JPS619597A - Plating method of aluminum piston - Google Patents
Plating method of aluminum pistonInfo
- Publication number
- JPS619597A JPS619597A JP13029284A JP13029284A JPS619597A JP S619597 A JPS619597 A JP S619597A JP 13029284 A JP13029284 A JP 13029284A JP 13029284 A JP13029284 A JP 13029284A JP S619597 A JPS619597 A JP S619597A
- Authority
- JP
- Japan
- Prior art keywords
- plating
- iron
- aluminum
- nickel
- piston
- 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
Links
Classifications
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F05—INDEXING SCHEMES RELATING TO ENGINES OR PUMPS IN VARIOUS SUBCLASSES OF CLASSES F01-F04
- F05C—INDEXING SCHEME RELATING TO MATERIALS, MATERIAL PROPERTIES OR MATERIAL CHARACTERISTICS FOR MACHINES, ENGINES OR PUMPS OTHER THAN NON-POSITIVE-DISPLACEMENT MACHINES OR ENGINES
- F05C2201/00—Metals
- F05C2201/02—Light metals
- F05C2201/021—Aluminium
Landscapes
- Pistons, Piston Rings, And Cylinders (AREA)
- Chemically Coating (AREA)
- Electroplating Methods And Accessories (AREA)
- Other Surface Treatments For Metallic Materials (AREA)
Abstract
Description
【発明の詳細な説明】
(産業上の利用分野)
本発明は、オールアルミ製エンジンのピストンに耐摩耗
性および耐焼付き性を付与することを目的として施され
る、鉄系金属めっきのめっき方法に関するものである@
(従来の技術)
シリンダライナーとピストンに、ともにアルミ材を使用
したオールアルミ製エンジンでは、ピストン表面に耐摩
耗性、耐焼付き性の良好なめっきを施こす必要がある0
この耐摩耗性等の良好なめっきとしては、鉄系めりきが
一般的に行われているが、鉄めっき浴はpH値が1〜2
と低いため、アルミピストンを直接めっき浴中に浸漬す
ると、アルミ素材ならびにめっきの下地処理として施さ
れた亜鉛置換層の亜鉛が溶出し、そのためめっきの密着
不良等の問題が発生する。Detailed Description of the Invention (Field of Industrial Application) The present invention relates to a plating method for iron-based metal plating, which is applied for the purpose of imparting wear resistance and seizure resistance to all-aluminum engine pistons. (Conventional technology) In an all-aluminum engine in which both the cylinder liner and piston are made of aluminum, the piston surface must be plated with good wear resistance and seizure resistance.
Iron-based plating is generally used as a plating with good wear resistance, but iron plating baths have a pH value of 1 to 2.
Therefore, if an aluminum piston is directly immersed in a plating bath, the aluminum material and the zinc in the zinc substitution layer applied as a base treatment for plating will be eluted, resulting in problems such as poor plating adhesion.
このような問題が生ずるのを防止するために、鉄系めっ
きを施す前に1アルミピストンにpH値の高いめっき浴
で下地めっきを施すことが行われている0この下地めっ
きとしては、従来は、pH4〜6のシアン化銅浴、スル
フアミノ酸ニッケル浴等に↓)電気めりきにて、銅また
はニッケルを3〜5μm程度の厚さに、めっきしていた
・電気めっきは、従来種々のめっきに常用されており、
厚くめっきできるという利点はあるが、被めっき物の形
状等にあわせて適当な電極を選択しないとめっきのつき
まわりが悪いという問題があシ、そのためピストンの内
側のめっきには補助陽極を使用しなければならない等、
めっき工程が複雑になるという問題がちった。このめっ
きが不充分であると、当然のことながら後の鉄系金属の
めっきに支障をきたす。そのため、従来よシ操作が容易
でしかも後の鉄系金属めっきが支障なく行われるアルミ
ピストンのめっき方法が要望されていた。In order to prevent such problems from occurring, it is common practice to apply base plating to the aluminum piston in a plating bath with a high pH value before applying iron-based plating. ↓) Copper or nickel was plated to a thickness of about 3 to 5 μm by electroplating in a copper cyanide bath, a nickel sulfur amino acid bath, etc. with a pH of 4 to 6. It is commonly used for plating,
Although it has the advantage of being able to plate thickly, there is a problem that the plating coverage is poor unless the appropriate electrode is selected according to the shape of the object to be plated. Therefore, an auxiliary anode is used for plating the inside of the piston. must, etc.
The problem was that the plating process was complicated. If this plating is insufficient, it naturally causes problems in the subsequent plating of iron-based metals. Therefore, there has been a need for a method of plating aluminum pistons that is easier to operate than conventional methods and that allows subsequent ferrous metal plating to be performed without any problems.
(発明が解決しようとする問題一点)
本発明は上記従来の要望に応えるもので、下地めっきに
際して補助電極等を必要とせず、しかも均一な銅または
ニッケルめっきを施すことができ、後の鉄系金属めっき
の仕上シも良好なアルミピストンのめっき方法を提供せ
んとするものである〇
(問題点を解決するための手段)
本発明は、形成される皮膜が電気めっき皮膜に比べて硬
く、厚くめっきすると密着力に問題があるとかまた高価
であるなどのことから、アルミピストンの鉄系めっきの
下地処理には従来使用されていなかった無電解めっきを
用いて上記問題点を解決したものである◎
すなわち、本発明のアルミピストンのめっき方法は、ア
ルミ製ピストン基材にアルカリエツチング等の下地処理
を施し、亜鉛置換処理したのち、無電解めっきによりニ
ッケルまたは銅めっきをし、しかるのち所定の鉄系金属
めっきを施すことを特徴とする◎
本発明において被めっき物であるアルミ製ピストン基材
は、特に限定されることなく、従来のものが使用できる
0ピストン基材け、常法にしたがって必要ならばサンド
ブラストなどの物理的研摩をしたのち、トリクレン超音
波洗浄などKよって脱脂処理し、その後アルカリエツチ
ング、酸洗つづいて亜鉛置換処理を行う0酸洗と亜鉛置
換処理は、必要に応り1回以上、例えば2回行ってもよ
い。各処理工程では水洗を充分に行うのが好ましい0亜
鉛置換処理後、無電解めっき(化学めっき)を行う。無
電解めっき後は、水洗し、従来の鉄めっきまたは鉄−リ
ン合金めっきもしくはこれらをベース浴とした複合めっ
きを電解めりきKよって行う0最後にスズめっきを電解
めっきKよって行い、目的とするアルミピストンを得る
0なお、本発明において鉄めっきは、耐摩耗性、耐焼付
き性等の強度を有する鉄系合金のめっきを意味する〇〔
作用〕
本発明において亜鉛置換処理は、めっきの付着特に銅ま
たはニッケルめっきの付きをよくするために行われる。(One problem to be solved by the invention) The present invention responds to the above-mentioned conventional demands, and does not require auxiliary electrodes etc. during base plating, and can uniformly plate copper or nickel. It is an object of the present invention to provide a method for plating aluminum pistons with a good metal plating finish. We solved the above problems by using electroless plating, which has not been previously used as a base treatment for iron-based plating on aluminum pistons, because plating has problems with adhesion and is expensive. ◎ That is, the method of plating an aluminum piston of the present invention involves performing a base treatment such as alkali etching on an aluminum piston base material, performing a zinc substitution treatment, and then plating with nickel or copper by electroless plating, and then plating with a specified iron. ◎ The aluminum piston base material to be plated in the present invention is not particularly limited, and conventional piston base materials can be used. If so, after physical polishing such as sandblasting, degreasing with K such as Triclean ultrasonic cleaning, followed by alkaline etching, pickling, and zinc replacement treatment. It may be performed more than once, for example twice. In each treatment step, electroless plating (chemical plating) is performed after zero zinc replacement treatment, which is preferably performed with sufficient water washing. After electroless plating, wash with water and perform conventional iron plating, iron-phosphorus alloy plating, or composite plating using these as a base bath using electrolytic plating K.Finally, tin plating is performed using electrolytic plating K to achieve the desired purpose. Obtaining an aluminum piston0 In the present invention, iron plating means plating of an iron-based alloy that has strength such as wear resistance and seizure resistance〇〇
Effect] In the present invention, the zinc substitution treatment is carried out to improve the adhesion of plating, especially copper or nickel plating.
本発明においても従来の方法と同様に、NaOHとZn
Oを含む水溶液に浸漬することによって行われる。In the present invention, as in the conventional method, NaOH and Zn
This is done by immersion in an aqueous solution containing O.
本発明で行う無電解めっきは、次の鉄めっきの際のめっ
き浴によってアルミピストンが侵されるのを防止するた
めであシ、そのためピストン表面を均一に覆い、防蝕の
目的が達成される程度にめっきする0めっき浴としては
、通常の無電解めっき用の銅めっき浴、ニッケルめっき
浴が使用できる・めっき量としては1〜3μmlL程度
、通常2μm程度めっきする。The electroless plating performed in the present invention is to prevent the aluminum piston from being corroded by the plating bath during the next iron plating, and therefore the piston surface is uniformly coated to the extent that the purpose of corrosion prevention is achieved. As the zero plating bath for plating, a copper plating bath or a nickel plating bath for normal electroless plating can be used.The amount of plating is about 1 to 3 μml, usually about 2 μm.
鉄系金属のめっきは、ピストンに耐摩耗性、耐焼付き性
を付与するために、行われる◎とのめっきは従来のアル
ミピストンのめっきと全く同様に行う。最後に行うスズ
めっきは、ピストンの初期なじみ性と鉄めっきの防蝕を
目的として行われる。通常、鉄めっきは20μm程度、
すずめつきは1〜2μm程度の厚さにめっきされる。Plating with iron-based metal is performed in order to impart wear resistance and seizure resistance to the piston. Plating with ◎ is performed in exactly the same way as conventional aluminum piston plating. The final tin plating is done to improve the initial conformability of the piston and to prevent corrosion of the iron plating. Usually, iron plating is about 20μm,
The tin plate is plated to a thickness of about 1 to 2 μm.
(実施例および比較例) 以下本発明を実施例および試験例にょp説明する。(Example and comparative example) The present invention will be explained below with reference to Examples and Test Examples.
実施例
図は本発明の一実施例を示す工程図である0図にしたが
ってめっき工程を説明する。なお、めっきすべきアルミ
製ピストン基材としては、アルミ合金(’AC8A、T
6)からなるものを用いた。Embodiment The plating process will be explained according to FIG. 0, which is a process diagram showing one embodiment of the present invention. The aluminum piston base material to be plated is aluminum alloy ('AC8A, T
6) was used.
1、脱脂
トリクレン中で超音波洗浄する〇
λアルカリエツチング
液温50℃の10チ水酸化ナトリウム水溶液中に60秒
間浸漬する。水洗後次の処理を行う(以下次工程に移る
前に全て水洗する)。1. Ultrasonic cleaning in degreasing trichlene.〇 Dive for 60 seconds in an aqueous solution of 10% sodium hydroxide at a 50°C alkali etching solution temperature. After washing with water, perform the next process (all items are washed with water before moving on to the next step).
五酸洗
70係HNO3水溶液中に120 t/lのNH4HF
を含む処理液に50秒浸漬する◇液温は室温である(以
下特記しない場合は液温は室温を示す)0瓜亜鉛置換
NaOH500t/lとZn0100 t/lを含む処
理液中に60秒間浸漬処理する〇
&酸洗
50%HNO3水溶液に30秒浸漬する。120 t/l NH4HF in HNO3 aqueous solution
Immerse for 50 seconds in a treatment solution containing ◇The solution temperature is room temperature (unless otherwise specified, the solution temperature indicates room temperature) Immerse for 60 seconds in a treatment solution containing 500t/l of zinc-substituted NaOH and 100t/l of Zn Process〇 & Pickling Immerse in 50% HNO3 aqueous solution for 30 seconds.
&亜鉛置換
前記と同様に処理する◇
l無電解ニッケルめっき
市販の無電解Niめっき液商品名二ムデン5×(上材工
業■製)を用いて無電解めっきした。& Zinc replacement Treated in the same manner as above ◇ l Electroless nickel plating Electroless plating was carried out using a commercially available electroless Ni plating solution, trade name Nimuden 5× (manufactured by Uezai Kogyo ■).
膜厚2μllt。Film thickness: 2μllt.
a鉄めっきまたは鉄リンめっき 次の各めっき浴を用いて約20μm厚にめっきした。a Iron plating or iron phosphorus plating Plating was carried out to a thickness of approximately 20 μm using each of the following plating baths.
1)鉄めっき
浴組成:FeC4500?/1
CaC1,340t/l
pH1,0〜1.5
浴 温:90℃
めっき条件: 電流密度 6A/(h?時間
20分間
2)鉄、リンめっき
浴組成: Fe3O4、7H20250f/LNH4C
t 50 ?/1H3B0.
20 t/1N)14F 、HF 5
t/1At2(804)3.14〜18H201f/
1NaH2PO2,H2Oα1 t/l
pH1,6〜2.0
浴 温:60℃
めっき条件:電流密度 4A/dm”時間 2
0分間
ρスズめっき
市販のスズめっき浴ディップゾール■製5N−252を
用いて膜厚1μ風に電解めっきした。1) Iron plating bath composition: FeC4500? /1 CaC1,340t/l pH1,0-1.5 Bath temperature: 90℃ Plating conditions: Current density 6A/(h? time
20 minutes 2) Iron, phosphorus plating bath composition: Fe3O4, 7H20250f/LNH4C
t50? /1H3B0.
20t/1N) 14F, HF 5
t/1At2(804)3.14~18H201f/
1NaH2PO2, H2Oα1 t/l pH 1,6-2.0 Bath temperature: 60°C Plating conditions: Current density 4A/dm” Time 2
0 minute ρ tin plating Electrolytic plating was carried out to a film thickness of 1 μm using a commercially available tin plating bath 5N-252 manufactured by Dipsol ■.
上記めっき処理によって鉄めっきアルミピストンと鉄、
リンめっきアルミピストンの2種類を得た。Iron plated aluminum piston and iron by the above plating process,
Two types of phosphor-plated aluminum pistons were obtained.
比較例
上記めっき工程において、7番目の無電解めっきを従来
の電解めっきに代えたnかは全く同様に処理して、鉄め
っきアルミピストンと鉄。Comparative Example In the above plating process, the 7th electroless plating was replaced with the conventional electrolytic plating, and the same process was used to produce iron-plated aluminum pistons and iron.
リンめっきアルミピストンの2種類を得た。なお電気ニ
ッケルめっき条件は次のとおシ0めっき膜厚はピストン
表面部で5μmとした〇浴 組 成ニスルアアミン酸N
i 4609/L塩化ニツケル 12 t/
l
ホウ酸 45 f/l
pH4,0〜4.4
浴 温: 50℃
めっき条件:電液密度 4A/d一
時間 5分間
試験例1
上記実施例および参考例で得た4種のアルミピストンを
それぞれ4気筒、2000ccのエンジンに組付けて、
100時間の台上試験を行ったところいずれも全く支障
がなかった。Two types of phosphor-plated aluminum pistons were obtained. The electrolytic nickel plating conditions were as follows.The plating film thickness was 5 μm on the piston surface.Bath Composition Nisluamic acid N
i 4609/L Nickel chloride 12 t/
l Boric acid 45 f/l pH 4.0 to 4.4 Bath temperature: 50°C Plating conditions: Electrolyte density 4 A/d 1 hour 5 minutes Test example 1 Four types of aluminum pistons obtained in the above examples and reference examples were Each is attached to a 4-cylinder, 2000cc engine,
When a 100-hour bench test was conducted, there were no problems at all.
試験例2
実施例のめっき処理において、無電解ニッケルめっきの
膜厚Q、5μFK、1μm、3μm、5μmの4段階に
めっきしたほかは全く上記と同様に処理して2000
cc用鉄めっきアルミピストン4種を作製した。Test Example 2 In the plating treatment of the example, the electroless nickel plating was plated in four stages of film thickness Q, 5 μFK, 1 μm, 3 μm, and 5 μm.
Four types of iron-plated aluminum pistons for CC were manufactured.
また同様に、上記比較例のめっき処理において、電気ニ
ッケルめっきの膜厚をピストン表面部で1μm、5μm
、5μm、7μmの4段階としたほかは同様に処理して
鉄めっきアルミピストン4種を作製した。Similarly, in the plating process of the above comparative example, the film thickness of the electrolytic nickel plating was 1 μm and 5 μm on the piston surface.
Four types of iron-plated aluminum pistons were produced in the same manner except that the thickness was changed to four stages: , 5 μm, and 7 μm.
上記各4種の鉄めっきピストンについて目視で仕上り状
態を判断したところでは、めっき膜厚1μmと3μmの
電気ニッケルめっきをしたものは、鉄めっき時にニッケ
ルのつきまわシの悪い部分に下地が鉄めっき浴に侵され
た状態が認められ実用不可と判断された。Visually judging the finished condition of each of the above four types of iron-plated pistons, we found that those with electrolytic nickel plating with a plating film thickness of 1 μm and 3 μm have iron plating on the parts where nickel does not spread well during iron plating. It was found to be in a state of being contaminated by the bath, and was judged to be unusable.
残勺のものについてはエンジンに組付け100時間のエ
ンジン台上試験を行ったところ、無電解めっきしたもの
はNiめっき厚0.5μ廓のものは一部鉄めっきの剥れ
が認められた。また、無電解Niめつき厚5μmのもの
は試験後ピストン面に打痕を与えると鉄めっきに割れが
認められた。As for those with residual residue, when they were assembled into an engine and subjected to an engine bench test for 100 hours, some peeling of the iron plating was observed on those electrolessly plated with a Ni plating thickness of 0.5 μm. Furthermore, in the case of the electroless Ni plating with a thickness of 5 μm, cracks were observed in the iron plating when a dent was made on the piston surface after the test.
一方、電解Niめっきを施したものはNiめっき厚1μ
虐と3μmのものを除いては全て良好な結果が得られた
。On the other hand, those with electrolytic Ni plating have a Ni plating thickness of 1 μm.
Good results were obtained in all cases except for those with a diameter of 3 μm.
上記の試験結果から、電解Niめっきではつきまわりの
関係から少くとも表面部で4μm以上のめっき厚が必要
であることがわかる。一方、無電解Niめっきでは0.
5μmでは鉄めっきの剥れが認められ、5μmでは鉄め
っきに割れが認められたことからめっき膜厚は1〜4μ
mの範囲内であることが必要であることがわかる@
上記の結果は銅めっきの場合にもはソ同様の結果が得ら
れる。From the above test results, it can be seen that electrolytic Ni plating requires a plating thickness of 4 μm or more at least on the surface due to the throwing power. On the other hand, electroless Ni plating is 0.
Peeling of the iron plating was observed at 5 μm, and cracking was observed in the iron plating at 5 μm, so the plating film thickness was 1 to 4 μm.
It can be seen that it is necessary to be within the range of m. The above results can be obtained in the case of copper plating as well.
(効果ン
本発明は、無電解めっきを、アルミピストンの鉄めっき
用下地めっきとして使用することにより、その効−めっ
き性によって従来の如く補助電極を使用する必要がなく
、めっき工程が簡素化された◇また、本発明は下地めっ
き厚も従来の電気めっきに比べ小さくてすむため、経済
的にも何等孫色もないなど種々の優れた効果を奏する◇(Effect) The present invention uses electroless plating as the base plating for iron plating on aluminum pistons, and due to its effectiveness, there is no need to use auxiliary electrodes as in the past, simplifying the plating process. ◇Furthermore, since the thickness of the base plating of the present invention is smaller than that of conventional electroplating, it has various excellent effects, including economical advantages.◇
図は本発明の一実施例の工程図を示す。 特許出願人 トヨタ自動車株式会社 同 上村工業株式会社 The figure shows a process diagram of an embodiment of the present invention. Patent applicant: Toyota Motor Corporation Same Uemura Kogyo Co., Ltd.
Claims (1)
を施し、亜鉛置換処理したのち、無電解めっきによりニ
ッケルまたは銅めっきを1〜4μmし、しかるのち所定
の鉄系金属めっきを施すことを特徴とするアルミピスト
ンのめっき方法。It is characterized by subjecting the aluminum piston base material to preliminary treatment such as alkali etching, followed by zinc substitution treatment, and then applying 1 to 4 μm of nickel or copper plating by electroless plating, and then applying a predetermined iron-based metal plating. Aluminum piston plating method.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP13029284A JPS619597A (en) | 1984-06-25 | 1984-06-25 | Plating method of aluminum piston |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP13029284A JPS619597A (en) | 1984-06-25 | 1984-06-25 | Plating method of aluminum piston |
Publications (2)
Publication Number | Publication Date |
---|---|
JPS619597A true JPS619597A (en) | 1986-01-17 |
JPS641557B2 JPS641557B2 (en) | 1989-01-11 |
Family
ID=15030823
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP13029284A Granted JPS619597A (en) | 1984-06-25 | 1984-06-25 | Plating method of aluminum piston |
Country Status (1)
Country | Link |
---|---|
JP (1) | JPS619597A (en) |
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS6213577A (en) * | 1985-07-12 | 1987-01-22 | Nippon Piston Ring Co Ltd | Sliding member |
JPS63176492A (en) * | 1987-01-14 | 1988-07-20 | Toyota Motor Corp | Method for working aluminum-silicon alloy base material surface |
JPH03285095A (en) * | 1990-03-30 | 1991-12-16 | Osaka Prefecture | Aluminum material with iron plating layer and production thereof |
JPH06212454A (en) * | 1992-10-13 | 1994-08-02 | Hughes Aircraft Co | Iron plated aluminum alloy part and method of plating iron on aluminum alloy part |
JP2005195047A (en) * | 2003-12-26 | 2005-07-21 | Hitachi Ltd | Disc brake |
CN105937044A (en) * | 2015-03-06 | 2016-09-14 | 丰田合成株式会社 | Plating method |
Citations (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS5087931A (en) * | 1973-12-10 | 1975-07-15 |
-
1984
- 1984-06-25 JP JP13029284A patent/JPS619597A/en active Granted
Patent Citations (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS5087931A (en) * | 1973-12-10 | 1975-07-15 |
Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS6213577A (en) * | 1985-07-12 | 1987-01-22 | Nippon Piston Ring Co Ltd | Sliding member |
JPS63176492A (en) * | 1987-01-14 | 1988-07-20 | Toyota Motor Corp | Method for working aluminum-silicon alloy base material surface |
JPH03285095A (en) * | 1990-03-30 | 1991-12-16 | Osaka Prefecture | Aluminum material with iron plating layer and production thereof |
JPH06212454A (en) * | 1992-10-13 | 1994-08-02 | Hughes Aircraft Co | Iron plated aluminum alloy part and method of plating iron on aluminum alloy part |
JP2005195047A (en) * | 2003-12-26 | 2005-07-21 | Hitachi Ltd | Disc brake |
CN105937044A (en) * | 2015-03-06 | 2016-09-14 | 丰田合成株式会社 | Plating method |
CN105937044B (en) * | 2015-03-06 | 2018-09-14 | 丰田合成株式会社 | Coating method |
Also Published As
Publication number | Publication date |
---|---|
JPS641557B2 (en) | 1989-01-11 |
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