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JPS6274693A - Aluminum alloy support for offset print - Google Patents

Aluminum alloy support for offset print

Info

Publication number
JPS6274693A
JPS6274693A JP21463085A JP21463085A JPS6274693A JP S6274693 A JPS6274693 A JP S6274693A JP 21463085 A JP21463085 A JP 21463085A JP 21463085 A JP21463085 A JP 21463085A JP S6274693 A JPS6274693 A JP S6274693A
Authority
JP
Japan
Prior art keywords
printing
plate
resistance
aluminum
support
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
JP21463085A
Other languages
Japanese (ja)
Other versions
JPH0473392B2 (en
Inventor
Yasuhisa Nishikawa
西川 泰久
Chukei Kato
加藤 忠敬
Misako Kawasaki
川崎 美佐子
Kazunari Takizawa
滝沢 一成
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Fujifilm Holdings Corp
Nippon Light Metal Co Ltd
Original Assignee
Nippon Light Metal Co Ltd
Fuji Photo Film Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Nippon Light Metal Co Ltd, Fuji Photo Film Co Ltd filed Critical Nippon Light Metal Co Ltd
Priority to JP21463085A priority Critical patent/JPS6274693A/en
Priority to CA000514487A priority patent/CA1287013C/en
Priority to US06/888,255 priority patent/US4729939A/en
Priority to DE8686305706T priority patent/DE3665199D1/en
Priority to EP86305706A priority patent/EP0211574B1/en
Publication of JPS6274693A publication Critical patent/JPS6274693A/en
Publication of JPH0473392B2 publication Critical patent/JPH0473392B2/ja
Granted legal-status Critical Current

Links

Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B41PRINTING; LINING MACHINES; TYPEWRITERS; STAMPS
    • B41NPRINTING PLATES OR FOILS; MATERIALS FOR SURFACES USED IN PRINTING MACHINES FOR PRINTING, INKING, DAMPING, OR THE LIKE; PREPARING SUCH SURFACES FOR USE AND CONSERVING THEM
    • B41N1/00Printing plates or foils; Materials therefor
    • B41N1/04Printing plates or foils; Materials therefor metallic
    • B41N1/08Printing plates or foils; Materials therefor metallic for lithographic printing
    • B41N1/083Printing plates or foils; Materials therefor metallic for lithographic printing made of aluminium or aluminium alloys or having such surface layers

Landscapes

  • Printing Plates And Materials Therefor (AREA)

Abstract

PURPOSE:To obtain excellent strength, burning resistance and grip resistance by containing specific rates of Si, Mg, Zr, and containing most residue of aluminum. CONSTITUTION:0.05-0.7wt% Si, 0.05-3wt% Mg, 0.01-0.25wt% Zr, and the residue of aluminum and unavoidable impurities are contained. Si, Mg provide supporting strength and grip resistance, and obtain uniform grains in electrochemical roughness. 0.01wt% or larger of Zr prevents Mg2Si from increasing to precipitate when a rolling material is finally heat-treated, provides uniformity in the roughness and printing adaptability and improves burning resistance. Further, if Zr exceeds the upper limit of 0.25wt%, it avoids the irregularity of crystal tissue at hot rolling time, thereby eliminating the generation of crystal grain streak.

Description

【発明の詳細な説明】 「発明の目的」 不発明はオフセット印刷用アルミニウム合金支持体の創
案に係り、適切な表面処理性と印刷適性を保有しつつ支
持体の強度、耐バーニング性と共に耐くわ見切れ性が倒
れも優れたオフセット印刷用アルミニウム合金支持体を
提供しようとするものである。
Detailed Description of the Invention ``Object of the Invention'' The invention relates to the creation of an aluminum alloy support for offset printing, which has adequate surface treatment properties and printability, as well as strength and burning resistance, as well as durability. It is an object of the present invention to provide an aluminum alloy support for offset printing that has excellent cutting properties and is excellent in falling.

産業上の利用分野 強度、耐バーニング性と共に耐くわ見切れ性の何れにお
いても優れたオフセット印刷用アルミニウム合金支持体
Industrial applications: An aluminum alloy support for offset printing that is excellent in strength, burn resistance, and hoe cut resistance.

従来の技術 オフセット印刷用アルミニウム合金支持体は従来から知
られている。即ち一般にアルミニウムおよびアルミニウ
ム合金は@量で加工性に優れ、しかも表面処理性が良好
であるからオフセット印刷用支持体に適し、特にJIS
1050(純度99.5−以上の成)、JISIloo
(純度99.0%以上のAffi)、JIS3003(
At−0、05〜0.2%Cu−1,0〜1.5Mn合
金)等のアルミニウムないしアルミニウム合金(以下単
にアルミニウム合金という)が広く採用されている。
BACKGROUND OF THE INVENTION Aluminum alloy supports for offset printing are known in the art. In other words, in general, aluminum and aluminum alloys have excellent workability and good surface treatment properties, so they are suitable as supports for offset printing, and are particularly suitable for JIS
1050 (purity of 99.5- or higher), JISIloo
(Affi with purity of 99.0% or more), JIS3003 (
Aluminum or aluminum alloys (hereinafter simply referred to as aluminum alloys) such as At-0, 05-0.2% Cu-1, 0-1.5Mn alloy) are widely used.

これらのアルミニウム合金は製板後、その表面を@械的
方法、化学的方法又は電気化学的方法の倒れか1つ又は
2つ以上を組合わせた工程によって粗面化し且つ陽極酸
化処理を行ってから、その板面に感光性組成物(一般的
には感光性樹脂)を塗布、乾燥させ、所謂28版に加工
される。次いでこの28版に画像露光、現像、水洗およ
びガム引き等の製版処理を施して印刷原版を製作するが
、この画像露光により前記感光性樹脂層の減光部分と未
露光部分との間に後続現像処理における現1確液に対す
る溶解性に差を生じ、該現像処理にエリ前記露光部分と
未露光部分の何れか一方が現儂液中に溶解或いは脱膜し
、他方は支持体たるアルミニウム板上に残存して画像を
形成する。前記画像部分がインキ受容性を呈し、又上述
の如く感光性樹脂が溶解脱膜した非1i1i+像部分は
親水性のアルミニウム支持体表面が露出して水受容性を
呈する。
After these aluminum alloys are made into plates, their surfaces are roughened by mechanical, chemical, or electrochemical methods, or by a process that combines one or more of these methods, and then anodized. Then, a photosensitive composition (generally a photosensitive resin) is applied to the plate surface, dried, and processed into a so-called 28 plate. Next, this 28 plate is subjected to plate-making processes such as image exposure, development, water washing, and gumming to produce a printing original plate, but this image exposure creates a subsequent layer between the light-reduced area and the unexposed area of the photosensitive resin layer. There is a difference in solubility in the developer solution during the development process, and during the development process, either the exposed area or the unexposed area dissolves in the developer solution or the film is removed, and the other one dissolves in the aluminum plate serving as the support. It remains on top and forms an image. The image area exhibits ink receptivity, and the non-1i1i+ image area where the photosensitive resin is dissolved and removed as described above exhibits water receptivity because the surface of the hydrophilic aluminum support is exposed.

次いで上記印刷原版の両端部を折曲げ加工して印刷機へ
のくわえ込み部を形成し、印刷機の円筒形版胴に固定せ
しめ、その版面に湿し水(水ないし水性液)を供給する
ことKよって非d+i像部に!湿し水の皮膜を保持させ
、他方1[!II像部分にはインキを供給付着させ、こ
の画像部に付着されたインキをブランケット胴に転写し
たのち紙面等に転写する、という工程を繰返すことによ
って印刷が行われる。この印刷は支持体上に塗布され友
感光性組成物を適当に通釈することに工り一般的に10
万枚にも及ぶ良好な印刷物を得ることが可能であり、更
にそれ以上の多数印刷物を得たい(耐刷性の向上)とい
う要望に対しては前記製版工程において、28版を常法
で露光、現像処理した後、高温で加熱処理(バーニング
処理と称され、通′に200〜280℃で3〜7分機度
加熱)することによりm7部を強化することが行われる
Next, both ends of the printing original plate are bent to form a gripping part for the printing press, and fixed to the cylindrical plate cylinder of the printing press, and dampening water (water or aqueous liquid) is supplied to the plate surface. Because of K, it becomes a non-d+i image part! The film of dampening solution is retained, and the other 1 [! Printing is performed by repeating the steps of supplying ink to the image area II, transferring the ink adhering to the image area to a blanket cylinder, and then transferring it to a paper surface or the like. This printing is applied to a support and is applied to a photosensitive composition which is coated onto a support to suitably pass through the photosensitive composition.
It is possible to obtain as many as 10,000 good-quality prints, and in response to the desire to obtain even more prints (improvement of printing durability), 28 plates are exposed in the conventional manner in the plate-making process. After development, the m7 portion is strengthened by heat treatment at high temperature (referred to as burning treatment, commonly heated at 200 to 280° C. for 3 to 7 minutes).

ところが近年における印刷技術の進歩に伴い印刷速度が
上昇し、印刷機版胴の両端に機械的に固定される印刷版
に加わる応力が増加したことにより前記支持体に対する
強度要求が大となり、この支持体強度が不足する場合に
はその固定部分が変形又は破損して印刷ずれなどの障害
を来し、このような支持体強度の向上および耐バーニン
グ性(バーニング処理時における支持体強度の低下を抑
える耐熱性)の向上が不可欠でるる。aち前記のように
版胴に固定された印刷版の折曲くわえ部はブランケット
胴との接触により繰返し応力を受は疲労破壊現象(くわ
え切れという)を生じ、又バーニング処理においてその
処理条件に適切に耐えることが必要で、これらの何れか
一方において不充分なものはその耐用性において欠けた
ものとならざるを得ない。
However, with advances in printing technology in recent years, printing speeds have increased and the stress applied to the printing plate, which is mechanically fixed to both ends of the printing press cylinder, has increased, resulting in increased strength requirements for the support. If the support strength is insufficient, the fixed part may be deformed or damaged, causing problems such as printing misalignment. It is essential to improve heat resistance. As mentioned above, the bending grip part of the printing plate fixed to the plate cylinder is subjected to repeated stress due to contact with the blanket cylinder, resulting in a fatigue fracture phenomenon (referred to as grip breakage), and also due to the processing conditions during the burning process. It is necessary to have adequate durability, and if any one of these is insufficient, the durability will inevitably be lacking.

そこでこの工うな関係についても考nLtなし、本出願
人側において特開昭59−153861号公報のような
技術を提案している。即ちこの技術はジルコニウムを0
.02〜0.20 wt%含有したアルミニウム合金支
持体でおる。
Therefore, without considering this complicated relationship, the present applicant has proposed a technique as disclosed in Japanese Patent Application Laid-open No. 153861/1983. In other words, this technology reduces zirconium to 0.
.. The aluminum alloy support contains 0.02 to 0.20 wt%.

又これとは別に英国特許!1421710号明細薔にお
いては、マグネシウム0.4〜1.2wtチと、シリコ
ン0.5〜1.5wt%およびマンガンo、 o o 
s〜0.4wt%、鉄: 0.05〜0.5wt%を含
有したアルミニウム合金支持体が提案されてお吟、支持
体強度と耐〈わ見切れ性の改善に対して好ましいものと
されている。
Also, apart from this, there is a British patent! No. 1421710 specification rose contains 0.4 to 1.2 wt% of magnesium, 0.5 to 1.5 wt% of silicon, and manganese o, o o
An aluminum alloy support containing s~0.4wt% and iron: 0.05~0.5wt% has been proposed and is considered preferable for improving support strength and breakage resistance. There is.

発明が解決しようとする間瑣点 然し上記した工うな従来のものにおいて前述したような
要請に適切に即応できない。即ちJIS1050による
ものは′IV1.気化学的粗而化処理において均一な粗
面や適切な表面粗さを得しめ、印刷中に非画像部に汚れ
が生じ難いが、支持体gi度が硝不足し、耐バーニング
性お工び耐くわえ切れ性に劣る。又JIS3003によ
るものは過当な支持体強度、耐バーニング性お工び耐く
わえ切れ性を有するが、電気化学的粗面化処理によって
均一な粗面−′P適切な表面粗さが得られず、災に印刷
中に非画像部の汚れも生じ易い。
Although the invention aims to solve the trivial problem, the above-mentioned methods cannot adequately meet the above-mentioned requirements in the conventional methods. That is, the one according to JIS1050 is 'IV1. Although a uniform rough surface and appropriate surface roughness can be obtained through vapor chemical roughening treatment, and stains are less likely to occur in non-image areas during printing, the gi of the support is insufficient and the burn resistance is poor. Poor grip and cut resistance. In addition, those according to JIS 3003 have excessive support strength, burn resistance, and grip resistance, but uniform roughness cannot be obtained by electrochemical roughening treatment. Unfortunately, stains in non-image areas also tend to occur during printing.

これらの問題点に対処するための%開昭59−1538
61号公報によるものでは′、ヲれた表向処理性と印刷
適性を保有し、又耐バーニング性が改善されたものの、
支持体の強度レベルにおいては憤然として前記JIS1
050相当レベルのものでめることが確認された。
To deal with these problems, 1538
Although the product according to Publication No. 61 had superior surface treatment properties and printability, and had improved burning resistance,
Regarding the strength level of the support, the JIS 1
It was confirmed that it can be used with something equivalent to 050.

又英国特許第1421710号明t@書によるものは氏
程支持体強度お工び耐くわ見切れ性が改善されていると
しても、印刷適性、叩ち具体的には印刷中における非画
像部の汚れにおいては不充分であって、この非画像部の
汚れは印刷中に湿し水に装態している印刷版の非++!
j 11部にインキが付41 して印刷物に転写される
現象であるからオフセット印刷目的においては大きな不
利点とならざるを得ない。
In addition, although the product according to British Patent No. 1421710 has improved support strength and hoeing resistance, it has problems with printability, specifically, staining of non-image areas during printing. This stain in the non-image area is caused by the non-++!
Since this is a phenomenon in which ink is 41 attached to the 11 parts and transferred to the printed matter, this is a major disadvantage for offset printing purposes.

つまりオフセット印刷用アルミニウム合金支持体として
は上記したような各特性が何れもバランスして高<4持
されることが枢要であって、その一部の特注のみににれ
ていることでは勿論、大部分を具備していても一部にお
いて劣るならば鮮明な印刷を得、その耐用性を高くする
この櫨支持体としての工業的価値はその劣った特性に1
って制限されざるを得ないものであって、全般的には依
然として問題を残すこととならざるを得ない。
In other words, it is important for an aluminum alloy support for offset printing to have all of the above-mentioned properties in balance and maintain a high level of <4. Even if it has most of the characteristics, if it is inferior in some parts, the industrial value of this oak support, which can obtain clear printing and increase its durability, is due to its inferior characteristics.
However, there is no choice but to limit this, and overall problems still remain.

特に印刷中における非画像部の汚れを生じ難くするなめ
には非画像部の保水性と耐食性を向上することがilr
要でろり、そのためには粗面化処理、特に、胱気化学的
徂面化処理によって従来Lすも潰れた粗面の均一性と健
全な陽極酸化皮嗅を得る必要がろる。
In particular, in order to prevent stains in non-image areas during printing, it is necessary to improve the water retention and corrosion resistance of non-image areas.
In order to achieve this, it is necessary to obtain the uniformity of the conventionally crushed rough surface and the appearance of a healthy anodized skin by means of surface roughening treatment, particularly pneumochemical deepening treatment.

発明の傳戎 問題点を解決するだめの手段 Si:0.05〜0.7wt% Mg : 0.05〜3 wt% Zr : Ll、01〜0.25 wt%を含有し、残
部がアルミニウム文び不可避的不純q勿から成ることを
!特徴とするオフセット印刷用アルミニウム合金支持体
Means for solving the problems of the invention Si: 0.05 to 0.7 wt% Mg: 0.05 to 3 wt% Zr: Ll, containing 01 to 0.25 wt%, the balance being aluminum Consisting of unavoidable impurities! Features: Aluminum alloy support for offset printing.

作用 Sl : 0.05〜0.7 wt%+ Mg : 0
.05〜3 wt 4を含有させることに工す支持体強
度および耐くわ見切れ性1r確保し、しかも電気化学的
粗面化処理における均一な砂目を得しめる。
Action Sl: 0.05-0.7 wt%+Mg: 0
.. By containing 05-3 wt 4, the support strength and hoe breakage resistance 1r are ensured, and a uniform grain is obtained in electrochemical surface roughening treatment.

Zr f 0.01wt%以上含有させることによって
IE延材金最終熱処堆したときのMg 、S iの粗大
析出を防止し、粗面化処理における均一性および印刷適
性を確保すると共に耐バーニング性を大幅に改善し、し
かもそれが0.25wt%全上限とすることに工す熱間
圧延時における結晶組織の不拘−化ヲ赴け、結晶粒スト
IJ−りを生せしめない。
By containing 0.01wt% or more of Zrf, coarse precipitation of Mg and Si is prevented during final heat treatment of IE rolled metal, ensuring uniformity in surface roughening treatment and printability, and improving burning resistance. In addition, the total upper limit of 0.25 wt % is achieved by making the crystal structure unrestricted during hot rolling, and thereby preventing crystal grain distortion.

実m?ンり 不発明によるものについて更に仔細を説明すると、先ず
本発明合金支持体における含有成分組成は以下の如くで
ある。
Real m? To explain the invention in more detail, first, the composition of the components contained in the alloy support of the present invention is as follows.

即ちSi : 0.05〜0.7wt%、Mg:0.0
5〜3wt% を含有させるのは、固縛状態、あるいは
Mg 、S i相として必要な支持体強度および耐くわ
え切れ性を発現させるためであって、SlがO,05w
tチ未満、Mgが0.01vt%未満では所冗の強度レ
ベル、耐くわ見切れ性を得ることができず、印刷版とし
ての版の装着時あるいは印刷中に版切れの問題を生ずる
禍会がある。又、Slが0.7vrt%、Mgが3 w
t%を越えて含有されたものでは強度は高くなるものの
、印刷中に非画像部の汚れが生じ易く、さらに圧延板の
平面性のコントロールが難しくなる場合があるので好ま
しくない。
That is, Si: 0.05 to 0.7 wt%, Mg: 0.0
The reason for containing 5 to 3 wt% is to develop the support strength and gripping resistance necessary for the bound state or the Mg, Si phase, and when Sl is O.
If the Mg content is less than 0.01vt%, it will not be possible to obtain an excessive strength level and resistance to hoe cutting, and the problem of plate breakage occurring when mounting the plate as a printing plate or during printing may occur. be. Also, Sl is 0.7vrt%, Mg is 3w
If the content exceeds t%, although the strength will be increased, staining of non-image areas is likely to occur during printing, and furthermore, it may become difficult to control the flatness of the rolled plate, which is not preferable.

特に印刷中の非画1遼部の汚れ性に対する要求品位の高
いときには上記Sl、Mgお工び不可避的不純物として
のFe 、 Mnが実験的に求めた、Mg量≧1.73
X(Si、t)  0.6(Fe+Mn1t)なる式の
量的関係を満足するように添770されることが望まし
く、これは合金支持体中に存在する、α−M(Fe−M
n ) Si  相を形成するに必要な貴以上に存在す
るSi  が単体S1  としてマトリックス中あるい
は14極酸化皮膜中に存在することを実質上防止し、所
定レベルの粗面化性を確保すると共に非++!a 11
部の耐實性低下による印刷中の汚れを防ぐためである。
In particular, when the required quality is high for the stain resistance of non-image areas during printing, Fe and Mn as unavoidable impurities in the above-mentioned Sl and Mg processing are determined experimentally, and the Mg amount is ≧1.73.
It is desirable to add 770 so as to satisfy the quantitative relationship of the formula:
n) Substantially prevents Si, which is present in an amount greater than that necessary to form a Si phase, from existing in the matrix or in the 14-pole oxide film as a simple substance S1, ensuring a predetermined level of surface roughness and preventing ++! a 11
This is to prevent stains during printing due to a decrease in the durability of the copy.

Zrは圧延材を最終熱処理した際に、Mg、Si−の粗
大析出を防止し、粗面化処理における均一性および印刷
適性を確保すると共に耐バーニング性を著しく改善する
ためのものであり、0.01wtチ禾満ではこのような
改善効果が不十分であり、−万0.25wt5を超える
ときは上記改善効果を有するにも拘わらず熱間圧延時に
結晶組織が不均一となり、績晶粒ストリークを生ずるの
で好ましくなく、更には0.01〜0.15wt%がよ
り好ましい。
Zr is used to prevent coarse precipitation of Mg and Si when the rolled material is subjected to final heat treatment, to ensure uniformity and printability in surface roughening treatment, and to significantly improve burning resistance. At 0.01wt, this improvement effect is insufficient, and at over 0.25wt5, the crystal structure becomes non-uniform during hot rolling, resulting in grain streaks, despite having the above-mentioned improvement effect. This is not preferable, and more preferably 0.01 to 0.15 wt%.

不発明による会合支持体における不可避的不純物として
のF@、Mnは、合金の結晶微細化および再結晶粗大化
防止効果を発揮するが、何れか一部が0.40wt%を
超えると釣造時に形成されるFeお工びMnを含有した
金橋間化合物が粗大化して印刷性能全低下させるので夫
々を0.4wt%以下で合計で0.5 vt To以下
とすることが望ましい。又不純物としてのCu、Znは
何れも0、05 wt%以下とするのが好ましく、特に
印刷中の非円像部の汚れ性に対する要求品位の高いとき
にはCu を0゜004〜0.020 wt%の範囲と
することが必要である。更にスラブの製造に際して結晶
微細化剤として使用されるTi、Bは、T1  が0.
05 wt%以下、Bが0. OI Wt係以下とする
ことが望ましい。
F@ and Mn, which are unavoidable impurities in the uninvented association support, have the effect of refining the crystals of the alloy and preventing recrystallization from coarsening, but if any of them exceeds 0.40 wt%, it may cause problems during fishing. Since the Fe-treated Mn-containing gold bridge compound that is formed becomes coarse and completely deteriorates printing performance, it is desirable that each of them is 0.4 wt % or less and the total content is 0.5 vt To or less. Further, it is preferable that Cu and Zn as impurities are both 0.05 wt% or less, and in particular, when the required quality is high for the stain resistance of non-circular image areas during printing, the Cu content is 0.004 to 0.020 wt%. It is necessary to keep it within the range of . Furthermore, Ti and B used as crystal refining agents in the manufacture of slabs have a T1 of 0.
05 wt% or less, B is 0. It is desirable that the OI weight be less than or equal to the OI Wt ratio.

上記の工うな組成になる本発明のオフセット印刷用アル
ミニウム合金支持体の製版並びに製版工程について説明
すると、上記組成の合金溶湯から得た世、l漬スラブを
面削した後、遇・濱の460〜600℃の温度で2時間
以上保持する均負化処理を行う。次いで熱間圧延お工び
冷間圧延の工程を経た後、再結晶組織を得るため、及び
熱間圧延お工び冷間圧延時に形成されたMg、Si相を
固溶させるために的体化処理を行う。
To explain the plate-making and plate-making process of the aluminum alloy support for offset printing of the present invention having the above-mentioned composition, after face-cutting the soaked slab obtained from the molten alloy having the above-mentioned composition, Equalization treatment is carried out by holding at a temperature of ~600°C for 2 hours or more. Next, after passing through the steps of hot rolling and cold rolling, targetization is carried out to obtain a recrystallized structure and to dissolve the Mg and Si phases formed during hot rolling and cold rolling. Perform processing.

具体的にはガえは遅ffci#鈍装鴬において400〜
600℃の温度に加熱し、この所定温間に到達後30℃
/ min以上の冷却速度で100℃以下まで空冷し、
望ましくは水冷により急速冷却する。引続き加工率10
%以上、好ましくは20%以上の冷間圧延し0.1〜0
.5fiの板厚とする。なお所曜に工す最終冷間圧延前
に・くツチ式或いは連続式焼鈍装置により140℃以下
で2時間以下加熱保持する焼戻処理を施してから所定の
強度が得られる加工度で冷間圧延を行うことができる。
Specifically, Gae is 400 ~ in slow ffci #dusouho
Heat to a temperature of 600℃, and after reaching this predetermined temperature, heat to 30℃
Air-cooled to 100℃ or less at a cooling rate of /min or more,
Rapid cooling is preferably performed by water cooling. Continue processing rate 10
% or more, preferably 20% or more cold rolled 0.1-0
.. The plate thickness is 5fi. In addition, before the final cold rolling to be carried out on the day, a tempering treatment is performed by heating and holding at 140°C or less for 2 hours or less using a Kutsuchi type or continuous type annealing device, and then cold rolling is performed at a working degree that provides the specified strength. Rolling can be performed.

又更に必要に応じ最終冷間圧延後にバッチ式あるいは連
続焼鈍装■aを用いて50〜350℃の温度で2時間以
下加熱保持する焼戻処理を施してもよい。最終冷間圧延
後の焼戻処理を行なう場合の温度範囲は、・(ツチ式墳
鈍炉を用いる場合は50〜b Hrf:用いる場合は200〜350℃とすることが1
ましい、、(’lれの夷遣粂件下であれ板中に存在する
Al −Fe  系、あるいはA1.− Fe (Mn
 )−Si系などの化合物が微細に分散する工うにする
と共に〃ロエ組峨中のMgお工びSiが固浴状力めるい
は(Mg、Si)相として均一微細に析出するように処
理することが望まれ、それによって所定の支持体強度、
耐くわ見切れ性が得られ、且つ粗面化α埋における砂目
の均一性がより確保されると共に印刷時の非uui 1
2部汚れを適切に防止することができる。
Furthermore, if necessary, after the final cold rolling, a tempering treatment may be performed by heating and holding at a temperature of 50 to 350° C. for 2 hours or less using a batch type or continuous annealing device (a). The temperature range when performing the tempering treatment after the final cold rolling is:
(Al-Fe system existing in the plate under the conditions of
)-Si-based compounds are finely dispersed, and the Mg-based Si in the Loe composition is treated so that it is uniformly and finely precipitated as a solid bath or (Mg, Si) phase. It is desired that a given support strength,
It is possible to obtain resistance to hoe cutting, and to ensure uniformity of the grain in the roughened α-filling, and to reduce non-uui 1 during printing.
Two-part staining can be appropriately prevented.

このように製版されたアルミニウム合金板は28版とし
ての加工処理と製版加工処理とを経て実際の印刷作業に
供される。即ち先ず機械的砂目立て法や邂気化学的砂目
立て法による粗面化処理を行つ′fC後、IS2または
アルカリによる化学的エツチング処理と酸洗いによる脱
スマット処理に供される。(に必要に応じて陽極酸化処
理や化成処理による酸化皮膜形成処理し、その上にアル
カリ金属シリケートや親水性セルローズなどの下吹り1
曽形成処浬が行われる。続いて適宜の感光性組成物を塗
蒲し、乾礫梗所望サイズにR析することによって28版
が得られる。
The aluminum alloy plate thus plate-made is subjected to processing as a 28-plate and plate-making processing before being used for actual printing work. That is, first, the surface is roughened by a mechanical graining method or an air chemical graining method, followed by a chemical etching treatment using IS2 or alkali, and a desmutting treatment by pickling. (If necessary, an oxide film is formed by anodizing or chemical conversion treatment, and then an undercoat of alkali metal silicate, hydrophilic cellulose, etc.
Zeng formation treatment is performed. Subsequently, a suitable photosensitive composition is coated and R-analyzed to give a desired grain size, thereby obtaining a 28th plate.

このps版に所−A11!1111!の露光を行い、現
像、水洗、バーニング処4 &びにガム引き号の製版処
理が行われる。
In this PS version-A11!1111! The plate is exposed to light, developed, washed with water, burned, and then plate-made for the gumming number.

製版された印刷原版は、更にその両端を折曲力ロエして
印刷機へのくわえ部を形成した後、印刷機の円筒形版胴
に固定され、印刷作業に供される。この印刷作業におい
て版の取扱い性がよく、版衾%f時の変形が少く、また
折曲げくわえ部において繰返し応力を受けても版毎の耐
くわえ切れ性が高レベルで安定的であす、VAjえば2
0万枚以上のような優れた耐刷力を安定的に得しめる。
After the plate-made printing original plate is bent at both ends to form a gripping portion for the printing press, it is fixed to the cylindrical plate cylinder of the printing press and used for printing work. In this printing work, the handling of the plate is good, there is little deformation when the plate is bent %f, and the gripping resistance of each plate is stable at a high level even when subjected to repeated stress at the bending gripping part.VAj For example 2
Stably achieves excellent printing durability of 0,000 sheets or more.

不発明によるものの具体的な製造例について説明すると
以下のa <である。
A specific manufacturing example of the non-inventive product is as follows: a<.

製造例1 矢のシバ1衣に示すような9棟類のアルミニウム合金(
A−K ) ’cf611し、微細多孔フィルターな用
いてン慮過した故、DC麩多造にて560間厚0スラブ
を侍、その合金入〜Jについては560℃、4時間保持
の均質化処理を施した後、6ms厚に熱間圧延し、次い
で冷間圧延(il−峙て合金Aけ1.5 m厚の仮、合
金B〜Jについては0、6 +w厚の板とし、その後磁
気1濤導加熱(T’ranauerso Flux I
nd++etion Heating )による150
℃/secの’A温で550℃X5so=の保持および
500℃/就以上の水冷却による連続溶体化処理を八し
、室温に約1日数1トを後、0゜3闘厚まで最終冷間圧
延し、何れの場合もバッチ式堺鈍炉を用いて180℃X
 30 minの焼戻処理合流し、目的のオフセット印
桐用アルミニウム会金板ft製造した。
Production example 1 Nine types of aluminum alloys (as shown in Figure 1)
A-K) 'CF611 was used, and because we neglected to use a microporous filter, we produced a 0-thickness slab of 560 mm at DC Futazo, and homogenized the alloy at 560 °C for 4 hours. After the treatment, it was hot-rolled to a thickness of 6 ms, then cold-rolled (temporarily 1.5 m thick for alloy A on the opposite side, and 0.6 m thick for alloys B to J, and then Magnetic Flux I
150 by nd++etion Heating)
Continuous solution treatment by holding at 550°C x 5so = and cooling with water at 500°C/sec at temperature A of Rolled at 180°C using a batch type Sakai blunt furnace in both cases.
After 30 minutes of tempering, the desired aluminum plate for offset ink paulownia was manufactured.

なお合金Kについては560℃、4時間の均質化処理全
兎した後、熱間圧延(6醪厚)お工び冷間圧延を経て1
.5−厚の根とし、次いで400℃、1時間の中+i(
l纒鍾ケMQ L友後、最終令聞圧延に工っで0.3鴎
厚の仮とした。又従来材として市販のJISlosO−
H1s2!びJIS−3003−Hlbの0.3瓢4板
を供試材とした。
Alloy K was homogenized at 560°C for 4 hours, then hot rolled (6 thick) and cold rolled.
.. 5-thick roots and then at 400°C for 1 hour + i (
After finishing the final rolling process, it was made into a tentative 0.3 mm thickness. In addition, commercially available JISlosO-
H1s2! Four 0.3 gourd plates of JIS-3003-Hlb were used as test materials.

以上のようにして得られたそれぞれのアルミニウム檄に
ついて0.2チ1酎力を常法によって測定すると共に耐
熱性の指漂としてアルミニウム板ft270℃に保持し
たソルトバス中に7分間奴潰した後の引張試論による0
、2チ耐力を測定した。
For each of the aluminum pieces obtained as above, the strength of 0.2 pieces per cup was measured by a conventional method, and after crushing the aluminum plate for 7 minutes in a salt bath kept at 270℃ as a heat-resistant finger float. 0 due to the tensile theory of
, 2-inch yield strength was measured.

父1吋くわえ切れ性の評価指しとして子細げ疲労強1星
ヲ用いたが、アルミニウム代から、隅32咽、長さ60
+maの拭鋏片を切出し、1.5frRの曲げ半径を耳
する印刷板組ベンダーにより90″の角度まで予曲げ加
工を与えた後、一端を冶具で固定し、他端に一定の振幅
を与え、曲げ加工部分の破断するまでの回数を測定した
I used a 1-star rating for slenderness and fatigue strength to evaluate the sharpness of the grip, but from the aluminum cost, the corner was 32mm and the length was 60mm.
Cut out a piece of +ma wiping scissors, pre-bend it to an angle of 90'' using a printing board assembly bender with a bending radius of 1.5frR, then fix one end with a jig and give a constant amplitude to the other end. The number of times it took for the bent part to break was measured.

−万、上記131!類の合金板に印刷用支持体としての
処理を行い、粗面化性および陽極酸化皮膜の健全性につ
いて評価した。即ちこれらのアルミニウム合金板をパミ
ストンと水の(敞濁液中で回転ナイロンブラシで砂目立
処理した後、苛性ソルダ20 wt%水浴腹でエツチン
グ処理し、次いで水洗し、25wt%硝酸水浴液での酸
洗い及び得度の水洗処理を経て、硝酸0.5〜2.5w
t%を含有する電解浴中で電流密度20A/c/−以上
で交流電解し、続いて15wtチ硫酸の50℃水溶液中
に3分間浸漬して表面を清浄化した後、20 wt%硫
酸を主成分とするt解散中で浴温30℃の陽・極北処理
を行った。
-10,000, above 131! A similar alloy plate was treated as a printing support, and the roughness and the soundness of the anodic oxide film were evaluated. That is, these aluminum alloy plates were grained with a rotating nylon brush in a solution of pumice stone and water, etched with a caustic solder in a 20 wt% water bath, then washed with water, and etched in a 25 wt% nitric acid water bath. After pickling and washing with water, 0.5 to 2.5 w of nitric acid is added.
AC electrolysis was carried out at a current density of 20 A/c/- or higher in an electrolytic bath containing 20 wt% sulfuric acid, followed by immersion in a 50°C aqueous solution of 15 wt sulfuric acid for 3 minutes to clean the surface. Anodic and arctic treatment was carried out at a bath temperature of 30° C. while dissolving t as the main component.

以上のようにして得られた支持体の粗面化性について表
面のSEN壊祭を行い、砂目の均一性を評価し、又素地
のアルミニウムをブロム−メタノール液で溶解し、酸化
皮膜のみを取出してTEM&祭を行い、皮膜中に残存す
る第2相粒子について評価した。
The roughness of the support obtained as described above was evaluated by performing SEN rupture on the surface, and the uniformity of the grain was evaluated.Also, the base aluminum was dissolved in a bromine-methanol solution to remove only the oxide film. It was taken out and subjected to TEM and imaging to evaluate the second phase particles remaining in the film.

これらの測定ないし観察結果については次の第2表に示
す通りでおる。なお機械的性質の測定は何れも圧延方向
に平行な方向(L方向)について行り九ものである。
The results of these measurements and observations are shown in Table 2 below. Note that the mechanical properties were all measured in a direction parallel to the rolling direction (L direction).

即ち不発明材である合金A−Gは支持体強度(0,2%
耐力)、耐バーニング性(加熱後の0.2%耐力)並び
に耐くわえ切れ性(予曲げ疲労強度)の倒れにおいても
比較材および従来材中の高レベルのものに比し同等ない
しそれ以上にレベルが向上している。又粗面化性および
陽極酸化皮膜性はJIS1050−H18程度に良好な
ものであった。
That is, alloy A-G, which is an uninvented material, has a support strength (0.2%
In terms of yield strength), burning resistance (0.2% yield strength after heating), and gripping resistance (pre-bending fatigue strength), it is equivalent to or better than comparative materials and high-level conventional materials. The level is improving. Furthermore, the surface roughening properties and anodic oxidation film properties were as good as JIS 1050-H18.

比較材H,I、Jは機械的性質において良好であっても
、Hおよび!では陽極酸化皮膜中に0.1μ以上の不要
性第2相粒子が数多く認められ、EDX分析によりこの
粒子からは81 元素が検出された。また比較材JはZ
rが規定値以下であるため270℃X 7 minの加
熱後における0、2%耐力が劣り、比較材にはJIS1
050−Hl8同等の粗面化性と陽極酸化皮膜の健全性
を有していても支持体強度が大幅に劣っている。従来材
であるJIS1050−Hl8お工びJ I S 30
03−Hl 6は支持体強度、耐バーニング性、粗面化
性、陽極酸化皮膜健全性の何れかにおいて、低レベルに
止まっている。
Although comparative materials H, I, and J have good mechanical properties, H and! In this case, many unnecessary second phase particles of 0.1μ or more were found in the anodic oxide film, and 81 elements were detected from these particles by EDX analysis. Also, comparison material J is Z
Because r is below the specified value, the 0.2% yield strength after heating at 270°C x 7 min is inferior, and the comparative material is JIS1
Even though it has the same roughening properties and the soundness of the anodic oxide film as 050-Hl8, the support strength is significantly inferior. Conventional material JIS1050-Hl8 machining JIS 30
03-Hl 6 remains at a low level in support strength, burning resistance, surface roughening properties, and anodic oxide film integrity.

製造例2 製造例1において得られた本発明材Cと比較材I、Jに
ついて静体化処理前の0.6 as厚冷冷間圧延板用い
、前記製造u11と同じ条件で連続的にm体化、水焼入
を行い、次いで何れも室温に約1日間放置した後、後述
する第3表に示すような最終冷間圧延のみを行ったもの
、この最、終冷間圧延の前後における何れか或いは双方
に幣戻しφ件を組合わせて0.3 m厚の合金板を得た
Production Example 2 Inventive material C obtained in Production Example 1 and comparative materials I and J were continuously rolled under the same conditions as Production U11 using 0.6 as thick cold-rolled plates before static treatment. After being subjected to solidification and water quenching, and then left at room temperature for about one day, only the final cold rolling was performed as shown in Table 3 below. An alloy plate with a thickness of 0.3 m was obtained by combining either or both of them with a return of φ.

得られた7種類の合金板および従来材のJIS1050
−Hl8(0,3m厚)とJIS3003H16(0,
3mm厚)について更に印刷板としての製版処理を行い
、印刷板としての評価を行った。即ち製造例1に記した
ところと同一の方法で製作した支持体に下記の感光層を
乾燥時の塗布量が2.5 f/lt?となる工うに形成
した。
The obtained seven types of alloy plates and conventional materials JIS1050
-Hl8 (0.3m thick) and JIS3003H16 (0.3m thick)
3 mm thick) was further subjected to a plate-making process as a printing plate, and evaluated as a printing plate. That is, the following photosensitive layer was applied to a support prepared by the same method as described in Production Example 1, with a dry coating amount of 2.5 f/lt? It was formed into a shape.

ナフトキノン−1,2−ジアジド −5−スルホニルクロライドト ピロガロールアセトン樹脂との 化合物(米国特Ff第365709 0.75f号明l
l4fl書実施例に記載されているもの) クレゾールノボラック樹脂    1ootオイルブル
ー#603(オリエン ト化学社製)           o、 04 yエ
チレンジクロライド      16t2−メトキシエ
チルアセテート  12f得られた感光性平版印刷板t
−透明陽画に密着させて1mの距離からPsライト(東
芝メタルハライドランプMU2000−2−OLm、3
KWの光源を有する)で30秒間露光を行った後、珪酸
ナトリウムS wt係氷水溶液約1分間浸漬して現隙し
、水洗乾燥して印刷原版を得た。
Compound of naphthoquinone-1,2-diazido-5-sulfonyl chloride with topyrogallol acetone resin (US Pat. No. 365709 No. 0.75f)
Cresol novolak resin 1oot Oil Blue #603 (manufactured by Orient Chemical Co., Ltd.) o, 04 y Ethylene dichloride 16t 2-methoxyethyl acetate 12f Obtained photosensitive lithographic printing plate t
- Ps light (Toshiba metal halide lamp MU2000-2-OLm, 3
After exposure for 30 seconds with a light source of KW (with a KW light source), the plate was immersed in a sodium silicate SW wt aqueous ice solution for about 1 minute to form a gap, washed with water and dried to obtain a printing original plate.

これらの印刷原版を前記製造例1と同様の試験を行うと
共に、オフセット印刷機KOHに取付け、非゛画塘部の
汚れを観察し、た結果は次の第3表の如くである。
These printing original plates were subjected to the same tests as in Production Example 1, and were also installed in an offset printing machine KOH to observe stains in the non-image area. The results are shown in Table 3 below.

即ちこの再3衣から明かな工うに本発明材は溶体化処理
後、冷間圧姑のまま、或いはi&終冷fltl圧延の@
後に・暁戻し処理を施すことに工す従来材よりも高レベ
ルにおいて支持体強度を自在に震えること力旨丁曲であ
り、又粗面(ヒ性と印刷適性においてもJIS1050
−H2O並の潰れた性能がイ→らnる。
In other words, it is clear from these three results that the material of the present invention remains cold-pressed after solution treatment, or is subjected to I & final cold fltl rolling.
It has the advantage of being able to freely vibrate the support strength at a higher level than conventional materials that are later subjected to resetting treatment, and also has JIS 1050 in terms of rough surface resistance and printability.
- It has the same level of performance as H2O.

「発明の効果」 以上説明したような不発明のオフセット印刷用アルミニ
ウム合金支持体によるときは、促米牙に比収し粗面化性
や印祠特性において同等ないしそれ以上で、しかも支持
本強度お工び:酎〈わ見切れ性において頗る1建れてい
ることから版装着時の変形や印刷用における成句れない
しずれによるトラブルを適切に解消でき、又耐バーニン
グ性の改善を光分に図り、耐用性の高い製品を提供し得
るものであって、工菓的にその効果の大きい弁明である
``Effects of the Invention'' When using the uninvented aluminum alloy support for offset printing as explained above, the specific yield, roughening property and impression properties are equal to or higher than that of the pressing rice fang, and the support strength is also higher. Craftsmanship: Since it has an excellent cutting edge, it can appropriately eliminate problems caused by deformation when installing the plate and unremarkable slippage during printing, and also improves burning resistance. , it is possible to provide a highly durable product, and this is a highly effective defense in terms of confectionery.

Claims (1)

【特許請求の範囲】 Si:0.05〜0.7wt.% Mg:0.05〜3wt.% Zr:0.01〜0.25wt.% を含有し、残部がアルミニウム及び不可避的不純物から
成ることを特徴とするオフセット印刷用アルミニウム合
金支持体。
[Claims] Si: 0.05 to 0.7wt. % Mg: 0.05-3wt. % Zr: 0.01-0.25wt. %, with the remainder consisting of aluminum and unavoidable impurities.
JP21463085A 1985-07-25 1985-09-30 Aluminum alloy support for offset print Granted JPS6274693A (en)

Priority Applications (5)

Application Number Priority Date Filing Date Title
JP21463085A JPS6274693A (en) 1985-09-30 1985-09-30 Aluminum alloy support for offset print
CA000514487A CA1287013C (en) 1985-07-25 1986-07-23 Aluminum alloy support for lithographic printing plates
US06/888,255 US4729939A (en) 1985-07-25 1986-07-23 Aluminum alloy support for lithographic printing plates
DE8686305706T DE3665199D1 (en) 1985-07-25 1986-07-24 Aluminium alloy support for lithographic printing plates
EP86305706A EP0211574B1 (en) 1985-07-25 1986-07-24 Aluminium alloy support for lithographic printing plates

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP21463085A JPS6274693A (en) 1985-09-30 1985-09-30 Aluminum alloy support for offset print

Publications (2)

Publication Number Publication Date
JPS6274693A true JPS6274693A (en) 1987-04-06
JPH0473392B2 JPH0473392B2 (en) 1992-11-20

Family

ID=16658918

Family Applications (1)

Application Number Title Priority Date Filing Date
JP21463085A Granted JPS6274693A (en) 1985-07-25 1985-09-30 Aluminum alloy support for offset print

Country Status (1)

Country Link
JP (1) JPS6274693A (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH02293189A (en) * 1989-05-09 1990-12-04 Sumitomo Light Metal Ind Ltd Aluminum alloy material for lithographic printing plate and manufacture of support using the same

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JP2002307849A (en) 2001-02-09 2002-10-23 Fuji Photo Film Co Ltd Lithographic printing plate original plate
JP4410714B2 (en) 2004-08-13 2010-02-03 富士フイルム株式会社 Method for producing support for lithographic printing plate
ATE395195T1 (en) 2005-04-13 2008-05-15 Fujifilm Corp METHOD FOR PRODUCING A PLATE PRINTING PLATE SUPPORT
US8968530B2 (en) 2008-09-30 2015-03-03 Fujifilm Corporation Electrolytic treatment method and electrolytic treatment device
JP2011205051A (en) 2009-06-26 2011-10-13 Fujifilm Corp Light-reflecting substrate and process for manufacture thereof
KR20120109573A (en) 2009-12-25 2012-10-08 후지필름 가부시키가이샤 Insulated substrate, process for production of insulated substrate, process for formation of wiring line, wiring substrate, and light-emitting element

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH02293189A (en) * 1989-05-09 1990-12-04 Sumitomo Light Metal Ind Ltd Aluminum alloy material for lithographic printing plate and manufacture of support using the same

Also Published As

Publication number Publication date
JPH0473392B2 (en) 1992-11-20

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