeds 950 ° C, the structure of the hot rolled sheet is coarsened. As a result, the average particle diameter of the hard phase of the steel sheet after cold rolling increases, and the end surface properties of the press are deteriorated. On the other hand, when the finishing rolling temperature is less than 800 ° C, the structure of the hot-rolled sheet becomes a structure containing extremely extended crystal grains, and the aspect ratio of the hard phase also increases. When the steel sheet having the hard phase extending in the rolling direction at the stage of the hot-rolled sheet is further cold-rolled, the hardness difference between the hard phase and the ferrite-grain phase as the main phase is large, and thus the structure is elongated in the rolling direction. At the time, a large residual stress is generated at the interface between the hard phase and the ferrite phase iron phase as the main phase. Therefore, the residual stress accumulated in the steel sheet after cold rolling increases, and thermal strain is likely to occur. Therefore, the finish rolling finishing temperature is set to 800 ° C or more and 950 ° C or less. It is preferably 850 ° C or higher and 920 ° C or lower.

捲繞溫度:超過600℃且750℃以下 若捲繞溫度為600℃以下,則會過剩地生成波來鐵相或變韌鐵相,從而無法獲得作為目標的以肥粒鐵相為主體的鋼板組織。另一方面,若捲繞溫度超過750℃,則波來鐵相或雪明碳鐵粒子粗大化而鋼板的衝壓端面性狀劣化,或鋼板的表面性狀劣化。因此,將捲繞溫度設為超過600℃且750℃以下。較佳為620℃以上、700℃以下。Winding temperature: more than 600 ° C and 750 ° C or less. When the winding temperature is 600 ° C or less, a corrugated iron phase or a tough iron phase is excessively generated, and the target steel sheet mainly composed of the ferrite core phase cannot be obtained. organization. On the other hand, when the winding temperature exceeds 750 ° C, the ferrite phase or the ferritic carbon iron particles are coarsened, and the press end surface properties of the steel sheet are deteriorated, or the surface properties of the steel sheet are deteriorated. Therefore, the winding temperature is set to exceed 600 ° C and 750 ° C or less. It is preferably 620 ° C or more and 700 ° C or less.

對精軋結束後冷卻至捲繞溫度為止時的冷卻速度不作特別限定,但為了將熱軋板、以及最終獲得的冷軋鋼板設為所需的組織,較佳為將精軋結束溫度至捲繞溫度為止的溫度範圍的平均冷卻速度設為10℃/s以上且小於120℃/s。更佳為15℃/s以上、50℃/s以下。 如以上般獲得的熱軋板在藉由酸洗而去除鏽皮後,實施冷軋,從而形成冷軋鋼板。The cooling rate at the time of cooling to the winding temperature after completion of the finish rolling is not particularly limited. However, in order to set the hot-rolled sheet and the finally obtained cold-rolled steel sheet into a desired structure, it is preferable to finish the finish rolling temperature to the coil. The average cooling rate in the temperature range around the temperature is set to 10 ° C / s or more and less than 120 ° C / s. More preferably, it is 15 ° C / s or more and 50 ° C / s or less. The hot-rolled sheet obtained as described above is subjected to cold rolling after pickling by pickling, thereby forming a cold-rolled steel sheet.

冷軋的軋縮率:30%以上、70%以下 為了藉由冷軋而設為作為板等驅動系零件用原材料所需的鋼板硬度,需要將軋縮率設為30%以上。另一方面,若軋縮率超過70%,則殘留應力增大,包含波來鐵及/或變韌鐵相的硬質相的平均縱橫比超過規定的值,從而容易產生熱應變。因此,將冷軋的軋縮率設為30%以上、70%以下。較佳為40%以上、60%以下。Cold rolling reduction ratio: 30% or more and 70% or less In order to obtain the hardness of the steel sheet required as a raw material for a drive component such as a plate by cold rolling, it is necessary to set the rolling reduction ratio to 30% or more. On the other hand, when the rolling reduction ratio exceeds 70%, the residual stress increases, and the average aspect ratio of the hard phase including the ferrite and/or the toughened iron phase exceeds a predetermined value, and thermal strain is likely to occur. Therefore, the rolling reduction ratio of cold rolling is set to 30% or more and 70% or less. It is preferably 40% or more and 60% or less.

本發明中,自鋼板形狀的矯正與殘留應力的調整的觀點而言,亦可在冷軋後,實施調質軋延(temper rolling)、或通過校平機(leveler)。自調整殘留應力的觀點而言,較佳為在實施調質軋延時,將伸長率設為0.3%以上。更佳為0.4%以上。然而,自調質軋延後的鋼板平坦度的觀點而言,較佳設為1.0%以下。 實施例In the present invention, from the viewpoint of the correction of the shape of the steel sheet and the adjustment of the residual stress, it is also possible to perform temper rolling or a leveler after cold rolling. From the viewpoint of adjusting the residual stress, it is preferable to carry out the temper rolling delay and set the elongation to 0.3% or more. More preferably, it is 0.4% or more. However, from the viewpoint of the flatness of the steel sheet after the temper rolling, it is preferably 1.0% or less. Example

將表1所示的化學成分的鋼在轉爐中熔化,藉由連續鑄造法而形成鋼坯(鋼原材料)。然後,在表2所示的條件下對該些鋼原材料實施熱軋、冷卻、捲繞而形成熱軋板。繼而,藉由酸洗去除鏽皮之後,以表2所示的軋縮率實施冷軋,而形成冷軋鋼板。對一部分冷軋鋼板藉由校平機或者調質軋延來進行形狀矯正。The steel of the chemical composition shown in Table 1 was melted in a converter, and a steel slab (steel raw material) was formed by a continuous casting method. Then, these steel raw materials were subjected to hot rolling, cooling, and winding under the conditions shown in Table 2 to form a hot rolled sheet. Then, after the scale was removed by pickling, cold rolling was performed at the rolling reduction ratio shown in Table 2 to form a cold rolled steel sheet. The shape correction is performed on a part of the cold-rolled steel sheet by a leveling machine or a temper rolling.

[表1] [Table 1]

[表2] [Table 2]

自所獲得的冷軋鋼板採取試驗片,按照以下所示的方法來進行組織觀察,求出肥粒鐵相、波來鐵相、變韌鐵相的面積率,以及硬質相(波來鐵相及/或變韌鐵相)的平均粒徑及平均縱橫比。而且,自所獲得的冷軋鋼板採取試驗片,按照以下所示的方法來評估硬度、衝壓後的平坦度、衝壓端面性狀、耐熱應變特性。A test piece was taken from the obtained cold-rolled steel sheet, and the structure observation was performed according to the method shown below, and the area ratio of the ferrite grain iron phase, the waved iron phase, the toughened iron phase, and the hard phase (waved iron phase) were determined. And/or toughened iron phase) average particle size and average aspect ratio. Further, a test piece was taken from the obtained cold-rolled steel sheet, and hardness, flatness after press, stamping end face property, and heat-resistant strain characteristic were evaluated by the method shown below.

組織觀察 採取與軋延方向平行的板厚剖面的試樣,關於板厚剖面,利用3%硝酸浸蝕液(Nital)而呈現出組織,在板厚1/4位置處使用掃描電子顯微鏡(scanning electron microscope)(SEM)以500倍、3視野進行攝影,並藉由圖像處理而將各相的面積率及包含波來鐵、變韌鐵相中的任一種以上的硬質相的粒徑與縱橫比加以定量化。粒徑設為結晶粒的長軸長度a與短軸長度b相乘所得的值的平方根()。縱橫比設為將結晶粒的長軸長度a除以短軸長度b所得的值(a/b)。硬質相的平均粒徑及平均縱橫比在圖像處理中為:被識別為波來鐵相或變韌鐵相中的任一個的所有結晶粒的粒徑、縱橫比的算術平均。The microstructure of the plate thickness profile parallel to the rolling direction was observed, and the microstructure was observed with a 3% nitric acid etch solution (Nital), and a scanning electron microscope (scanning electron) was used at a plate thickness of 1/4. Microscope (SEM) photographs at 500 times and 3 fields of view, and the area ratio of each phase and the particle diameter and aspect of the hard phase including at least one of the ferrite and the toughened iron phase by image processing. Quantitative than to quantify. The particle size is set to the square root of the value obtained by multiplying the major axis length a of the crystal grain by the minor axis length b ( ). The aspect ratio is a value (a/b) obtained by dividing the major axis length a of the crystal grain by the minor axis length b. The average particle diameter and the average aspect ratio of the hard phase are, in image processing, the arithmetic mean of the particle diameter and aspect ratio of all crystal grains identified as either of the ferrite phase or the toughened iron phase.

硬度 採取與軋延方向平行的板厚剖面的試樣,並埋入至樹脂中,對板厚剖面進行研磨後,在板厚1/4的位置處依據日本工業規格(Japanese Industrial Standards,JIS) Z 2244的規定,使用維氏硬度計,以負載500 gf進行5點測定,將其平均值作為硬度。A sample having a plate thickness profile parallel to the rolling direction is embedded in the resin, and the plate thickness profile is ground, and the thickness is 1/4 of the thickness according to Japanese Industrial Standards (JIS). The Z 2244 was measured by a Vickers hardness tester at a load of 500 gf at 5 points, and the average value was taken as the hardness.

衝壓後的平坦度 自所獲得的冷軋鋼板衝壓出外徑100 mm、內徑80 mm的環狀的板,並將板放置於雷射測定器(laser displacement meter)的測定台上,藉由雷射測定器對圓環部整體測定自台至板的圓環部上表面為止的高度,並算出其最小值與最大值之差。將最小值與最大值之差為0.2 mm以下的情況設為平坦度:良好(○)。另一方面,將最小值與最大值之差超過0.2 mm的情況設為平坦度:欠佳(×)。Flatness after stamping An annular plate having an outer diameter of 100 mm and an inner diameter of 80 mm was punched out from the obtained cold-rolled steel sheet, and the plate was placed on a measuring table of a laser displacement meter by means of a thunder The measurement device measures the height from the table to the upper surface of the annular portion of the plate to the entire annular portion, and calculates the difference between the minimum value and the maximum value. When the difference between the minimum value and the maximum value is 0.2 mm or less, the flatness is good: (○). On the other hand, the case where the difference between the minimum value and the maximum value exceeds 0.2 mm is set as the flatness: poor (×).

衝壓端面性狀 自所獲得的冷軋鋼板衝壓出外徑100 mm、內徑80 mm的環狀的板,觀察衝壓端面,將無破損或二次剪切面(secondary shear surface)的情況設為衝壓端面性狀:良好(○)。另一方面,將觀察到破損或二次剪切面的情況設為衝壓端面性狀:欠佳(×)。Stamping end face properties An annular plate having an outer diameter of 100 mm and an inner diameter of 80 mm was punched out from the obtained cold-rolled steel sheet, and the punched end surface was observed, and the case where no damage or secondary shear surface was used was a stamped end face. Character: Good (○). On the other hand, the case where the damage or the secondary shear plane was observed was taken as the stamping end face property: poor (×).

耐熱應變特性 自所獲得的冷軋鋼板衝壓出外徑100 mm、內徑80 mm的環狀的板,將板以300℃保持1小時後,進行空冷至室溫為止的熱處理。在熱處理後,與上述「衝壓後的平坦度測定」同樣地,藉由雷射測定器來測定板的形狀,並算出板的圓環部的高度的最小值與最大值之差。 將最小值與最大值之差為0.2 mm以下的情況設為耐熱應變特性:良好(○)。另一方面,將最小值與最大值之差超過0.2 mm的情況設為耐熱應變特性:欠佳(×)。 將該些結果表示於表3中。Heat-Resistant Strain Characteristics An annular plate having an outer diameter of 100 mm and an inner diameter of 80 mm was punched out from the obtained cold-rolled steel sheet, and the plate was held at 300 ° C for 1 hour, and then heat-treated to room temperature. After the heat treatment, the shape of the plate was measured by a laser measuring device in the same manner as in the above-described "measurement of flatness after pressing", and the difference between the minimum value and the maximum value of the height of the annular portion of the plate was calculated. The case where the difference between the minimum value and the maximum value is 0.2 mm or less is made into a heat-resistant strain characteristic: good (○). On the other hand, the case where the difference between the minimum value and the maximum value exceeds 0.2 mm is taken as the heat-resistant strain characteristic: poor (×). These results are shown in Table 3.

[表3] [table 3]

發明例的冷軋鋼板均具有維氏硬度為Hv170以上的充分的硬度,並且衝壓加工後的平坦度、衝壓端面性狀優異,進而耐熱應變特性優異。另一方面,超出本發明的範圍的比較例的冷軋鋼板的任一者的特性均差。 本申請基於2013年4月2日在日本提出申請的日本專利特願2013-076860號而主張優先權,其全部內容引用於此。The cold-rolled steel sheets of the invention examples each have a sufficient hardness such as a Vickers hardness of Hv 170 or more, and are excellent in flatness after press working and punching end face properties, and are excellent in heat-resistant strain characteristics. On the other hand, the characteristics of any of the cold-rolled steel sheets of the comparative examples which are outside the range of the present invention were inferior. The present application claims priority based on Japanese Patent Application No. 2013-076860, filed on Jan.

no

no

no

Claims (25)

一種冷軋鋼板,具有如下的組成,以質量%計含有:C:0.01%以上、0.08%以下,Si:0.01%以上、1.0%以下,Mn:0.05%以上、1.0%以下,P:0.03%以下,S:0.015%以下,Al:0.005%以上、0.10%以下,以及N:0.01%以下,其餘部分包含Fe及不可避免的雜質;除上述組成外,進而以質量%計含有Ti:0.005%以上且0.10%以下、Nb:0.005%以上且0.10%以下、V:0.005%以上且0.50%以下、Zr:0.005%以上且0.10%以下、Mo:0.02%以上且0.50%以下、Cr:0.03%以上且0.50%以下、B:0.0003%以上且0.0050%以下中的任一種以上;除上述組成外,進而以質量%計含有Ca:0.0003%以上且0.0050%以下、REM:0.0003%以上且0.0100%以下中的任一種以上;並且具有如下的組織:肥粒鐵相的面積率為80%以上,包含波來鐵相、變韌鐵相中的任一種以上的硬質相的面積率合計為20%以下,上述硬質相的平均粒徑為1μm以上、10μm以下,且上述硬質相的平均縱橫比為10.0以下;所述冷軋鋼板的維氏硬度為Hv170以上、250以下。 A cold-rolled steel sheet having a composition containing, by mass%, C: 0.01% or more and 0.08% or less, Si: 0.01% or more, 1.0% or less, Mn: 0.05% or more, 1.0% or less, P: 0.03% Hereinafter, S: 0.015% or less, Al: 0.005% or more, 0.10% or less, and N: 0.01% or less, and the balance contains Fe and unavoidable impurities; in addition to the above composition, further contains Ti: 0.005% by mass% The above is 0.10% or less, Nb: 0.005% or more and 0.10% or less, V: 0.005% or more and 0.50% or less, Zr: 0.005% or more and 0.10% or less, Mo: 0.02% or more and 0.50% or less, and Cr: 0.03%. Any one or more of 0.50% or less and B: 0.0003% or more and 0.0050% or less; in addition to the above composition, Ca: 0.0003% or more and 0.0050% or less, and REM: 0.0003% or more and 0.0100% by mass% Any one of the following: and has a structure in which the area ratio of the ferrite-grained iron phase is 80% or more, and the area ratio of the hard phase including at least one of the ferrite phase and the toughened iron phase is 20%. Hereinafter, the average particle diameter of the hard phase is 1 μm or more and 10 μm or less, and the hard phase is The average aspect ratio is 10.0 or less; and the cold rolled steel sheet has a Vickers hardness of Hv 170 or more and 250 or less. 如申請專利範圍第1項所述的冷軋鋼板,其中 除上述組成外,進而以質量%計含有Cu:0.01%以上且0.20%以下、Ni:0.01%以上且0.50%以下中的任一種以上。 The cold-rolled steel sheet according to item 1 of the patent application, wherein In addition to the above-described composition, it is further contained in any one or more of Cu: 0.01% or more and 0.20% or less, and Ni: 0.01% or more and 0.50% or less. 一種冷軋鋼板,具有如下的組成,以質量%計含有:C:0.01%以上、0.08%以下,Si:0.01%以上、1.0%以下,Mn:0.05%以上、1.0%以下,P:0.03%以下,S:0.015%以下,Al:0.005%以上、0.10%以下,以及N:0.01%以下,其餘部分包含Fe及不可避免的雜質;除上述組成外,進而以質量%計含有Ti:0.005%以上且0.10%以下、Nb:0.005%以上且0.10%以下、V:0.005%以上且0.50%以下、Zr:0.005%以上且0.10%以下、Mo:0.02%以上且0.50%以下、Cr:0.03%以上且0.50%以下、B:0.0003%以上且0.0050%以下中的任一種以上;除上述組成外,進而以質量%計含有Sb:0.001%以上且0.030%以下、Sn:0.001%以上且0.030%以下中的任一種以上;並且具有如下的組織:肥粒鐵相的面積率為80%以上,包含波來鐵相、變韌鐵相中的任一種以上的硬質相的面積率合計為20%以下,上述硬質相的平均粒徑為1μm以上、10μm以下,且上述硬質相的平均縱橫比為10.0以下;所述冷軋鋼板的維氏硬度為Hv170以上、250以下。 A cold-rolled steel sheet having a composition containing, by mass%, C: 0.01% or more and 0.08% or less, Si: 0.01% or more, 1.0% or less, Mn: 0.05% or more, 1.0% or less, P: 0.03% Hereinafter, S: 0.015% or less, Al: 0.005% or more, 0.10% or less, and N: 0.01% or less, and the balance contains Fe and unavoidable impurities; in addition to the above composition, further contains Ti: 0.005% by mass% The above is 0.10% or less, Nb: 0.005% or more and 0.10% or less, V: 0.005% or more and 0.50% or less, Zr: 0.005% or more and 0.10% or less, Mo: 0.02% or more and 0.50% or less, and Cr: 0.03%. In addition to the above composition, Sb: 0.001% or more and 0.030% or less, and Sn: 0.001% or more and 0.030%, in addition to the above composition, in addition to the above-mentioned composition Any one of the following: and has a structure in which the area ratio of the ferrite-grained iron phase is 80% or more, and the area ratio of the hard phase including at least one of the ferrite phase and the toughened iron phase is 20%. Hereinafter, the average particle diameter of the hard phase is 1 μm or more and 10 μm or less, and the hard phase is flat. The aspect ratio is 10.0 or less; cold-rolled steel sheet of the Vickers hardness of Hv170 or more and 250 or less. 如申請專利範圍第3項所述的冷軋鋼板,其中 除上述組成外,進而以質量%計含有Cu:0.01%以上且0.20%以下、Ni:0.01%以上且0.50%以下中的任一種以上。 A cold rolled steel sheet according to claim 3, wherein In addition to the above-described composition, it is further contained in any one or more of Cu: 0.01% or more and 0.20% or less, and Ni: 0.01% or more and 0.50% or less. 一種冷軋鋼板,具有如下的組成,以質量%計含有:C:0.01%以上、0.08%以下,Si:0.01%以上、1.0%以下,Mn:0.05%以上、1.0%以下,P:0.03%以下,S:0.015%以下,Al:0.005%以上、0.10%以下,以及N:0.01%以下,其餘部分包含Fe及不可避免的雜質;除上述組成外,進而以質量%計含有Ca:0.0003%以上且0.0050%以下、REM:0.0003%以上且0.0100%以下中的任一種以上;除上述組成外,進而以質量%計含有Sb:0.001%以上且0.030%以下、Sn:0.001%以上且0.030%以下中的任一種以上;並且具有如下的組織:肥粒鐵相的面積率為80%以上,包含波來鐵相、變韌鐵相中的任一種以上的硬質相的面積率合計為20%以下,上述硬質相的平均粒徑為1μm以上、10μm以下,且上述硬質相的平均縱橫比為10.0以下;所述冷軋鋼板的維氏硬度為Hv170以上、250以下。 A cold-rolled steel sheet having a composition containing, by mass%, C: 0.01% or more and 0.08% or less, Si: 0.01% or more, 1.0% or less, Mn: 0.05% or more, 1.0% or less, P: 0.03% Hereinafter, S: 0.015% or less, Al: 0.005% or more, 0.10% or less, and N: 0.01% or less, and the balance contains Fe and unavoidable impurities; in addition to the above composition, further contains Ca: 0.0003% by mass% In addition to the above-described composition, Sb: 0.001% or more and 0.030% or less, and Sn: 0.001% or more and 0.030%, in addition to the above composition, in addition to the above-mentioned composition. Any one of the following: and has a structure in which the area ratio of the ferrite-grained iron phase is 80% or more, and the area ratio of the hard phase including at least one of the ferrite phase and the toughened iron phase is 20%. Hereinafter, the average particle diameter of the hard phase is 1 μm or more and 10 μm or less, and the average aspect ratio of the hard phase is 10.0 or less. The cold rolled steel sheet has a Vickers hardness of Hv 170 or more and 250 or less. 如申請專利範圍第5項所述的冷軋鋼板,其中除上述組成外,進而以質量%計含有Cu:0.01%以上且0.20%以下、Ni:0.01%以上且0.50%以下中的任一種以上。 The cold-rolled steel sheet according to the fifth aspect of the invention, further comprising, in addition to the above composition, at least one of Cu: 0.01% or more and 0.20% or less, and Ni: 0.01% or more and 0.50% or less by mass%. . 如申請專利範圍第5項所述的冷軋鋼板,其中 除上述組成外,進而以質量%計含有Ti:0.005%以上且0.10%以下、Nb:0.005%以上且0.10%以下、V:0.005%以上且0.50%以下、Zr:0.005%以上且0.10%以下、Mo:0.02%以上且0.50%以下、Cr:0.03%以上且0.50%以下、B:0.0003%以上且0.0050%以下中的任一種以上。 A cold rolled steel sheet according to claim 5, wherein In addition to the above composition, Ti is contained in an amount of 0.005% or more and 0.10% or less, Nb is 0.005% or more and 0.10% or less, V is 0.005% or more and 0.50% or less, and Zr is 0.005% or more and 0.10% or less. Mo: 0.02% or more and 0.50% or less, Cr: 0.03% or more and 0.50% or less, and B: 0.0003% or more and 0.0050% or less. 如申請專利範圍第5項所述的冷軋鋼板,其中除上述組成外,進而以質量%計含有Cu:0.01%以上且0.20%以下、Ni:0.01%以上且0.50%以下中的任一種以上;除上述組成外,進而以質量%計含有Ti:0.005%以上且0.10%以下、Nb:0.005%以上且0.10%以下、V:0.005%以上且0.50%以下、Zr:0.005%以上且0.10%以下、Mo:0.02%以上且0.50%以下、Cr:0.03%以上且0.50%以下、B:0.0003%以上且0.0050%以下中的任一種以上。 The cold-rolled steel sheet according to the fifth aspect of the invention, further comprising, in addition to the above composition, at least one of Cu: 0.01% or more and 0.20% or less, and Ni: 0.01% or more and 0.50% or less by mass%. In addition to the above composition, Ti is contained in an amount of 0.005% or more and 0.10% or less, Nb is 0.005% or more and 0.10% or less, V is 0.005% or more and 0.50% or less, and Zr is 0.005% or more and 0.10%. Hereinafter, Mo: 0.02% or more and 0.50% or less, Cr: 0.03% or more and 0.50% or less, and B: 0.0003% or more and 0.0050% or less. 一種冷軋鋼板的製造方法,對鋼原材料實施將精軋結束溫度設為800℃以上、950℃以下的熱軋,在熱軋結束後,以超過600℃且750℃以下的捲繞溫度進行捲繞,並藉由酸洗去除鏽皮,然後以30%以上、70%以下的軋縮率實施冷軋,上述鋼原材料具有如下組成,以質量%計含有:C:0.01%以上、0.08%以下,Si:0.01%以上、1.0%以下,Mn:0.05%以上、1.0%以下,P:0.03%以下,S:0.015%以下,Al:0.005%以上、0.10%以下,以及 N:0.01%以下,並且進而以質量%計含有Cu:0.01%以上且0.20%以下、Ni:0.01%以上且0.50%以下中的任一種以上;進而以質量%計含有Ti:0.005%以上且0.10%以下、Nb:0.005%以上且0.10%以下、V:0.005%以上且0.50%以下、Zr:0.005%以上且0.10%以下、Mo:0.02%以上且0.50%以下、Cr:0.03%以上且0.50%以下、B:0.0003%以上且0.0050%以下中的任一種以上;其餘部分包含Fe及不可避免的雜質。 In the method of producing a cold-rolled steel sheet, the steel material is subjected to hot rolling at a finishing temperature of 800 ° C or higher and 950 ° C or lower, and after the hot rolling is completed, the coil is rolled at a winding temperature of more than 600 ° C and 750 ° C or lower. Winding and removing the scale by pickling, and then performing cold rolling at a rolling reduction ratio of 30% or more and 70% or less, the steel raw material having the following composition, containing: C: 0.01% or more, 0.08% by mass% Hereinafter, Si: 0.01% or more and 1.0% or less, Mn: 0.05% or more, 1.0% or less, P: 0.03% or less, S: 0.015% or less, and Al: 0.005% or more and 0.10% or less, and N: 0.01% or less, and further containing, by mass%, any one or more of Cu: 0.01% or more and 0.20% or less, and Ni: 0.01% or more and 0.50% or less; and further containing Ti: 0.005% or more by mass% 0.10% or less, Nb: 0.005% or more and 0.10% or less, V: 0.005% or more and 0.50% or less, Zr: 0.005% or more and 0.10% or less, Mo: 0.02% or more and 0.50% or less, and Cr: 0.03% or more and 0.50% or less and B: 0.0003% or more and 0.0050% or less; the remainder contains Fe and unavoidable impurities. 如申請專利範圍第9項所述的冷軋鋼板的製造方法,其中在實施上述冷軋後,實施調質軋延。 The method for producing a cold-rolled steel sheet according to claim 9, wherein after the cold rolling is performed, the temper rolling is performed. 一種冷軋鋼板的製造方法,對鋼原材料實施將精軋結束溫度設為800℃以上、950℃以下的熱軋,在熱軋結束後,以超過600℃且750℃以下的捲繞溫度進行捲繞,並藉由酸洗去除鏽皮,然後以30%以上、70%以下的軋縮率實施冷軋,上述鋼原材料具有如下組成,以質量%計含有:C:0.01%以上、0.08%以下,Si:0.01%以上、1.0%以下,Mn:0.05%以上、1.0%以下,P:0.03%以下,S:0.015%以下,Al:0.005%以上、0.10%以下,以及N:0.01%以下,並且 進而以質量%計含有Cu:0.01%以上且0.20%以下、Ni:0.01%以上且0.50%以下中的任一種以上;進而以質量%計含有Ca:0.0003%以上且0.0050%以下、REM:0.0003%以上且0.0100%以下中的任一種以上;其餘部分包含Fe及不可避免的雜質。 In the method of producing a cold-rolled steel sheet, the steel material is subjected to hot rolling at a finishing temperature of 800 ° C or higher and 950 ° C or lower, and after the hot rolling is completed, the coil is rolled at a winding temperature of more than 600 ° C and 750 ° C or lower. Winding and removing the scale by pickling, and then performing cold rolling at a rolling reduction ratio of 30% or more and 70% or less, the steel raw material having the following composition, containing: C: 0.01% or more, 0.08% by mass% Hereinafter, Si: 0.01% or more and 1.0% or less, Mn: 0.05% or more, 1.0% or less, P: 0.03% or less, S: 0.015% or less, Al: 0.005% or more, 0.10% or less, and N: 0.01% or less ,and Further, in terms of % by mass, Cu: 0.01% or more and 0.20% or less, and Ni: 0.01% or more and 0.50% or less; and further, in terms of % by mass, Ca: 0.0003% or more and 0.0050% or less, and REM: 0.0003 Any one or more of % or more and 0.0100% or less; the balance contains Fe and unavoidable impurities. 如申請專利範圍第11項所述的冷軋鋼板的製造方法,其中在實施上述冷軋後,實施調質軋延。 The method for producing a cold-rolled steel sheet according to claim 11, wherein after the cold rolling is performed, the temper rolling is performed. 一種冷軋鋼板的製造方法,對鋼原材料實施將精軋結束溫度設為800℃以上、950℃以下的熱軋,在熱軋結束後,以超過600℃且750℃以下的捲繞溫度進行捲繞,並藉由酸洗去除鏽皮,然後以30%以上、70%以下的軋縮率實施冷軋,上述鋼原材料具有如下組成,以質量%計含有:C:0.01%以上、0.08%以下,Si:0.01%以上、1.0%以下,Mn:0.05%以上、1.0%以下,P:0.03%以下,S:0.015%以下,Al:0.005%以上、0.10%以下,以及N:0.01%以下,並且進而以質量%計含有Ti:0.005%以上且0.10%以下、Nb:0.005%以上且0.10%以下、V:0.005%以上且0.50%以下、Zr:0.005%以上且0.10%以下、Mo:0.02%以上且0.50%以下、Cr:0.03%以上且0.50%以下、B:0.0003%以上且0.0050%以下中的任一種以上; 進而以質量%計含有Ca:0.0003%以上且0.0050%以下、REM:0.0003%以上且0.0100%以下中的任一種以上;其餘部分包含Fe及不可避免的雜質。 In the method of producing a cold-rolled steel sheet, the steel material is subjected to hot rolling at a finishing temperature of 800 ° C or higher and 950 ° C or lower, and after the hot rolling is completed, the coil is rolled at a winding temperature of more than 600 ° C and 750 ° C or lower. Winding and removing the scale by pickling, and then performing cold rolling at a rolling reduction ratio of 30% or more and 70% or less, the steel raw material having the following composition, containing: C: 0.01% or more, 0.08% by mass% Hereinafter, Si: 0.01% or more and 1.0% or less, Mn: 0.05% or more, 1.0% or less, P: 0.03% or less, S: 0.015% or less, Al: 0.005% or more, 0.10% or less, and N: 0.01% or less Further, Ti is contained in an amount of 0.005% or more and 0.10% or less, Nb: 0.005% or more and 0.10% or less, V: 0.005% or more and 0.50% or less, and Zr: 0.005% or more and 0.10% or less in terms of % by mass, and Mo: 0.02% or more and 0.50% or less, Cr: 0.03% or more and 0.50% or less, and B: 0.0003% or more and 0.0050% or less; Further, in terms of % by mass, Ca: 0.0003% or more and 0.0050% or less, and REM: 0.0003% or more and 0.0100% or less are contained, and the remainder contains Fe and unavoidable impurities. 如申請專利範圍第13項所述的冷軋鋼板的製造方法,其中除上述組成外,進而以質量%計含有Cu:0.01%以上且0.20%以下、Ni:0.01%以上且0.50%以下中的任一種以上。 The method for producing a cold-rolled steel sheet according to the above-mentioned aspect of the invention, further comprising, in addition to the above composition, Cu: 0.01% or more and 0.20% or less, and Ni: 0.01% or more and 0.50% or less by mass% Any one or more. 如申請專利範圍第13項或第14項所述的冷軋鋼板的製造方法,其中在實施上述冷軋後,實施調質軋延。 The method for producing a cold-rolled steel sheet according to claim 13 or claim 14, wherein the cold rolling is performed after the cold rolling is performed. 一種冷軋鋼板的製造方法,對鋼原材料實施將精軋結束溫度設為800℃以上、950℃以下的熱軋,在熱軋結束後,以超過600℃且750℃以下的捲繞溫度進行捲繞,並藉由酸洗去除鏽皮,然後以30%以上、70%以下的軋縮率實施冷軋,上述鋼原材料具有如下組成,以質量%計含有:C:0.01%以上、0.08%以下,Si:0.01%以上、1.0%以下,Mn:0.05%以上、1.0%以下,P:0.03%以下,S:0.015%以下,Al:0.005%以上、0.10%以下,以及N:0.01%以下,並且進而以質量%計含有Cu:0.01%以上且0.20%以下、Ni:0.01%以上且0.50%以下中的任一種以上; 進而以質量%計含有Sb:0.001%以上且0.030%以下、Sn:0.001%以上且0.030%以下中的任一種以上;其餘部分包含Fe及不可避免的雜質。 In the method of producing a cold-rolled steel sheet, the steel material is subjected to hot rolling at a finishing temperature of 800 ° C or higher and 950 ° C or lower, and after the hot rolling is completed, the coil is rolled at a winding temperature of more than 600 ° C and 750 ° C or lower. Winding and removing the scale by pickling, and then performing cold rolling at a rolling reduction ratio of 30% or more and 70% or less, the steel raw material having the following composition, containing: C: 0.01% or more, 0.08% by mass% Hereinafter, Si: 0.01% or more and 1.0% or less, Mn: 0.05% or more, 1.0% or less, P: 0.03% or less, S: 0.015% or less, Al: 0.005% or more, 0.10% or less, and N: 0.01% or less Furthermore, it further contains, by mass%, any one or more of Cu: 0.01% or more and 0.20% or less, and Ni: 0.01% or more and 0.50% or less; Further, in terms of % by mass, Sb: 0.001% or more and 0.030% or less, and Sn: 0.001% or more and 0.030% or less are contained, and the remainder contains Fe and unavoidable impurities. 如申請專利範圍第16項所述的冷軋鋼板的製造方法,其中在實施上述冷軋後,實施調質軋延。 The method for producing a cold-rolled steel sheet according to claim 16, wherein after the cold rolling is performed, the temper rolling is performed. 一種冷軋鋼板的製造方法,對鋼原材料實施將精軋結束溫度設為800℃以上、950℃以下的熱軋,在熱軋結束後,以超過600℃且750℃以下的捲繞溫度進行捲繞,並藉由酸洗去除鏽皮,然後以30%以上、70%以下的軋縮率實施冷軋,上述鋼原材料具有如下組成,以質量%計含有:C:0.01%以上、0.08%以下,Si:0.01%以上、1.0%以下,Mn:0.05%以上、1.0%以下,P:0.03%以下,S:0.015%以下,Al:0.005%以上、0.10%以下,以及N:0.01%以下,並且進而以質量%計含有Ti:0.005%以上且0.10%以下、Nb:0.005%以上且0.10%以下、V:0.005%以上且0.50%以下、Zr:0.005%以上且0.10%以下、Mo:0.02%以上且0.50%以下、Cr:0.03%以上且0.50%以下、B:0.0003%以上且0.0050%以下中的任一種以上;進而以質量%計含有Sb:0.001%以上且0.030%以下、Sn:0.001%以上且0.030%以下中的任一種以上; 其餘部分包含Fe及不可避免的雜質。 In the method of producing a cold-rolled steel sheet, the steel material is subjected to hot rolling at a finishing temperature of 800 ° C or higher and 950 ° C or lower, and after the hot rolling is completed, the coil is rolled at a winding temperature of more than 600 ° C and 750 ° C or lower. Winding and removing the scale by pickling, and then performing cold rolling at a rolling reduction ratio of 30% or more and 70% or less, the steel raw material having the following composition, containing: C: 0.01% or more, 0.08% by mass% Hereinafter, Si: 0.01% or more and 1.0% or less, Mn: 0.05% or more, 1.0% or less, P: 0.03% or less, S: 0.015% or less, Al: 0.005% or more, 0.10% or less, and N: 0.01% or less Further, Ti is contained in an amount of 0.005% or more and 0.10% or less, Nb: 0.005% or more and 0.10% or less, V: 0.005% or more and 0.50% or less, and Zr: 0.005% or more and 0.10% or less in terms of % by mass, and Mo: 0.02% or more and 0.50% or less, Cr: 0.03% or more and 0.50% or less, B: 0.0003% or more and 0.0050% or less, and further, Sb: 0.001% or more and 0.030% or less in terms of % by mass, Sn : 0.001% or more and 0.030% or less; The rest contains Fe and unavoidable impurities. 如申請專利範圍第18項所述的冷軋鋼板的製造方法,其中除上述組成外,進而以質量%計含有Cu:0.01%以上且0.20%以下、Ni:0.01%以上且0.50%以下中的任一種以上。 The method for producing a cold-rolled steel sheet according to claim 18, which further comprises, in addition to the above composition, Cu: 0.01% or more and 0.20% or less, and Ni: 0.01% or more and 0.50% or less by mass%. Any one or more. 如申請專利範圍第18項或第19項所述的冷軋鋼板的製造方法,其中在實施上述冷軋後,實施調質軋延。 The method for producing a cold-rolled steel sheet according to claim 18, wherein the cold rolling is performed after the cold rolling is performed. 一種冷軋鋼板的製造方法,對鋼原材料實施將精軋結束溫度設為800℃以上、950℃以下的熱軋,在熱軋結束後,以超過600℃且750℃以下的捲繞溫度進行捲繞,並藉由酸洗去除鏽皮,然後以30%以上、70%以下的軋縮率實施冷軋,上述鋼原材料具有如下組成,以質量%計含有:C:0.01%以上、0.08%以下,Si:0.01%以上、1.0%以下,Mn:0.05%以上、1.0%以下,P:0.03%以下,S:0.015%以下,Al:0.005%以上、0.10%以下,以及N:0.01%以下,並且進而以質量%計含有Ca:0.0003%以上且0.0050%以下、REM:0.0003%以上且0.0100%以下中的任一種以上;進而以質量%計含有Sb:0.001%以上且0.030%以下、Sn:0.001%以上且0.030%以下中的任一種以上; 其餘部分包含Fe及不可避免的雜質。 In the method of producing a cold-rolled steel sheet, the steel material is subjected to hot rolling at a finishing temperature of 800 ° C or higher and 950 ° C or lower, and after the hot rolling is completed, the coil is rolled at a winding temperature of more than 600 ° C and 750 ° C or lower. Winding and removing the scale by pickling, and then performing cold rolling at a rolling reduction ratio of 30% or more and 70% or less, the steel raw material having the following composition, containing: C: 0.01% or more, 0.08% by mass% Hereinafter, Si: 0.01% or more and 1.0% or less, Mn: 0.05% or more, 1.0% or less, P: 0.03% or less, S: 0.015% or less, Al: 0.005% or more, 0.10% or less, and N: 0.01% or less Further, it contains, by mass%, Ca: 0.0003% or more and 0.0050% or less, and REM: 0.0003% or more and 0.0100% or less, and further contains, by mass%, Sb: 0.001% or more and 0.030% or less, Sn. : 0.001% or more and 0.030% or less; The rest contains Fe and unavoidable impurities. 如申請專利範圍第21項所述的冷軋鋼板的製造方法,其中除上述組成外,進而以質量%計含有Cu:0.01%以上且0.20%以下、Ni:0.01%以上且0.50%以下中的任一種以上。 The method for producing a cold-rolled steel sheet according to claim 21, further comprising, in addition to the above composition, Cu: 0.01% or more and 0.20% or less, and Ni: 0.01% or more and 0.50% or less by mass% Any one or more. 如申請專利範圍第21項中任一項所述的冷軋鋼板的製造方法,其中除上述組成外,進而以質量%計含有Ti:0.005%以上且0.10%以下、Nb:0.005%以上且0.10%以下、V:0.005%以上且0.50%以下、Zr:0.005%以上且0.10%以下、Mo:0.02%以上且0.50%以下、Cr:0.03%以上且0.50%以下、B:0.0003%以上且0.0050%以下中的任一種以上。 The method for producing a cold-rolled steel sheet according to any one of the above-mentioned claims, wherein, in addition to the above composition, further contains Ti: 0.005% or more and 0.10% or less, and Nb: 0.005% or more and 0.10 by mass%. % or less, V: 0.005% or more and 0.50% or less, Zr: 0.005% or more and 0.10% or less, Mo: 0.02% or more and 0.50% or less, Cr: 0.03% or more and 0.50% or less, and B: 0.0003% or more and 0.0050. Any one or more of % or less. 如申請專利範圍第21項所述的冷軋鋼板的製造方法,其中除上述組成外,進而以質量%計含有Cu:0.01%以上且0.20%以下、Ni:0.01%以上且0.50%以下中的任一種以上;除上述組成外,進而以質量%計含有Ti:0.005%以上且0.10%以下、Nb:0.005%以上且0.10%以下、V:0.005%以上且0.50%以下、Zr:0.005%以上且0.10%以下、Mo:0.02%以上且0.50%以下、Cr:0.03%以上且0.50%以下、B:0.0003%以上且0.0050%以下中的任一種以上。 The method for producing a cold-rolled steel sheet according to claim 21, further comprising, in addition to the above composition, Cu: 0.01% or more and 0.20% or less, and Ni: 0.01% or more and 0.50% or less by mass% In addition to the above composition, Ti is contained in an amount of 0.005% or more and 0.10% or less, Nb is 0.005% or more and 0.10% or less, V is 0.005% or more and 0.50% or less, and Zr is 0.005% or more. Further, 0.10% or less, Mo: 0.02% or more and 0.50% or less, Cr: 0.03% or more and 0.50% or less, and B: 0.0003% or more and 0.0050% or less. 如申請專利範圍第21項至第24項中任一項所述的冷軋鋼板的製造方法,其中在實施上述冷軋後,實施調質軋延。 The method for producing a cold-rolled steel sheet according to any one of claims 21 to 24, wherein after the cold rolling is performed, the temper rolling is performed.
TW105108202A 2013-04-02 2014-03-25 Cold rolled steel sheet and method for producing the same TWI551696B (en)

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP2013076860A JP5633594B2 (en) 2013-04-02 2013-04-02 Cold-rolled steel sheet excellent in punchability and heat-strain resistance and method for producing the same

Publications (2)

Publication Number Publication Date
TW201621061A TW201621061A (en) 2016-06-16
TWI551696B true TWI551696B (en) 2016-10-01

Family

ID=51657976

Family Applications (2)

Application Number Title Priority Date Filing Date
TW105108202A TWI551696B (en) 2013-04-02 2014-03-25 Cold rolled steel sheet and method for producing the same
TW103110960A TWI534273B (en) 2013-04-02 2014-03-25 Cold rolled steel sheet and method for producing the same

Family Applications After (1)

Application Number Title Priority Date Filing Date
TW103110960A TWI534273B (en) 2013-04-02 2014-03-25 Cold rolled steel sheet and method for producing the same

Country Status (6)

Country Link
JP (1) JP5633594B2 (en)
KR (1) KR101717002B1 (en)
CN (1) CN105074039B (en)
MX (1) MX2015013941A (en)
TW (2) TWI551696B (en)
WO (1) WO2014162661A1 (en)

Families Citing this family (11)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2016157258A1 (en) * 2015-03-27 2016-10-06 Jfeスチール株式会社 High-strength steel sheet and production method therefor
KR101778385B1 (en) * 2015-11-20 2017-09-14 주식회사 포스코 High strength cold rolled steel sheet having excellent shear workability and method for manufacturing the same
KR102119017B1 (en) * 2016-03-11 2020-06-04 제이에프이 스틸 가부시키가이샤 High strength cold rolled thin steel sheet and method for manufacturing the same
CN105779864B (en) * 2016-04-28 2017-11-21 武汉钢铁有限公司 Dispersion-strengtherning microalloy high strength steel and its production method
US11130161B2 (en) 2016-11-23 2021-09-28 Baoshan Iron & Steel Co., Ltd. High-strength corrosion-resistant composite chequered iron and manufacturing method therefor
CN108085585B (en) * 2016-11-23 2020-05-22 宝山钢铁股份有限公司 High-strength corrosion-resistant composite patterned steel and manufacturing method thereof
CN110168127A (en) * 2017-02-20 2019-08-23 日本制铁株式会社 Steel plate and its manufacturing method
CN106987772B (en) * 2017-04-28 2018-11-30 武汉钢铁有限公司 High-strength fireproof weathering steel and its production method
CA3100847C (en) 2018-05-21 2022-07-12 Jfe Steel Corporation Non-oriented electrical steel sheet and method of producing same
KR102353730B1 (en) * 2019-12-20 2022-01-19 주식회사 포스코 Cold-rolled steel sheet for flux cored wire and manufacturing the same
CN114990436A (en) * 2022-05-25 2022-09-02 鞍钢冷轧钢板(莆田)有限公司 High-hardness cold-rolled sheet for microwave oven and production method thereof

Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN1599802A (en) * 2001-10-04 2005-03-23 新日本制铁株式会社 High-strength thin steel sheet drawable and excellent in shape fixation property and method of producing the same
CN101218362A (en) * 2005-07-07 2008-07-09 住友金属工业株式会社 Non-oriented electromagnetic steel sheet and its manufacturing method

Family Cites Families (13)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP1498507B1 (en) * 2000-05-26 2006-06-28 JFE Steel Corporation Cold-rolled steel sheet and galvanized steel sheet having excellent strain age hardenability and method of producing the same
JP3959934B2 (en) * 2000-05-29 2007-08-15 Jfeスチール株式会社 High-tensile cold-rolled steel sheet excellent in strain age hardening characteristics, impact resistance characteristics and workability, and a method for producing the same
JP2005200712A (en) 2004-01-16 2005-07-28 Nisshin Steel Co Ltd Cold-rolled steel sheet for at plate with reduced residual stress
JP4765388B2 (en) 2005-04-28 2011-09-07 Jfeスチール株式会社 Manufacturing method for cold rolled steel sheet with excellent flatness after punching
JP5070824B2 (en) 2006-11-30 2012-11-14 Jfeスチール株式会社 Cold-rolled steel sheet excellent in flatness and end face properties after punching and method for producing the same
JP5272547B2 (en) * 2007-07-11 2013-08-28 Jfeスチール株式会社 High-strength hot-dip galvanized steel sheet with low yield strength and small material fluctuation and method for producing the same
JP5515732B2 (en) * 2009-12-25 2014-06-11 Jfeスチール株式会社 Method for producing hot-rolled steel sheet without edge cracks and method for producing cold-rolled steel sheet without edge cracks
JP4883216B2 (en) * 2010-01-22 2012-02-22 Jfeスチール株式会社 High-strength hot-dip galvanized steel sheet excellent in workability and spot weldability and method for producing the same
JP5786318B2 (en) * 2010-01-22 2015-09-30 Jfeスチール株式会社 High-strength hot-dip galvanized steel sheet with excellent fatigue characteristics and hole expansibility and method for producing the same
JP5660291B2 (en) * 2010-07-29 2015-01-28 Jfeスチール株式会社 High strength cold-rolled thin steel sheet with excellent formability and method for producing the same
PL2692895T3 (en) * 2011-03-28 2018-07-31 Nippon Steel & Sumitomo Metal Corporation Cold-rolled steel sheet and production method thereof
JP5884714B2 (en) * 2012-01-31 2016-03-15 Jfeスチール株式会社 Hot-dip galvanized steel sheet and manufacturing method thereof
JP2013209727A (en) * 2012-03-30 2013-10-10 Jfe Steel Corp Cold rolled steel sheet excellent in workability and manufacturing method thereof

Patent Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN1599802A (en) * 2001-10-04 2005-03-23 新日本制铁株式会社 High-strength thin steel sheet drawable and excellent in shape fixation property and method of producing the same
CN101218362A (en) * 2005-07-07 2008-07-09 住友金属工业株式会社 Non-oriented electromagnetic steel sheet and its manufacturing method

Also Published As

Publication number Publication date
CN105074039A (en) 2015-11-18
MX2015013941A (en) 2015-12-08
TWI534273B (en) 2016-05-21
KR101717002B1 (en) 2017-03-15
TW201441383A (en) 2014-11-01
KR20150119097A (en) 2015-10-23
WO2014162661A1 (en) 2014-10-09
JP2014201766A (en) 2014-10-27
TW201621061A (en) 2016-06-16
JP5633594B2 (en) 2014-12-03
CN105074039B (en) 2017-03-15

Similar Documents

Publication Publication Date Title
TWI551696B (en) Cold rolled steel sheet and method for producing the same
JP5780013B2 (en) Method for producing non-oriented electrical steel sheet
JP5056876B2 (en) Hot-rolled steel sheet with excellent cold workability and hardenability and method for producing the same
JP4254663B2 (en) High strength thin steel sheet and method for producing the same
JPWO2018179839A1 (en) Hot-pressed member and manufacturing method thereof
JP6423083B2 (en) HPF molded member with excellent bendability and manufacturing method thereof
TWI473887B (en) High strength cold rolled steel sheet having excellent deep drawing property and bake hardening property and a method for manufacturing the same
JP5303856B2 (en) Manufacturing method of high-tensile steel with excellent low-temperature toughness and small strength anisotropy
JP2005290547A (en) High carbon hot-rolled steel sheet having excellent ductility and stretch-flange formability, and production method therefor
WO2013180180A1 (en) High strength cold-rolled steel plate and manufacturing method therefor
JP5939368B1 (en) Steel plate for can and manufacturing method thereof
WO2015181911A1 (en) Hot-rolled steel sheet and production method therefor
JP4962440B2 (en) Manufacturing method of high-strength cold-rolled steel sheet
JP5521931B2 (en) Soft medium carbon steel plate with excellent induction hardenability
TWI427162B (en) Cold rolled steel sheet having excellent formability and shape fixability and method for manufacturing the same
JP5245777B2 (en) Full hard cold rolled steel sheet
WO2016148045A1 (en) Steel sheet for hot pressing and method for producing same
JP3578435B2 (en) Hot-rolled steel sheet for structural use excellent in press formability and surface properties and method for producing the same
JP6950723B2 (en) Manufacturing method of grain-oriented electrical steel sheet
EP3887556B1 (en) Cold rolled annealed steel sheet with high hole expansion ratio and manufacturing process thereof
CN112143962A (en) Non-oriented electrical steel plate with high magnetic induction and low iron loss and manufacturing method thereof
JP5125081B2 (en) Cold-rolled steel sheet with excellent flatness after punching and method for producing the same
JP2013249501A (en) High-strength cold-rolled steel plate with minimized dispersion of mechanical characteristics, and method for manufacturing the same
JP6213098B2 (en) High-strength hot-rolled steel sheet with excellent fatigue characteristics and method for producing the same
JP5927994B2 (en) Hot-rolled steel sheet, method for producing the same and method for producing cold-rolled steel sheet