JP3430926B2 - Steel plate for CRT inner frame and method of manufacturing the same - Google Patents
Steel plate for CRT inner frame and method of manufacturing the sameInfo
- Publication number
- JP3430926B2 JP3430926B2 JP20533698A JP20533698A JP3430926B2 JP 3430926 B2 JP3430926 B2 JP 3430926B2 JP 20533698 A JP20533698 A JP 20533698A JP 20533698 A JP20533698 A JP 20533698A JP 3430926 B2 JP3430926 B2 JP 3430926B2
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- JP
- Japan
- Prior art keywords
- less
- inner frame
- ray tube
- cathode ray
- steel plate
- Prior art date
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Description
【0001】[0001]
【発明の属する技術分野】本発明は、ブラウン管インナ
ーフレーム材 (アパーチャーフレーム材) およびその製
造方法に関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a cathode ray tube inner frame member (aperture frame member) and a method for manufacturing the same.
【0002】[0002]
【従来の技術】ブラウン管のインナーフレーム材は、ア
パーチャーフレーム材とも言われるが( 本明細書ではブ
ラウン管インナーフレーム材という) 、従来型のブラウ
ン管あるいはトリニトロン型のブラウン管に使用され、
それぞれシャドウマスク、アパーチャグリルを保持する
ためのフレームで、次のような工程を経て製作されてい
る。2. Description of the Related Art An inner frame material of a cathode ray tube is also called an aperture frame material (in this specification, referred to as a cathode ray tube inner frame material), but is used for a conventional cathode ray tube or a trinitron type cathode ray tube,
These are frames for holding the shadow mask and aperture grill, respectively, and are manufactured through the following steps.
【0003】鋼板のスリット加工→曲げ加工→歪取焼鈍
→溶接加工→シャドウマスクまたはアパーチャグリル張
り付け→黒化焼鈍
ここで、シャドウマスクあるいはアパーチャグリルを張
り付けた後の黒化焼鈍に際してシャドウマスクあるいは
アパーチャーグリルに変形、歪み、撓みが発生すると、
製品であるブラウン管の色のずれや画像の乱れが発生す
る。通常、このような黒化焼鈍は400 〜500 ℃の温度で
行われるが、このような温度でのフレーム強度、すなわ
ち鋼板の降伏点が低いと変形が起こりやすい。Slitting of steel sheet → Bending → Strain relief annealing → Welding → Shadow mask or aperture grill pasting → Blackening annealing Here, during blackening annealing after pasting a shadow mask or aperture grill, a shadow mask or aperture grill is applied. When deformation, distortion, or bending occurs in
Color deviation of the cathode ray tube as a product and image distortion occur. Usually, such blackening annealing is performed at a temperature of 400 to 500 ° C., but if the frame strength at such a temperature, that is, the yield point of the steel sheet is low, deformation is likely to occur.
【0004】ところで黒化焼鈍の一つの目的は表層に黒
化皮膜を形成することであり、黒化皮膜がブラウン管内
で剥離するとブラウン管の性能が著しく低下するから、
この黒化皮膜の密着性の低下防止は重要である。By the way, one purpose of the blackening annealing is to form a blackening film on the surface layer, and if the blackening film is peeled off in the cathode ray tube, the performance of the cathode ray tube is remarkably deteriorated.
It is important to prevent the adhesion of the blackened film from decreasing.
【0005】さらに、黒化焼鈍は、黒化皮膜を設けるこ
とでブラウン管内での熱輻射の防止や鋼板表層における
赤錆の生成防止を目的としている。鋼板表面に生成した
赤錆はブラウン管内ではガス発生の原因となり、発生し
たガスはブラウン管の性能を著しく低下させるからであ
る。Further, the blackening annealing is intended to prevent the heat radiation in the cathode ray tube and the formation of red rust in the surface layer of the steel sheet by providing the blackening film. This is because the red rust formed on the surface of the steel sheet causes gas generation in the cathode ray tube, and the generated gas significantly deteriorates the performance of the cathode ray tube.
【0006】また、このような黒化焼鈍は、張力を付与
してフレーム材にシャドウマスクあるいはアパーチャー
グリルを張り付けた後に行うが、黒化焼鈍でこの張力が
緩和してしまうと振動等により色ずれを起こす原因とな
る。Further, such blackening annealing is carried out after applying a tension to the frame material and pasting the shadow mask or the aperture grill, but if the tension is relieved by the blackening annealing, color shift due to vibration or the like occurs. Cause to cause.
【0007】従来は、厚肉の鋼板を使用することでこの
ような変形の防止を図ってきたが、最近の傾向としてT
V自体の軽量化に伴いブラウン管の軽量化も求められて
おり鋼板の薄肉化が課題となっている。Conventionally, the use of thick steel plates has been used to prevent such deformation, but a recent trend is that T
Along with the weight reduction of V itself, the weight reduction of the cathode ray tube is also required, and the reduction of the thickness of the steel plate is an issue.
【0008】ところで、従来、このようなブラウン管イ
ンナーフレーム材に用いる材料としては、ステンレス鋼
板のSUS410やSUS403あるいは特開平8−67945 号公報で
開示されたMoを添加した鋼板などが用いられてきた。By the way, conventionally, as a material used for such a cathode ray tube inner frame material, a stainless steel plate such as SUS410 or SUS403, or a steel plate containing Mo disclosed in Japanese Patent Laid-Open No. 8-67945 has been used.
【0009】[0009]
【発明が解決しようとする課題】しかしながら、そのよ
うなステンレス鋼板やMo添加鋼板は、添加する合金元素
が高価なためコスト高となっていた。However, such a stainless steel plate and a Mo-added steel plate are expensive because the alloying elements to be added are expensive.
【0010】よって、本発明の目的は、従来のように高
価な材料を使用することなく、ブラウン管の軽量化を実
現するためのインナーフレーム用鋼板およびその製造方
法を提供することである。Therefore, an object of the present invention is to provide a steel plate for an inner frame and a manufacturing method thereof for realizing the weight reduction of a cathode ray tube without using an expensive material as in the prior art.
【0011】本発明のより具体的な目的は、室温強度40
0MPa以上、460 ℃降伏点200MPa以上であって、90度曲げ
試験で割れ発生のないこと、あるいはTIG 溶接試験で溶
接速度20cm/minでブローホールが発生しない優れた曲げ
特性および溶接性を示す、Mo、Niなどの高価な合金元素
を含有することのないインナーフレーム用鋼板およびそ
の製造方法を提供することである。A more specific object of the present invention is room temperature strength of 40.
It has excellent bending properties and weldability, such as 0 MPa or more, 460 ℃ yield point of 200 MPa or more, no crack generation in 90 degree bending test, or blow hole generation in TIG welding test at welding speed of 20 cm / min. An object of the present invention is to provide a steel plate for an inner frame that does not contain expensive alloying elements such as Mo and Ni, and a manufacturing method thereof.
【0012】[0012]
【課題を解決するための手段】ここに、本発明者らは、
ブラウン管インナーフレーム用としては、プレス成形
性、溶接性、強度、さらに黒化焼鈍特性 (密着性に優れ
た黒化皮膜を形成し、焼鈍に際しての熱サイクルによっ
て応力の緩和が生じないこと) を満足する必要があり、
そのためには、C、Si、Mnの関係をHere, the present inventors
For cathode ray tube inner frame, it satisfies press formability, weldability, strength, and blackening annealing characteristics (forms a blackened film with excellent adhesion and does not cause stress relaxation due to the heat cycle during annealing). Must be
For that purpose, the relationship of C, Si, Mn
【0013】[0013]
【数1】 [Equation 1]
【0014】のように規定した上で、Nb、V、Ti、Wの
少なくとも一種を添加することが有効であることを知
り、本発明を完成した。特に、本発明によれば、Mo、Ni
を添加することを要しないため、材料コストを安価なも
のとすることができ、その実用上の意義は大きい。The present invention has been completed, knowing that it is effective to add at least one of Nb, V, Ti and W after the above definition. Particularly, according to the present invention, Mo, Ni
Since not require the addition of, it can be a material co be sampled inexpensive, their practical significance is great.
【0015】ここに、本発明は次の通りである。
(1)重量%で、C:0.005 〜0.3 % (ただし0.0050%の
場合は除く) 、Si:0.1 〜1.0 %、Mn:0.5 〜2.0 %、
酸可溶Al:0.1 %以下、P:0.15%以下、S:0.03%以
下、かつNb:1.0 %以下、V:1.0 %以下、Ti:1.0 %
以下、およびW:1.0 %以下から成る群から選んだ1種
または2種以上を含み、かつ上記式(1) を満足し、残部
Feおよび不可避不純物より成る鋼組成を有するブラウン
管インナーフレーム用鋼板。The present invention is as follows. (1) in weight%, C: 0.005 ~ 0.3% ( although the 0.0050%
(Except for the case) , Si: 0.1-1.0%, Mn: 0.5-2.0%,
Acid-soluble Al: 0.1% or less, P: 0.15% or less, S: 0.03% or less
Lower and Nb: 1.0% or less, V: 1.0% or less, Ti: 1.0%
The following, and W: 1.0% or less, containing one or more selected from the group consisting of, and satisfying the above formula (1), the balance
A steel plate for a cathode ray tube inner frame having a steel composition consisting of Fe and inevitable impurities.
【0016】(2)前記鋼組成が、さらに、B:0.005 %
以下を含有する、上記(1) 記載のブラウン管インナーフ
レーム用鋼板。 (2) The steel composition further comprises B: 0.005%
Containing the following, (1) Symbol placement CRT inner frame steel plate.
【0017】(3)上記(1) または(2) のいずれかに記載
の鋼組成を有するスラブを熱間圧延後、熱間圧延ままあ
るいは熱延板に焼鈍を施してから冷間圧延を行った後、
強度調整のための仕上げ焼鈍を行い、次いで、0.1 〜10
%のスキンパス圧延を行うことを特徴とするブラウン管
インナーフレーム用鋼板の製造方法。 (3) After hot rolling the slab having the steel composition according to any one of (1) or (2 ) above, cold rolling is performed as hot rolling or after annealing the hot rolled sheet. After
Finish annealing for strength adjustment, then 0.1 ~ 10
% Skin pass rolling is performed to manufacture a steel sheet for a cathode ray tube inner frame.
【0018】[0018]
【発明の実施の形態】このように本発明の特徴とすると
ころは、Mo、Niを添加しない前述の所定成分よりなる鋼
組成にあり、また別の面からは、そのような鋼組成をも
ったスラブを熱間圧延後、酸洗しスキンパス圧延を行う
こと、または熱間圧延後、酸洗し冷間圧延、あるいは熱
延板焼鈍を行って冷間圧延を行ったのち仕上焼鈍を行っ
てから、スキンパス圧延を行うことにある。本発明にお
ける鋼組成および製造条件の限定理由は以下に示す。BEST MODE FOR CARRYING OUT THE INVENTION Thus, the feature of the present invention resides in the steel composition consisting of the above-mentioned predetermined components to which Mo and Ni are not added. From another aspect, such a steel composition has After slab hot rolling, pickling and skin pass rolling, or after hot rolling, pickling and cold rolling, or hot-rolled sheet annealing and cold rolling followed by finish annealing. Therefore, it is to carry out skin pass rolling. The reasons for limiting the steel composition and manufacturing conditions in the present invention are shown below.
【0019】鋼組成の限定理由:
Cは強度確保に有効な元素であるが、0.3 %を超えて含
有するとフレーム組立時加工時の溶接が困難となるため
0.3 %以下とする。0.005 〜0.3 % (ただし0.0050%の
場合は除く) である。好ましくは、0.005 〜0.25%であ
る。Reasons for limiting the steel composition: C is an element effective for securing strength, but if it is contained in an amount exceeding 0.3%, it becomes difficult to perform welding during processing during frame assembly.
0.3% or less. 0.005-0.3% (however 0.0050%
(Excluding cases). Preferably, it is 0.005 to 0.25%.
【0020】Siは強度確保に有効な元素であり、0.1 %
以上添加するが、1.0 %を超えて含有させると黒化焼鈍
後の黒化皮膜の密着性が悪くなるため、0.1 〜1.0 %と
した。好ましくは、0.1 〜0.9 %である。Si is an element effective in securing strength, and is 0.1%.
Although added above, if the content exceeds 1.0%, the adhesion of the blackened film after blackening annealing deteriorates, so the content was made 0.1 to 1.0%. It is preferably 0.1 to 0.9%.
【0021】Mnは強度確保に有効な元素であり、0.5 %
以上添加するが、2.0 %を超えて添加すると冷間圧延や
組立加工が困難となるため、0.5 〜2.0 %以下とした。
好ましくは、0.2 〜2.0 %である。Mn is an element effective in securing strength, and 0.5%
Although it is added above, if it is added in excess of 2.0%, cold rolling and assembling work become difficult, so the content was made 0.5 to 2.0% or less.
Preferably, it is 0.2 to 2.0%.
【0022】C、Si、Mnの関係式:本発明にあっては、
前述のようにブラウン管インナーフレーム用として、プ
レス成形性、溶接性、強度、さらに黒化焼鈍特性( 密着
性に優れた黒化皮膜を形成し、焼鈍に際しての熱サイク
ルによって応力の緩和が生じないこと) をいずれも満足
する必要があり、そのためには、下記式(1) の関係を満
足する必要がある。Relational expression of C, Si and Mn: In the present invention,
As described above, for CRT inner frames, press moldability, weldability, strength, and blackening annealing characteristics (A blackening film with excellent adhesion is formed, and stress relaxation does not occur due to the thermal cycle during annealing. ) Must be satisfied, and for that purpose, the relationship of the following equation (1) must be satisfied.
【0023】[0023]
【数1】 [Equation 1]
【0024】かかる関係は、強度向上には有効だが、溶
接性、黒化処理性には好ましくないC、P、Siと、一
方、溶接性、黒化処理性を損なわなず、強度向上に有効
なMnとの比率を求めたところ、該比率が 0.5〜10.0の範
囲内にあって、好ましくは0.8〜6.5 の範囲内にあっ
て、従来のMo添加鋼に同等またはそれ以上の優れた特性
を発揮することが判明した。なお、従来例にあっては、
上記式の値はC、P、Siの含有量を下げることで溶接
性、黒化処理性を高め、一方強度向上には積極的にMnを
添加するとの考えから、0.5 以下が好ましいと考えられ
ていた。This relationship is effective for improving strength, but is not preferable for weldability and blackening treatment, and is C, P, and Si. On the other hand, it is effective for improving strength without impairing weldability and blackening treatment. When the ratio with Mn is calculated, the ratio is within the range of 0.5 to 10.0, preferably within the range of 0.8 to 6.5, and shows excellent characteristics equal to or higher than those of conventional Mo-added steel. It turned out to work. In addition, in the conventional example,
The value of the above formula is considered to be preferably 0.5 or less from the viewpoint that the weldability and the blackening treatment property are improved by reducing the contents of C, P and Si, while Mn is positively added to improve the strength. Was there.
【0025】Sはブラウン管中にガスを発生させる原因
となる介在物を生成させるため0.03%以下とした。酸可
溶Alは強度確保に有効な元素であるが、0.1 %を超えて
含有すると黒化焼鈍後の黒化皮膜の密着性が悪くなるた
め、0.1 %以下とした。好ましくは、0.01〜0.1 %であ
る。S is made 0.03% or less in order to form inclusions that cause generation of gas in the cathode ray tube. Acid-soluble Al is an element effective in securing strength, but if it is contained in excess of 0.1%, the adhesion of the blackened film after blackening and annealing deteriorates, so the content was made 0.1% or less. It is preferably 0.01 to 0.1%.
【0026】Pは強度確保するために重要な元素である
が、0.15%を超えて含有すると組立加工時の溶接性が悪
くなるため0.15%以下とした。本発明にあっては、上述
のような鋼組成において、さらにNb、V 、Ti、およびW
の群から選んだ少なくとも一種を添加する。P is an important element for ensuring the strength, but if it is contained in excess of 0.15%, the weldability during assembly is deteriorated, so the content is set to 0.15% or less. In the present invention, in the steel composition as described above, Nb, V 2, Ti, and W are further added.
Add at least one selected from the group.
【0027】Nbは炭化物を析出することで高温強度が上
昇し、黒化焼鈍時の変形を防止するのに効果がある。し
かし、1.0 %を超えて添加すると加工性、溶接性が悪化
するので1.0 %とした。望ましくは0.5 %以下である。Nb increases the high temperature strength by precipitating carbides and is effective in preventing deformation during blackening annealing. However, if added in excess of 1.0%, workability and weldability deteriorate, so it was set to 1.0%. It is preferably 0.5% or less.
【0028】V、Ti、Wはいずれも炭化物を析出するこ
とで高温強度が上昇するが、1.0 %を超えて添加すると
加工性、溶接性が悪化するので1.0 %以下とした。望ま
しくは0.5 %以下である。V, Ti, and W all increase the high temperature strength due to the precipitation of carbides, but if added in excess of 1.0%, the workability and weldability deteriorate, so they were made 1.0% or less. It is preferably 0.5% or less.
【0029】本発明の別の態様によれば、さらにCrまた
はB を上述の鋼組成に添加するようにしてもよい。Crは
高温での強度確保に有効な元素であるが過度の添加はコ
スト高となるので5.0 %以下とした。According to another aspect of the invention, further Cr or B may be added to the above steel composition. Cr is an element effective in securing strength at high temperatures, but excessive addition increases cost, so the content was made 5.0% or less.
【0030】Bは結晶粒界を強化し高温強度を高める効
果があるが0.005 %を超える添加は鋼の脆化を招くので
0.005 %以下とした。本発明のフレーム用鋼板を製造す
るには通常の熱間圧延を行い、そのまま酸洗の前あるい
は酸洗後にスキンパス圧延を行う。B has the effect of strengthening the grain boundaries and increasing the high temperature strength, but addition of more than 0.005% causes embrittlement of the steel.
It was set to 0.005% or less. In order to manufacture the steel plate for a frame of the present invention, ordinary hot rolling is performed, and skin pass rolling is performed as it is before or after pickling.
【0031】スキンパス圧延は0.1 %未満では平坦修正
の効果がなく、一方10%を超えると冷間圧延となり強度
が高くなり、伸びが低下することで組立加工が困難にな
り、焼鈍後の変形も起こるため10%以下とする。If the skin pass rolling is less than 0.1%, there is no effect of flatness correction, while if it exceeds 10%, it becomes cold rolling and the strength becomes high, and the elongation decreases, making the assembly process difficult and causing the deformation after annealing. Since it will occur, it should be 10% or less.
【0032】別法として、熱間圧延後に、冷間圧延を行
う場合には、熱延板にあるいはさらに焼鈍を行った熱延
板に冷間圧延を行う。冷間圧延後は加工硬化により、強
度が著しく上昇するため、仕上げ焼鈍が必要となる。通
常、600 ℃未満では強度が高過ぎ加工性が改善されず、
850 ℃を超えると粒界酸化などが発生し加工時割れを引
き起こすので好ましくは600 〜850 ℃で仕上げ焼鈍を行
う。かかる仕上げ焼鈍後に、前述のスキンパス圧延を行
う。Alternatively, when cold rolling is performed after hot rolling, cold rolling is performed on the hot rolled sheet or on the annealed hot rolled sheet. After cold rolling, work hardening causes a marked increase in strength, so that finish annealing is required. Generally, if it is less than 600 ° C, the strength is too high and the workability is not improved.
If the temperature exceeds 850 ° C, grain boundary oxidation or the like occurs and causes cracking during working, so the finish annealing is preferably performed at 600 to 850 ° C. After such finish annealing, the above-mentioned skin pass rolling is performed.
【0033】[0033]
【実施例】[実施例1]表1に示した化学成分で残部不可
避不純物よりなる鋼組成のスラブ(227mm厚、1000mm幅)
を1250℃に加熱し仕上温度880 ℃、巻取温度500 ℃の通
常の熱間圧延を行い6.0 mm厚の熱延コイルに仕上げた。
一部について表2に示したプロセスにより冷間圧延、仕
上げ焼鈍を行った。冷延コイルの板厚は2〜3.6 mmであ
った。[Example] [Example 1] A slab (227 mm thick, 1000 mm wide) of a steel composition having the chemical composition shown in Table 1 and the balance being unavoidable impurities
Was heated to 1250 ° C and subjected to normal hot rolling at a finishing temperature of 880 ° C and a coiling temperature of 500 ° C to finish a hot rolled coil with a thickness of 6.0 mm.
Cold rolling and finish annealing were performed on some of them by the process shown in Table 2. The plate thickness of the cold rolled coil was 2 to 3.6 mm.
【0034】表2に示した圧下率でのスキンパス圧延を
行い、フレーム材としての評価のために90度曲げ試験、
TIG溶接試験を行い、また、530 ℃での歪取焼鈍後に
JISZ2201 に規定された5号試験片でのJIS Z2241 によ
る室温強度と、JIS G0567 による460 ℃での高温強度の
測定を行った。結果は表2にまとめて示す。Skin pass rolling was carried out at the rolling reduction shown in Table 2, and a 90-degree bending test was conducted for evaluation as a frame material.
Performed TIG welding test and after strain relief annealing at 530 ℃
The room temperature strength according to JIS Z2241 and the high temperature strength at 460 ° C. according to JIS G0567 were measured on the No. 5 test piece specified in JIS Z2201. The results are summarized in Table 2.
【0035】[0035]
【表1】 [Table 1]
【0036】[0036]
【表2】 [Table 2]
【0037】表1および表2において、比較例No.13 、
14は、特開平8−67945 号公報に開示されている鋼組成
の例であって、Mo添加鋼の例を示す。これらの従来例
は、本発明の式(1) の関係を満足しないが、Moを含有し
ていることから、また、板厚が6.0mm であることから、
本発明と同等の効果を発揮する。換言すれば、本発明
は、板厚が従来の83%であるにもかかわらず、またMo、
Crなどの高価な合金元素を多量に含有していないにもか
かわらず、従来例と同等あるいはそれ以上の作用効果を
発揮できる。In Tables 1 and 2, Comparative Example No. 13,
No. 14 is an example of the steel composition disclosed in JP-A-8-67945, and shows an example of a Mo-added steel. These conventional examples do not satisfy the relationship of the formula (1) of the present invention, but since they contain Mo, and since the plate thickness is 6.0 mm,
The same effect as the present invention is exhibited. In other words, the present invention, even though the plate thickness is 83% of the conventional,
Even though it does not contain a large amount of expensive alloying elements such as Cr, it is possible to exhibit the same or higher effect as the conventional example.
【0038】[0038]
【発明の効果】以上説明してきたように、本発明によれ
ば、鋼組成としてMo等の高価な合金元素を含有させるこ
となく、従来例と同等かそれ以上の優れた特性を備えた
ブラウン管インナーフレーム用鋼板が得られ、その実際
上の意義は大きい。As described above, according to the present invention, a cathode ray tube inner tube having excellent characteristics equal to or higher than those of the conventional example without containing an expensive alloying element such as Mo as a steel composition. A steel plate for a frame is obtained, and its practical significance is great.
フロントページの続き (72)発明者 田口 博通 神奈川県厚木市岡田4丁目16番1号 ソ ニー株式会社厚木第2テクノロジーセン ター内 (56)参考文献 特開 平10−158788(JP,A) 特開 平8−67945(JP,A) 特開 平4−341541(JP,A) 特開 昭62−185828(JP,A) (58)調査した分野(Int.Cl.7,DB名) C22C 38/00 - 38/60 C21D 9/46 Front page continuation (72) Inventor Hiromichi Taguchi 4-16-1 Okada, Atsugi City, Kanagawa Prefecture, Sony Atsugi 2nd Technology Center (56) References Japanese Patent Laid-Open No. 10-158788 (JP, A) Kaihei 8-67945 (JP, A) JP 4-341541 (JP, A) JP 62-185828 (JP, A) (58) Fields investigated (Int.Cl. 7 , DB name) C22C 38 / 00-38/60 C21D 9/46
Claims (3)
0.0050%の場合は除く) 、Si:0.1 〜1.0 %、 Mn:0.5 〜2.0 %、酸可溶Al:0.1 %以下、P:0.15%
以下、S:0.03%以下、かつNb:1.0 %以下、V:1.0
%以下、Ti:1.0 %以下、およびW:1.0 %以下から成
る群から選んだ1種または2種以上を含み、 かつ下記式を満足し、 【数1】 残部Feおよび不可避不純物より成る鋼組成を有するブラ
ウン管インナーフレーム用鋼板。1. C: 0.005 to 0.3% by weight% (however,
(Except 0.0050% ) , Si: 0.1 to 1.0%, Mn: 0.5 to 2.0%, acid-soluble Al: 0.1% or less, P: 0.15%
Below, S: 0.03% or less, Nb: 1.0% or less, V: 1.0
% Or less, Ti: 1.0% or less, and W: 1.0% or less, including one or more selected from the group, and satisfying the following formula, A steel plate for a cathode ray tube inner frame having a steel composition consisting of balance Fe and inevitable impurities.
下を含有する、請求項1記載のブラウン管インナーフレ
ーム用鋼板。Wherein said steel composition further, B: containing 0.005% or less, the steel sheet for a cathode ray tube inner frame according to claim 1 Symbol placement.
スラブを熱間圧延後、熱間圧延まま、または熱延板に焼
鈍を施してから、あるいは焼鈍を施さず冷間圧延を行っ
た後、強度調整のための仕上げ焼鈍を行い、次いで、0.
1 〜10%のスキンパス圧延を行うことを特徴とするブラ
ウン管インナーフレーム用鋼板の製造方法。3. A slab having the steel composition according to claim 1 or 2 is hot-rolled, then hot-rolled as it is, or after hot-rolled sheet is annealed, or cold-rolled without being annealed. After that, finish annealing for strength adjustment is performed, and then 0.
A method for manufacturing a steel plate for a cathode ray tube inner frame, characterized by performing 1 to 10% skin pass rolling.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP20533698A JP3430926B2 (en) | 1998-07-21 | 1998-07-21 | Steel plate for CRT inner frame and method of manufacturing the same |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP20533698A JP3430926B2 (en) | 1998-07-21 | 1998-07-21 | Steel plate for CRT inner frame and method of manufacturing the same |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| JP2000038641A JP2000038641A (en) | 2000-02-08 |
| JP3430926B2 true JP3430926B2 (en) | 2003-07-28 |
Family
ID=16505234
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| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP20533698A Expired - Fee Related JP3430926B2 (en) | 1998-07-21 | 1998-07-21 | Steel plate for CRT inner frame and method of manufacturing the same |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JP3430926B2 (en) |
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| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JP5365997B2 (en) * | 2008-04-09 | 2013-12-11 | 日立金属株式会社 | Method for producing stainless steel strip for blades |
| CN105734443A (en) * | 2016-05-04 | 2016-07-06 | 芜湖市爱德运输机械有限公司 | High-speed bucket elevator |
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- 1998-07-21 JP JP20533698A patent/JP3430926B2/en not_active Expired - Fee Related
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| Publication number | Publication date |
|---|---|
| JP2000038641A (en) | 2000-02-08 |
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