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JPH0873883A - Lubricating material for hot working of aluminum material - Google Patents

Lubricating material for hot working of aluminum material

Info

Publication number
JPH0873883A
JPH0873883A JP23235994A JP23235994A JPH0873883A JP H0873883 A JPH0873883 A JP H0873883A JP 23235994 A JP23235994 A JP 23235994A JP 23235994 A JP23235994 A JP 23235994A JP H0873883 A JPH0873883 A JP H0873883A
Authority
JP
Japan
Prior art keywords
fatty acid
lubricant
fatty acids
weight
pts
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.)
Withdrawn
Application number
JP23235994A
Other languages
Japanese (ja)
Inventor
Yuji Abe
佑二 阿部
Masakatsu Yoshida
正勝 吉田
Toshiaki Kobayashi
敏明 小林
Koji Hashimoto
浩二 橋本
Takeshi Okuyama
毅 奥山
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.)
Sky Aluminium Co Ltd
Nippon Steel Corp
Nichiyu Kogyo KK
Original Assignee
Sky Aluminium Co Ltd
Nippon Steel Corp
Nichiyu Kogyo KK
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 Sky Aluminium Co Ltd, Nippon Steel Corp, Nichiyu Kogyo KK filed Critical Sky Aluminium Co Ltd
Priority to JP23235994A priority Critical patent/JPH0873883A/en
Publication of JPH0873883A publication Critical patent/JPH0873883A/en
Withdrawn legal-status Critical Current

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  • Lubricants (AREA)
  • Preventing Corrosion Or Incrustation Of Metals (AREA)

Abstract

PURPOSE: To obtain the subject safely usable lubricant, comprising a higher fatty acid phosphoric ester and an alkali metal and suitable for high-temperature working without discoloring an,d corroding and Al material even after coating the Al material, subjecting it to not working and allowing the material to stand for a long period. CONSTITUTION: This lubricant is obtained by adding (C) an alkali metallic compound to (A) 3-20 pts.wt. higher fatty acid mainly containing a 10-20C saturated fatty acid or further containing a small amount of an unsaturated fatty acid or a natural oil fatty acid such as coconut oil fatty acid or a beef tallow fatty acid and (B) 1-10 pts.wt. phosphoric ester comprising an alkyl phosphate, an alkyl-aryl phosphate or polyoxyalkylene phosphate, regulating the pH to 7.5-9.0 when the composition is dispersed and dissolved in water at 1wt.% concentration and then adding (D) 1-15 pts.wt. solid lubricant containing any of graphite, molybdenum disulfide, talc, mica, a fluorine-based resin and boron nitride having <=80μm grain size thereto.

Description

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

【0001】[0001]

【産業上の利用分野】本発明は金属材料、特に純アルミ
ニウム、アルミニウム合金等のアルミニウムを主体とし
て含有するアルミニウム材の温間成形時に使用する潤滑
材に関する。周知のとおり、温間成形は金属材料を室温
以上、再結晶温度以下の温度において加工を行う方法で
あるが加工温度が材料加工の特性上顕著な効果が確認さ
れており、その際に使用する有効性の高い水性潤滑材組
成物に関する。
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a lubricant used for warm forming of a metal material, particularly an aluminum material mainly containing aluminum such as pure aluminum and aluminum alloy. As is well known, warm forming is a method of processing a metal material at a temperature above room temperature and below a recrystallization temperature, but the processing temperature has been confirmed to have a significant effect on the characteristics of material processing, and it is used at that time. The present invention relates to a highly effective aqueous lubricant composition.

【0002】[0002]

【従来の技術】温間成形法は周知のとおり、金属材料を
室温以上、再結晶温度以下の温度において加工する方法
で、室温以上の温度にする目的は金属材料の延性の向上
や、変形抵抗の低下、その他残留応力の減少による加工
後の変形の防止など種々の目的がある。従って、室温以
上の温度に適用するため潤滑材に要求される項目も一般
の潤滑材とはやや異なったものとなる。例えば高温での
潤滑性の維持、熱変質による潤滑材の脱脂不良の防止、
使用中において潤滑材組成物から発生するガスや煙によ
る作業環境の悪化の防止、引火による火災発生の防止、
かじりの防止等が重要な課題となる。
As is well known, the warm forming method is a method of processing a metal material at a temperature of room temperature or higher and a recrystallization temperature or lower. The purpose of raising the temperature to room temperature or higher is to improve the ductility of the metal material and to prevent deformation resistance. And various other purposes such as prevention of deformation after processing due to reduction of residual stress. Therefore, the items required for the lubricant to be applied to temperatures above room temperature are slightly different from those of general lubricants. For example, maintenance of lubricity at high temperature, prevention of degreasing failure of lubricant due to thermal deterioration,
Prevents deterioration of working environment due to gas and smoke generated from the lubricant composition during use, prevention of fire due to ignition,
Preventing galling is an important issue.

【0003】従来使用されている温間潤滑材としてはポ
リ四フッ化エチレン(商品名:テフロン)製のシート、
大豆油、ポリブテン等の合成油中にグラファイトを混入
させたもの、あるいはグリースや鉱物油にグラファイ
ト、二硫化モリブデンあるいはマイカ等を混入させたも
のが使用されていた。
A sheet made of polytetrafluoroethylene (trade name: Teflon) is used as a warm lubricant conventionally used,
A mixture of synthetic oil such as soybean oil and polybutene with graphite, or a mixture of grease and mineral oil with graphite, molybdenum disulfide, mica and the like has been used.

【0004】中でもポリ四フッ化エチレン製のシートは
300℃の高温でも使用できる耐熱性があり、性能も優
れたものではあるが、25μm厚のフィルムであっても
同面積の1mm厚のアルミニウム板より数倍の価格であ
り、特殊な場合を除き温間成形加工用の潤滑材として使
用することはコスト的に難しい。またこれ以外の潤滑
材、例えば大豆油は焼付き易くまたあとでの脱脂が困難
であり、合成油類(ポリブテン、シリコーンオイル等)
は200℃を越えると分解し、臭気の発生や着火性を増
し、作業環境を悪化させる。グリースや鉱物油中にグラ
ファイト、二硫化モリブデン、マイカ等を混入した潤滑
材は、使用中に煙を発生し易く、また焼付きやあとでの
脱脂も困難となる。このように従来使用されているアル
ミニウム材の温間成形用潤滑材には満足すべき性能を有
する潤滑材はほとんどなかった。
Among them, a sheet made of polytetrafluoroethylene has heat resistance so that it can be used even at a high temperature of 300 ° C. and is excellent in performance, but even a film having a thickness of 25 μm has an area of 1 mm and an aluminum plate having the same area. It is several times more expensive, and is difficult to use as a lubricant for warm forming except for special cases in terms of cost. Lubricants other than this, such as soybean oil, are easily seized and difficult to degrease later, so synthetic oils (polybutene, silicone oil, etc.)
Decomposes at temperatures above 200 ° C, generating odors and increasing ignitability, deteriorating the working environment. Lubricants in which grease, molybdenum disulfide, mica, etc. are mixed in grease or mineral oil easily generate smoke during use, and seizure and degreasing later become difficult. As described above, few of the conventional aluminum warm-forming lubricants have satisfactory performance.

【0005】[0005]

【発明が解決しようとする課題】本発明者らの一部は先
に温間成形用潤滑材として、カーボン数14の脂肪酸を
50%以上含む炭素数12〜18の脂肪酸アルカリ金属
塩の2.5〜20%水溶液に粒径80μm以下の二硫化
モリブデン、グラファイト、ポリ四フッ化エチレン、タ
ルク等の粉末を25重量%以下分散したアルミニウム材
の温間加工用潤滑材について提案した。この温間加工用
潤滑材は経済性に優れ、安全性に優れ、作業環境の対
策、使用時における焼付き防止、かじり防止等の作用も
従来品より優れていた。しかし、一般的な室温で使用す
る潤滑材と比較すると、耐変色性、耐腐食性、塗布性な
どが劣るため使用に際し十分なコントロールが必要であ
った。従って本発明は、前記温間加工用潤滑材のこれら
の問題点の改良を目的とする。
SUMMARY OF THE INVENTION Some of the present inventors have previously mentioned, as a warm-forming lubricant, a fatty acid alkali metal salt having 12 to 18 carbon atoms containing 50% or more of a fatty acid having 14 carbon atoms. We have proposed a lubricant for warm working of an aluminum material in which a powder of molybdenum disulfide, graphite, polytetrafluoroethylene, talc or the like having a particle size of 80 μm or less is dispersed in an aqueous solution of 5 to 20% by 25 wt% or less. This warm-working lubricant was excellent in economy and safety, and was superior to conventional products in actions such as work environment measures, seizure prevention during use, and galling prevention. However, compared with general lubricants used at room temperature, discoloration resistance, corrosion resistance, coating properties, etc. are inferior, so sufficient control was required before use. Therefore, the present invention aims to improve these problems of the lubricant for warm working.

【0006】[0006]

【課題を解決するための手段】本発明は、高級脂肪酸リ
ン酸エステルおよびアルカリ金属化合物からなり、該組
成物を1%濃度に水に分散、溶解せしめたときのpHが
7.5〜9.0とした後固体潤滑材を添加したことを特
徴とするアルミニウム材温間加工用潤滑材を開発するこ
とにより上記の目的を達成した。
The present invention comprises a higher fatty acid phosphoric acid ester and an alkali metal compound, and the pH of the composition when dispersed and dissolved in water to a concentration of 1% is 7.5 to 9. The above object has been achieved by developing a lubricant for warm working of aluminum material, which is characterized by adding a solid lubricant after setting to 0.

【0007】本発明において、アルミニウム材とは、純
アルミニウムおよびアルミニウムを主とした銅、マグネ
シウム、鉄等の合金からなる板材、型材等を意味する。
高級脂肪酸としては、主として炭素数10〜20の飽和
脂肪酸、あるいはこれに少量の不飽和脂肪酸を含むもの
またはヤシ油脂肪酸、牛脂脂肪酸等の天然油脂肪酸であ
る。脂肪酸が炭素数10未満の脂肪酸においては潤滑性
が劣り、また炭素数20を越えると乳化分散性が低下
し、潤滑材の塗布ムラができ易く、良好な成形品が得ら
れにくい。脂肪酸としてはラウリン酸、パルミチン酸、
ステアリン酸を例示できる。脂肪酸は3〜20重量部配
合することが必要である。脂肪酸が3重量部未満では潤
滑性が劣り、一方20重量部を越えると潤滑材の流動性
を低下させ、塗布しにくくなり実用性を阻害する。
In the present invention, the aluminum material means a plate material, a mold material or the like made of pure aluminum and an alloy mainly of aluminum such as copper, magnesium and iron.
The higher fatty acids are mainly saturated fatty acids having 10 to 20 carbon atoms, those containing a small amount of unsaturated fatty acids, or natural oil fatty acids such as coconut oil fatty acids and tallow fatty acids. If the fatty acid has less than 10 carbon atoms, the lubricity is inferior, and if it exceeds 20 carbon, the emulsification and dispersibility deteriorates, and uneven coating of the lubricant tends to occur, making it difficult to obtain a good molded product. As fatty acids, lauric acid, palmitic acid,
An example is stearic acid. It is necessary to add 3 to 20 parts by weight of fatty acid. If the amount of fatty acid is less than 3 parts by weight, the lubricity is poor, while if it exceeds 20 parts by weight, the fluidity of the lubricant is lowered, making it difficult to apply the lubricant and impairing its practicality.

【0008】リン酸エステルとしては、脂肪族アルコー
ル、アルキルアリールアルコール、ポリオキシエチレン
グリコール、ポリプロピレングリコール誘導体等の水酸
基をリン酸エステル化したものであり、例えばトリデシ
ルリン酸エステル、2−エチルヘキシルリン酸エステ
ル、ノニルフェノールリン酸エステル、ポリオキシエチ
レントリデシルエーテルリン酸エステルなどを示すこと
ができる。リン酸エステルの配合量が1重量部未満では
変色や腐食の防止に効果が不十分であり、また10重量
部を越えると乳化分散性を損なうことになる。
The phosphoric acid ester is a phosphoric acid ester of a hydroxyl group such as an aliphatic alcohol, an alkylaryl alcohol, a polyoxyethylene glycol, or a polypropylene glycol derivative. For example, tridecyl phosphoric acid ester, 2-ethylhexyl phosphoric acid ester, Nonylphenol phosphate ester, polyoxyethylene tridecyl ether phosphate ester, etc. may be mentioned. If the amount of the phosphate ester is less than 1 part by weight, the effect of preventing discoloration and corrosion is insufficient, and if it exceeds 10 parts by weight, the emulsification dispersibility is impaired.

【0009】固体潤滑材としては、粒度80μm以下の
グラファイト、二硫化モリブデン、タルク、マイカ、四
フッ化エチレン樹脂またはチッ化ホウ素等の固体潤滑材
の一種ないし数種を、1重量部以上15重量部以下分散
含有させる。粒度80μmを越える固体潤滑材は均一な
分散が難しく、またコストが高いため粒度80μm以下
とする。また配合量が1重量部未満では耐かじり性が劣
り、15重量部以上添加量を増やすと、高温で潤滑材が
片状となり脱落しやすく、このためにかじり性が安定し
なくなる。アルカリ性化合物としては、ナトリウム、カ
リウム等のアルカリ金属の水酸化物がコストおよび性能
の面からいっても好ましい。他のアルカリ性金属はその
脂肪酸塩の溶解性が劣り、ゲル化し易い傾向があり、長
期保存性に乏しい。
As the solid lubricant, one or more solid lubricants such as graphite having a particle size of 80 μm or less, molybdenum disulfide, talc, mica, tetrafluoroethylene resin or boron nitride are used in an amount of 1 part by weight or more and 15 parts by weight or more. Parts or less are dispersed and contained. Since it is difficult to uniformly disperse a solid lubricant having a particle size of more than 80 μm and the cost is high, the particle size should be 80 μm or less. If the blending amount is less than 1 part by weight, the galling resistance is inferior, and if the blending amount is 15 parts by weight or more, the lubricant becomes flaky at high temperature and is likely to fall off, which makes the galling property unstable. As the alkaline compound, hydroxides of alkali metals such as sodium and potassium are preferable in terms of cost and performance. Other alkaline metals have poor solubility of their fatty acid salts, tend to gel easily, and have poor long-term storage stability.

【0010】上記の原材料を用いて本発明のアルミニウ
ム材温間加工用潤滑材の製造法の一例を説明する。少量
の80℃の温水に、高級脂肪酸、リン酸エステルを投入
し、撹拌しながらアルカリ金属化合物を添加し、全体を
乳化分散させ、これを1%濃度に水に分散、溶解(一部
は溶解、一部は乳濁状態)させたときのpHが7.5〜
9.0とした後、これに固体潤滑材を添加し、水で10
0重量部に調製し、水系のアルミニウム材温間加工用潤
滑材とする。
An example of the method for producing the lubricant for warm working of aluminum material of the present invention using the above raw materials will be described. Higher fatty acid and phosphoric acid ester are put into a small amount of warm water at 80 ° C., an alkali metal compound is added while stirring, and the whole is emulsified and dispersed, and this is dispersed and dissolved in water to a concentration of 1% (some are dissolved). , Part of which is in an emulsion state) and has a pH of 7.5 to
After adjusting to 9.0, add solid lubricant to it and add water to 10
It is adjusted to 0 parts by weight and used as a water-based aluminum material warm working lubricant.

【0011】なお1%濃度におけるpHが7.5未満の
ときは潤滑材組成物の乳化分散性が損われ、長期保存性
が低下する。一方pHが9.0を越えるときはリン酸エ
ステルの変色防止作用、腐食防止作用が損われ本発明の
目的を達成し得なくなるのでpHは7.5〜9.0に限
定される。
When the pH at a 1% concentration is less than 7.5, the emulsifying dispersibility of the lubricant composition is impaired and the long-term storage stability is deteriorated. On the other hand, when the pH exceeds 9.0, the discoloration preventing effect and the corrosion preventing effect of the phosphoric acid ester are impaired and the object of the present invention cannot be achieved. Therefore, the pH is limited to 7.5 to 9.0.

【0012】本発明の温間加工用潤滑材が有効に作用す
る温度領域はアルミニウム材の種類により若干変動する
が、350℃以下、例えば180℃〜350℃において
加工する場合に有効に使用できる。温間成形加工作業と
しては成形金型や工具、ロールを予め加熱し成形する場
合と金属材料を予め熱しておく場合があるが、いずれの
場合も本発明の潤滑材を被加工アルミニウム材に予め室
温で塗布し、乾燥した後、成形に供する。また成形金型
や工具、ロールの表面にも加熱前に予め塗布しておくと
その効果はさらに安定する。
The temperature range in which the lubricant for warm working of the present invention works effectively varies slightly depending on the type of aluminum material, but it can be effectively used when working at 350 ° C. or lower, for example, 180 ° C. to 350 ° C. As the warm forming work, there is a case where a forming die, a tool, and a roll are preheated and a case where a metal material is preheated. In any case, the lubricant of the present invention is preliminarily applied to an aluminum material to be processed. The composition is applied at room temperature, dried and then used for molding. If the surface of the molding die, tool, or roll is applied in advance before heating, the effect is further stabilized.

【0013】[0013]

【作用】成形加工において潤滑材は生産効率や製品の品
位に大きく影響を与える。本発明の温間成形加工用潤滑
材のうち高級脂肪酸とアルカリ金属化合物とから得られ
る高級脂肪酸アルカリ塩はそれだけでも低温においては
潤滑作用を有し、これにリン酸エステルを配合すれば、
アルミニウム材の変色や腐食防止作用を有する潤滑材と
して用いることができる。しかし約200℃以上の温度
においては潤滑性が低下するので固体潤滑材を配合する
必要がある。
[Function] In the molding process, the lubricant has a great influence on the production efficiency and the quality of the product. Among the warm forming lubricants of the present invention, the higher fatty acid alkali salt obtained from the higher fatty acid and the alkali metal compound has a lubricating action even at low temperature, and if a phosphate ester is added to this,
It can be used as a lubricant having an effect of preventing discoloration and corrosion of an aluminum material. However, at a temperature of about 200 ° C. or higher, the lubricity decreases, so it is necessary to blend a solid lubricant.

【0014】本発明の温間成形用潤滑材は、配合された
高級脂肪酸、リン酸エステルおよびアルカリ金属化合物
の組成物がアルミニウム材表面に、潤滑性、かじり性、
脱脂性、耐食性に優れた潤滑皮膜を形成する。さらにこ
の潤滑皮膜は固体粉末潤滑材を保持し、分散させ、固着
させる役割を果し、固体潤滑材の高温で優れた潤滑性を
活かし、高温でも安定した固体潤滑皮膜を形成させる。
In the warm-forming lubricant of the present invention, the composition of the blended higher fatty acid, phosphoric acid ester and alkali metal compound is applied to the surface of the aluminum material for lubricity, galling, and
Form a lubricating film with excellent degreasing and corrosion resistance. Further, this lubricating film plays the role of holding, dispersing and fixing the solid powder lubricant, and takes advantage of the excellent lubricity of the solid lubricant at high temperature to form a stable solid lubricant film even at high temperature.

【0015】なお市販のアルカリ金属石鹸(高級脂肪酸
アルカリ金属塩)ではpHが9を越え、水を含む状態で
はアルミニウム材を腐食し易い組成物となるが、本発明
においてはpHを制御することと、リン酸エステルの効
果によりアルミニウム材の変色と腐食を効果的に抑制で
きた。またこの配合は理由は明確ではないが、潤滑材組
成物を安定した粘性状態に変え、塗布性を向上させ、同
時に長期保存をした時においても液体のゲル化や分離を
防ぎ、長期安定性に優れた温間加工用潤滑材となってい
る。
Commercially available alkali metal soaps (higher fatty acid alkali metal salts) have a pH of more than 9 and are compositions that easily corrode aluminum materials when they contain water. In the present invention, however, the pH should be controlled. The discoloration and corrosion of the aluminum material could be effectively suppressed by the effect of the phosphoric acid ester. The reason for this formulation is not clear, but it changes the lubricant composition to a stable viscous state to improve the coating property and at the same time prevents gelation and separation of liquid even when stored for a long period of time, resulting in long-term stability. It is an excellent lubricant for warm working.

【0016】[0016]

【実施例】【Example】

[試験方法] 1.液安定性(耐分離性、耐ゲル化性) 被試験剤を1リットルポリエチレンビンに室温で1ヶ月
間保管し、液の分離、固体粉末潤滑材の分離沈澱、ゲル
化等の状況を評価。 液に変化のないもの ○ 簡単な撹拌で元に戻るもの △ 簡単な撹拌で元に戻らない ×
[Test method] 1. Liquid stability (separation resistance, gelation resistance) The test agent was stored in a 1-liter polyethylene bottle at room temperature for 1 month and evaluated for liquid separation, solid powder lubricant separation and precipitation, and gelation. No change in the liquid ○ Return to the original with simple stirring △ Return to the original with simple stirring ×

【0017】2.塗布性 液安定性の◎、○、△のものを評価対象とした、常温で
刷毛塗り、スポンジ塗りの可否で評価。 刷毛塗り、スポンジ塗り可で均一 ○ スポンジ塗り可で均一 △ スポンジ塗り可だが不均一 ×
2. Applicability The liquid stability ⊚, ○, and Δ were evaluated, and the brush coating and sponge coating were evaluated at room temperature. Brush coating, sponge coating possible, uniform ○ Sponge coating possible, uniform △ Sponge coating possible, non-uniform ×

【0018】3.摩擦特性 バウデン摩擦摩耗試験機で評価 摺動工具:径10mmφベアリング球、垂直荷重W:1
kgf、摺動速度:0.57mm/min アルミニウム板材(5182-0 1.0t)の両面に被試験
剤を10〜20g/m2 の割合にスポンジ塗りし、室温
乾燥後、設定温度(300℃)に加熱したバウデン試験
機摺動台上に載せ、アルミニウム板材が290℃に達し
た時、摺動試験を開始し、摺動抵抗Fを測定し、μ=F
/Wで摩擦係数を算出する。 摩擦係数が0.1以下 ○ 摩擦係数が0.25以下 △ 摩擦係数が0.25を越える ×
3. Friction characteristics Evaluated by Bowden friction and wear tester Sliding tool: Diameter 10mmφ bearing ball, vertical load W: 1
kgf, sliding speed: 0.57 mm / min Both sides of an aluminum plate material (5182-0 1.0 t) are sponged with a test agent at a rate of 10 to 20 g / m 2 , dried at room temperature, and then set temperature (300 ° C.). ), The slide test was started when the aluminum plate material reached 290 ° C., the sliding resistance F was measured, and μ = F
Calculate the friction coefficient by / W. Friction coefficient 0.1 or less ○ Friction coefficient 0.25 or less △ Friction coefficient exceeds 0.25 ×

【0019】4.かじり性 バウデン摩擦摩耗試験機で評価 摩擦係数測定と同条件で限界往復摺動回数を測定。摺動
限界は摩擦係数が0.3を越える回数とする。 限界往復摺動回数5回以上 ○ 限界往復摺動回数2回以上 △ 限界往復摺動回数2回未満 ×
4. Gallability Evaluated with Bowden friction and wear tester. The limit number of reciprocating slides was measured under the same conditions as the friction coefficient measurement. The sliding limit is the number of times that the coefficient of friction exceeds 0.3. Limit number of reciprocating slides 5 times or more ○ Limit reciprocating number of slides 2 times or more △ Limit reciprocating number of slide times less than 2 ×

【0020】5.脱脂性試験 アルミニウム板材(5182-0 1.0t)の両面に被試験
剤をスポンジ塗りし、室温乾燥後、設定温度(300
℃)に加熱した鋼板熱板間で2min間挟み、その後脱
脂試験を行う。 脱脂液:2%アルカリ脱脂液(市販品)44℃ 120
sec浸漬 水洗:水道水流水 室温30sec 判定:取り出し後30sec後の水漏れ面積% 水漏れ面積 95%以上 ○ 80%以上 △ 80%未満 ×
5. Degreasing test A test piece is sponged on both sides of an aluminum plate (5182-0 1.0t), dried at room temperature, and then set at a set temperature (300
C.) is sandwiched between hot plates heated for 2 minutes, and then a degreasing test is performed. Degreasing liquid: 2% alkaline degreasing liquid (commercial item) 44 ° C 120
sec Immersion Washing with water: tap water running room temperature 30 sec Judgment: Water leakage area after 30 seconds after taking out% Water leakage area 95% or more ○ 80% or more △ less than 80% ×

【0021】6.耐食性試験 アルミニウム板材(5182-0 1.0t)の両面に被試験
剤をスポンジ塗りし、室温乾燥後、設定温度(300
℃)に加熱した加熱鋼板間に2min間挟み、その後耐
食試験を行う。 試験条件:40℃×湿度80% 1ヶ月 垂直立てかけ 判定:取り出し後の外観観察 腐食無し ○ 点状腐食わずかあり △ 多数の点状腐食か面腐食あり ×
6. Corrosion resistance test Sponge coating is applied to both sides of aluminum plate (5182-0 1.0t), and after drying at room temperature, set temperature (300
C.) is sandwiched between heated steel sheets for 2 minutes, and then a corrosion resistance test is performed. Test conditions: 40 ° C x 80% humidity for 1 month Vertically leaning Judgment: Observation of appearance after taking out No corrosion ○ Slight pitting corrosion △ Large number of pitting corrosion or surface corrosion ×

【0022】7.コスト 潤滑材の価格が高い(1m×1m材塗布価格100円以
上) × 安い(1m×1m材塗布価格100円未満) ○
7. Cost The price of the lubricant is high (1m x 1m material application price 100 yen or more) x Cheap (1m x 1m material application price less than 100 yen) ○

【0023】[実施例1〜9]高級脂肪酸として牛脂脂
肪酸、リン酸エステルとしてトリデシルリン酸エステル
およびポリオキシエチレンラウリルリン酸エステルを少
量の水に添加し、苛性ソーダおよび水を加えてその1%
濃度の分散・水溶液のpHが表1に示す所定の値となる
様に調整したのち固体潤滑材として粒度2μmの二硫化
モリブデンおよび粒度2μmのグラファイトを表1に示
す所定量配合し、更に水を加えて全量を100重量部と
した。この様にして得られた温間加工用潤滑材組成物を
前記試験方法により測定を行った。評価の結果は表3に
示す。
[Examples 1 to 9] Beef tallow fatty acid as the higher fatty acid, tridecyl phosphate and polyoxyethylene lauryl phosphate as the phosphate were added to a small amount of water, and caustic soda and water were added to add 1% thereof.
After adjusting the concentration dispersion and the pH of the aqueous solution to the predetermined values shown in Table 1, molybdenum disulfide with a particle size of 2 μm and graphite with a particle size of 2 μm were mixed as the solid lubricant in the predetermined amounts shown in Table 1, and water was further added. In addition, the total amount was 100 parts by weight. The warm-working lubricant composition thus obtained was measured by the above-described test method. The evaluation results are shown in Table 3.

【0024】[比較例1〜10]高級脂肪酸として牛脂
脂肪酸、カプリン酸、ベヘニン酸を、リン酸エステルと
してトリデシルリン酸エステル、ポリオキシエチレンラ
ウリルリン酸エステルを、固体潤滑材として粒度2μm
および100μmの二硫化モリブデンおよび粒度2μm
のグラファイトおよび苛性ソーダを用い、表2に示す組
成割合で実施例に準じ潤滑材組成物を調製し、実施例と
同じ試験方法で評価を行った。結果を表3に示す。
Comparative Examples 1 to 10 Beef tallow fatty acid, capric acid and behenic acid as higher fatty acids, tridecyl phosphate ester and polyoxyethylene lauryl phosphate ester as phosphoric acid ester, and particle size 2 μm as solid lubricant.
And 100 μm molybdenum disulfide and particle size 2 μm
Using the above graphite and caustic soda, a lubricant composition was prepared according to the examples in the composition ratios shown in Table 2, and evaluated by the same test method as the examples. The results are shown in Table 3.

【0025】[比較例11〜17]従来の温間加工潤滑
材として使用されている下記の潤滑材を同じ様に評価し
た。但し比較例11のポリ四フッ化エチレンは固体であ
るため液安定性の試験は行わない。 比較例11.ポリ四フッ化エチレンシート(通称テフロ
ン:デュポン製 厚さ25μm) 比較例12.大豆油 比較例13.グラファイト分散合成油(ポリブテン) 比較例14.グラファイトグリース(市販品) 比較例15.シリコーンオイル 比較例16.プレス油 鉱物油+リン系添加剤(市販
品) 比較例17.水溶性WAX ジョンソンWAX#700
(市販品) 評価結果を表3に示す。
Comparative Examples 11 to 17 The following lubricants used as conventional warm working lubricants were evaluated in the same manner. However, since the polytetrafluoroethylene of Comparative Example 11 is a solid, the liquid stability test is not performed. Comparative Example 11. Polytetrafluoroethylene sheet (commonly called Teflon: made by DuPont, thickness 25 μm) Comparative Example 12. Soybean oil Comparative Example 13. Graphite-dispersed synthetic oil (polybutene) Comparative Example 14. Graphite grease (commercially available product) Comparative example 15. Silicone oil Comparative Example 16. Press oil Mineral oil + phosphorus-based additive (commercially available product) Comparative example 17. Water-soluble WAX Johnson WAX # 700
(Commercial item) Table 3 shows the evaluation results.

【0026】[0026]

【表1】 [Table 1]

【0027】[0027]

【表2】 [Table 2]

【0028】[0028]

【表3】 [Table 3]

【0029】[0029]

【発明の効果】以上詳細に説明し、実施例にも示した様
に、本発明の温間加工用潤滑材は、アルミニウム材の高
温の加工に適した温間加工用潤滑材である。例えば実施
例で示す様にアルミニウム材を室温以上再結晶温度以下
の温度、特に180℃以上350℃以下の高温で加工す
る際に使用したときは、 (1)耐かじり性に優れ、連続作業が可能であり、 (2)潤滑性に優れ、加工限界を向上させ (3)耐焼付け性が優れ、脱脂性が安定し、良好な製品
表面品質が得られ、 (4)着火や発煙、臭気等もなく作業環境が悪化せず、 (5)また長期保存にあっても長期安定性に優れ固体潤
滑材の分散も安定し、 (6)塗布に際しては、錦糸状にならず粘度が均一でハ
ケ塗り、ロールコート、浸漬等の各種塗布法が可能であ
る。 (7)潤滑材を塗布し、温間加工し長期間放置したあと
であっても、アルミニウム材を変色させず、また腐食さ
せず、安全に使用できる。等の特徴がある。
As described above in detail and as shown in the examples, the warm working lubricant of the present invention is a warm working lubricant suitable for high temperature working of an aluminum material. For example, as shown in the examples, when the aluminum material is used for processing at a temperature of room temperature or higher and a recrystallization temperature or lower, particularly at a high temperature of 180 ° C. or higher and 350 ° C. or lower, (1) excellent galling resistance and continuous work (2) Excellent lubricity and improved processing limit (3) Excellent seizure resistance, stable degreasing, good product surface quality, (4) Ignition, smoke, odor, etc. The working environment does not deteriorate, and (5) it has excellent long-term stability even during long-term storage, and the dispersion of the solid lubricant is stable. (6) When applied, it does not form a tinsel and has a uniform viscosity Various coating methods such as coating, roll coating and dipping are possible. (7) Even after the lubricant is applied, warm-worked, and left for a long period of time, the aluminum material is not discolored or corroded and can be safely used. There are features such as.

───────────────────────────────────────────────────── フロントページの続き (51)Int.Cl.6 識別記号 庁内整理番号 FI 技術表示箇所 C10M 103:06 C F 107:38) C10N 10:02 10:12 20:00 Z 30:12 30:20 40:24 A (72)発明者 吉田 正勝 東京都中央区日本橋室町4−13−8スカイ アルミニウム株式会社内 (72)発明者 小林 敏明 東京都中央区日本橋室町4−13−8スカイ アルミニウム株式会社内 (72)発明者 橋本 浩二 東京都千代田区大手町2−6−3新日本製 鐵株式会社内 (72)発明者 奥山 毅 大阪府高槻市道鵜町4−22−1日油工業株 式会社内─────────────────────────────────────────────────── ─── Continuation of the front page (51) Int.Cl. 6 Identification code Office reference number FI technical display location C10M 103: 06 CF 107: 38) C10N 10:02 10:12 20:00 Z 30:12 30 : 20 40:24 A (72) Inventor Masakatsu Yoshida 4-13-8 Sky Nihonbashi Muromachi, Chuo-ku, Tokyo Within Aluminum Co., Ltd. (72) Toshiaki Kobayashi 4-13-8 Nihombashi Muromachi, Chuo-ku, Tokyo Sky Aluminum Stock In-house (72) Inventor Koji Hashimoto 2-6-3 Otemachi, Chiyoda-ku, Tokyo Nippon Steel Co., Ltd. (72) Inventor Takeshi Okuyama 4-22-1 Dou-cho, Takatsuki City, Osaka In the company

Claims (2)

【特許請求の範囲】[Claims] 【請求項1】 高級脂肪酸リン酸エステルおよびアルカ
リ金属化合物からなり、該組成物を1%濃度に水に分
散、溶解せしめたときのpHが7.5〜9.0とした後
固体潤滑材を添加したことを特徴とするアルミニウム材
温間加工用潤滑材。
1. A solid lubricant comprising a higher fatty acid phosphoric acid ester and an alkali metal compound, which has a pH of 7.5 to 9.0 when the composition is dispersed and dissolved in water to a concentration of 1%. A lubricant for warm working of aluminum material, which is characterized by being added.
【請求項2】 高級脂肪酸が主として炭素数10〜20
の飽和脂肪酸あるいはこれに少量の不飽和脂肪酸を含む
もの、またはヤシ油脂肪酸、牛脂脂肪酸等の天然油脂肪
酸3〜20重量部、アルキルリン酸エステル、アルキル
−アリールリン酸エステルまたはポリオキシアルキレン
リン酸エステルの少なくとも一種からなるリン酸エステ
ル1〜10重量部にアルカリ金属化合物を加え、該組成
物を1%濃度に水に分散、溶解せしめたときのpHが
7.5〜9.0とした後粒度80μm以下のグラファイ
ト、二硫化モリブデン、タルク、マイカ、フッ素系樹
脂、チッ化ホウ素の少なくとも一種を含む固体潤滑材1
〜15重量部を添加した請求項1記載のアルミニウム材
温間加工用潤滑材。
2. The higher fatty acid mainly contains 10 to 20 carbon atoms.
Saturated fatty acids or those containing a small amount of unsaturated fatty acids, or 3-20 parts by weight of natural oil fatty acids such as coconut oil fatty acids and beef tallow fatty acids, alkyl phosphates, alkyl-aryl phosphates or polyoxyalkylene phosphates Alkali metal compound is added to 1 to 10 parts by weight of a phosphoric ester consisting of at least one of the above, and the composition is dispersed and dissolved in water to a concentration of 1% to obtain a pH of 7.5 to 9.0 and then a particle size. Solid lubricant 1 containing at least one of graphite of 80 μm or less, molybdenum disulfide, talc, mica, fluorine resin, and boron nitride
The lubricant for warm working of an aluminum material according to claim 1, wherein -15 parts by weight is added.
JP23235994A 1994-08-31 1994-08-31 Lubricating material for hot working of aluminum material Withdrawn JPH0873883A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP23235994A JPH0873883A (en) 1994-08-31 1994-08-31 Lubricating material for hot working of aluminum material

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP23235994A JPH0873883A (en) 1994-08-31 1994-08-31 Lubricating material for hot working of aluminum material

Publications (1)

Publication Number Publication Date
JPH0873883A true JPH0873883A (en) 1996-03-19

Family

ID=16937982

Family Applications (1)

Application Number Title Priority Date Filing Date
JP23235994A Withdrawn JPH0873883A (en) 1994-08-31 1994-08-31 Lubricating material for hot working of aluminum material

Country Status (1)

Country Link
JP (1) JPH0873883A (en)

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US5998018A (en) * 1996-04-04 1999-12-07 Sony Chemicals Corp. Coat masking tape base material, and coat masking tape
JP2003089797A (en) * 2001-09-18 2003-03-28 Cosmo Sekiyu Lubricants Kk Lubricant for plastic working of magnesium alloy
WO2005095564A1 (en) * 2004-03-31 2005-10-13 Idemitsu Kosan Co., Ltd. Aqueous lubricant composition for metal material working
US20060063684A1 (en) * 2002-11-21 2006-03-23 Oiles Corporation Solid lubricant and sliding member

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US5998018A (en) * 1996-04-04 1999-12-07 Sony Chemicals Corp. Coat masking tape base material, and coat masking tape
JP2003089797A (en) * 2001-09-18 2003-03-28 Cosmo Sekiyu Lubricants Kk Lubricant for plastic working of magnesium alloy
US20060063684A1 (en) * 2002-11-21 2006-03-23 Oiles Corporation Solid lubricant and sliding member
US8304373B2 (en) * 2002-11-21 2012-11-06 Oiles Corporation Solid lubricant and sliding member
WO2005095564A1 (en) * 2004-03-31 2005-10-13 Idemitsu Kosan Co., Ltd. Aqueous lubricant composition for metal material working
JP2005290154A (en) * 2004-03-31 2005-10-20 Idemitsu Kosan Co Ltd Aqueous lubricant composition for metal material processing

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