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JPS62124267A - Wear resistant film, its formation and powdery starting material therefor - Google Patents

Wear resistant film, its formation and powdery starting material therefor

Info

Publication number
JPS62124267A
JPS62124267A JP8554886A JP8554886A JPS62124267A JP S62124267 A JPS62124267 A JP S62124267A JP 8554886 A JP8554886 A JP 8554886A JP 8554886 A JP8554886 A JP 8554886A JP S62124267 A JPS62124267 A JP S62124267A
Authority
JP
Japan
Prior art keywords
tic
coating
alloy
powder
wear
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.)
Pending
Application number
JP8554886A
Other languages
Japanese (ja)
Inventor
Masanobu Aizawa
相沢 正信
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.)
Mitsui Engineering and Shipbuilding Co Ltd
Original Assignee
Mitsui Engineering and Shipbuilding 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 Mitsui Engineering and Shipbuilding Co Ltd filed Critical Mitsui Engineering and Shipbuilding Co Ltd
Publication of JPS62124267A publication Critical patent/JPS62124267A/en
Pending legal-status Critical Current

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  • Coating By Spraying Or Casting (AREA)

Abstract

PURPOSE:To improve the wear resistance of a member by thermally spraying powder contg. Mo (alloy) and TiC on the surface of the member to form a thin film consisting of Mo (alloy) and TiC on the member. CONSTITUTION:A mixture of 95-60pts.wt. Mo (alloy) powder with 5-40pts.wt. TiC powder is thermally sprayed on the surface of a steel substrate with plasma or the like to form a film. This film formed on the steel substrate has satisfactory oil retentivity and remarkably superior wear resistance.

Description

【発明の詳細な説明】 [産業上の利用分野] 本発明は耐摩耗性被膜、その形成方法及びそのための原
料粉末に係り、特に保油性が高く耐摩耗性に著しく優れ
た被膜、その形成方法及びそのための原料粉末に関する
ものである。
[Detailed Description of the Invention] [Industrial Application Field] The present invention relates to a wear-resistant coating, a method for forming the same, and a raw material powder therefor, and particularly a coating with high oil retention and extremely excellent wear resistance, and a method for forming the same. and raw material powder therefor.

[従来の技術] 機械部品や各種装置の構成材料は、十分な機械的強度以
外に、使用目的に応じた耐摩耗性、耐食性等の特性を備
えていることが必要となる。しかして、耐摩耗性の高い
材料は、多くの場合靭性が低いなど、1種類の材料では
2以上の特性を同時に具備せしめることは容易ではない
[Prior Art] The constituent materials of mechanical parts and various devices must not only have sufficient mechanical strength but also have characteristics such as wear resistance and corrosion resistance depending on the purpose of use. However, materials with high wear resistance often have low toughness, and it is not easy for one type of material to have two or more properties at the same time.

そこで、部材表面に耐摩耗性の高い材料を被覆する表面
処理法が種々開発されている。
Therefore, various surface treatment methods have been developed in which the surfaces of components are coated with highly wear-resistant materials.

このような表面処理方法には、メッキ、はうろう引き、
蒸着、溶射、肉盛り溶接、など各種のものが知られてい
る。このうち、溶射法によれば、部材表面に金属やセラ
ミックスなどを溶融状態にし高速度で基板に衝突させ被
膜を形成させるものであるところから、各種の金属やセ
ラミックス或いはこれらを複合したサーメットの被膜を
形成できる、そして、例えば金属を溶射することにより
防食性、耐熱性、導電性等の特性をA@せしめることが
できる。
Such surface treatment methods include plating, waxing,
Various methods are known, such as vapor deposition, thermal spraying, and overlay welding. Among these methods, thermal spraying involves forming a coating on the surface of a component by molten metals, ceramics, etc. and colliding them with a substrate at high speed. For example, by thermally spraying a metal, properties such as corrosion resistance, heat resistance, and conductivity can be improved.

[発明が解決しようとする問題点] 部材表面に、例えば硬質金属を溶射した場合には、耐摩
耗性はそれだけ高められるものの、部材が他の部材と摺
動する摺動部材である場合には。
[Problems to be Solved by the Invention] When the surface of a member is thermally sprayed with, for example, a hard metal, the wear resistance is increased accordingly, but when the member is a sliding member that slides on other members, .

摺動摩耗に伴って表面が過度に平滑になり、焼き付けを
起す恐れがある。即ち、潤滑油を摺動面に供給するタイ
プのものにおいては1表面が過度に平滑であると摺動面
の油の保持特性(保油性)が低くなり、油切れを起こし
て焼き付けを生じ易くなる。
The surface becomes excessively smooth due to sliding wear, which may cause seizure. In other words, in the case of a type that supplies lubricating oil to the sliding surface, if one surface is excessively smooth, the oil retention property (oil retention) of the sliding surface will be low, causing oil depletion and seizure. Become.

また、セラミックを溶射した場合には、被膜の硬度が高
いところから耐摩耗性を高めることができるが、同様に
部材が摺動部材である場合には。
Furthermore, when ceramic is thermally sprayed, wear resistance can be improved due to the high hardness of the coating, but similarly when the member is a sliding member.

被膜表面の粗度が高いので摺動特性がやはり低いものと
ならざるを得ない、又、硬度の高いセラミックス被膜が
相手材を損傷する恐れがある。
Since the surface of the coating is highly rough, the sliding properties must be low, and the highly hard ceramic coating may damage the mating material.

[問題点を解決するための手段] 本発明の耐摩耗性被膜は、モリブデン(M o )又は
Mo合金95〜60ij11部とTiCl0〜40重陽
部とから構成されるものである。
[Means for Solving the Problems] The wear-resistant coating of the present invention is composed of 11 parts of molybdenum (Mo) or a Mo alloy of 95 to 60 ij and 0 to 40 parts of TiCl.

また、本発明の耐摩耗性被膜の形成方法は、このような
被膜をMO又はMo合金とTiCとを含む粉末を部材表
面に溶射して形成するようにしたものである。
Further, in the method for forming a wear-resistant coating of the present invention, such a coating is formed by thermally spraying powder containing MO or a Mo alloy and TiC onto the surface of a member.

更に、本発明の耐摩耗性被膜形成用の原料粉末は、MO
又はMo合金95〜60重量部とTiC5〜40重量部
とを含むものである。
Furthermore, the raw material powder for forming the wear-resistant film of the present invention is MO
Or it contains 95 to 60 parts by weight of Mo alloy and 5 to 40 parts by weight of TiC.

本発明では、Mo又はMo合金と、 T i Cとの混
合被膜とするのであるが、ここにおいて用いるMo合金
としては、Fe50%以下、A文25%以下、NilO
%以下、Cr15%以下、CoIO%以下、015%以
下含有するものが挙げられる。なお、%は重量%である
。ここで、これら合金化元素添加割合について説明する
In the present invention, a mixed film of Mo or a Mo alloy and TiC is used, but the Mo alloy used here includes 50% or less of Fe, 25% or less of A, NilO
% or less, Cr 15% or less, CoIO% or less, and CoIO% or less. In addition, % is weight %. Here, the addition ratio of these alloying elements will be explained.

Feは安価でありMo合金の価格を低下させることがで
きるが、過度に多いとMo合金の耐摩耗性及び融点を低
下させるので、Feは30%以下とりわけ20%以下の
添加量とするのが好ましい。
Fe is cheap and can reduce the price of Mo alloys, but if it is excessively large, it reduces the wear resistance and melting point of Mo alloys, so it is recommended that Fe be added in an amount of 30% or less, especially 20% or less. preferable.

A2は金属組織の微細化を図り、その耐食性を高めるこ
とができるが、過度に多量であるとM。
A2 can refine the metal structure and improve its corrosion resistance, but if it is in an excessively large amount, M.

合金の耐食性及び融点を低下させるので、10%以下と
りわけ7%以下の添加量とするのが好ましい。
Since it lowers the corrosion resistance and melting point of the alloy, it is preferably added in an amount of 10% or less, particularly 7% or less.

Niは基地の強化に有効であるが、過度に多くなると異
種組織を発生し易くなる。そのため。
Although Ni is effective in strengthening bases, excessive amounts of Ni tend to generate foreign tissues. Therefore.

Niは10%以下とりわけ7%以下の添加量とするのが
好ましい。
The amount of Ni added is preferably 10% or less, especially 7% or less.

Crは基地の耐食性を高めるが、炭化物生成傾向が強く
、その含有量が過度に多くなると金属組織の靭性が低下
し易くなる。そこで、Crは15%以下とりわけ10%
以下の添加量とするのが好ましい。
Although Cr improves the corrosion resistance of the matrix, it has a strong tendency to form carbides, and if its content is excessively high, the toughness of the metal structure tends to decrease. Therefore, Cr is 15% or less, especially 10%
It is preferable to add the following amount.

Coは基地の強化に有効に作用するが、過度に多くなる
と、21tij′I!!の融点を低下させるので、10
%以下とりわけ7%以下の添加Vとするのが好ましい。
Co is effective in strengthening bases, but if it becomes too large, 21tij'I! ! 10 because it lowers the melting point of
It is preferable to set the addition V to less than %, especially less than 7%.

Cは基地の耐焼付性、耐摩耗性を高める作用があるが、
過度に多くなると炭化物析出量が多くなったり、基地そ
れ自体の強度を低下させるので、15%以下とりわけ1
0%以下の添加量とするのが好ましい。
C has the effect of increasing the seizure resistance and wear resistance of the base,
If it increases too much, the amount of carbide precipitation increases and the strength of the base itself decreases, so it should be less than 15%, especially 1.
The amount added is preferably 0% or less.

なお1本発明の耐摩耗性被膜の形成方法の溶射原料とし
て好適な本発明の原料粉末としては、Mo合金の代わり
に、これら添加元素の一部又は全部をMoに、もしくは
、一部をMo合金に併用して粉末状態としてもよいし、
これらの元素を一度溶解した後、何らかの方法で粉末状
態としたものとしても良い。
Note that the raw material powder of the present invention suitable as a thermal spraying raw material for the method of forming a wear-resistant coating of the present invention may be one in which some or all of these additive elements are replaced with Mo, or some with Mo instead of the Mo alloy. It can be used in combination with alloys in powder form,
After these elements are once dissolved, they may be made into a powder state by some method.

溶射の際の原料粉末中のMo又はMo合金の好ましい粒
径は5〜63Bmとりわけ5〜40gmである。またT
 i Cの好ましい粒径は5〜63gmとりわけ5〜4
0gmである。また、一度溶解した後、粉末状としたも
のについては、5〜63ALmの粒径とするのが好まし
い。
The preferred particle size of Mo or Mo alloy in the raw material powder during thermal spraying is 5 to 63 Bm, particularly 5 to 40 gm. Also T
The preferred particle size of iC is 5 to 63 gm, especially 5 to 4
It is 0gm. Moreover, once dissolved, it is preferable that the particle size is 5 to 63 ALm in the form of powder.

本発明において、耐摩耗性被膜あるいは原料粉末のMo
又はMo合金とTiCとの混合率は。
In the present invention, Mo
Or what is the mixing ratio of Mo alloy and TiC?

MO又はMO合金95〜6011TUa部、TiC5〜
40重量部である。TiC含有率がこの範囲よりも多く
なると、被膜中の金属量が相対的に小さくなって被膜の
靭性が低下し易い。また、T i Cの含有範囲が上記
範囲よりも少い場合には、被膜の#摩耗性が低下する。
MO or MO alloy 95~6011TUa part, TiC5~
It is 40 parts by weight. When the TiC content exceeds this range, the amount of metal in the coating becomes relatively small, and the toughness of the coating tends to decrease. Further, if the content range of T i C is less than the above range, the abrasion resistance of the coating decreases.

本発明の方法において1MO又はMo合金とTiCとを
含む粉末を部材表面に溶射した後、この被膜の表面に更
にレーザビームを照射し、被膜の溶融を促進してもよい
、このようなレーザ照射は、原料粉末の溶融が不十分で
ある場合に行うに好適であるが、十分に溶融した粉末が
溶射された場合であっても、溶射膜の密度を増大させる
効果がある。また、被膜と基板の接合界面をも溶融する
°バにより、その接合強度を高める効果も併せ持つ。
In the method of the present invention, after the powder containing 1MO or Mo alloy and TiC is thermally sprayed onto the surface of the member, the surface of the coating may be further irradiated with a laser beam to promote melting of the coating. This is suitable to be carried out when the raw material powder is insufficiently melted, but even when sufficiently melted powder is sprayed, it has the effect of increasing the density of the sprayed film. Additionally, the heat exchanger also melts the bonding interface between the coating and the substrate, which also has the effect of increasing the bonding strength.

なお、本発明において原料粉末同志の溶融が十分に進め
ば、TiCの含有率を5〜13.5用品′部とした場合
には、被膜は亜共晶材となり、Ticが13.5〜17
.5重量部である場合にはラメラ構造の共晶材となり、
17.5〜40屯φ部である場合には過共晶材となる。
In addition, in the present invention, if the raw material powders are sufficiently melted together and the TiC content is 5 to 13.5 parts, the coating will become a hypoeutectic material and the TiC will be 13.5 to 17.
.. When it is 5 parts by weight, it becomes a eutectic material with a lamellar structure,
If the diameter is 17.5 to 40 tons, it becomes a hypereutectic material.

本発明の方法は1部材の材質を問わず殆ど全ての材質の
部材表面に被膜を形成することができる。また、形成す
る被膜の厚さは、溶射時間等の溶射条件を変更すること
により任意に調整することが可能である。
The method of the present invention can form a film on the surface of almost any material, regardless of the material of the member. Moreover, the thickness of the coating to be formed can be arbitrarily adjusted by changing spraying conditions such as spraying time.

しかも、このような本発明の方法は、本発明の原料粉末
を用いることにより極めて容易に実施される。
Moreover, such a method of the present invention can be carried out extremely easily by using the raw material powder of the present invention.

C作用コ 本発明の耐摩耗性被膜は、高融点金属であるMo又はM
o合金と高硬度のセラミックスであるTiCとからなる
サーメット被膜である。このため、Mo又はMo合金の
高靭性とTiCの耐熱性、高硬度、化学的安定性の両者
を兼備するものである。
C Effect: The wear-resistant coating of the present invention is made of Mo or M, which is a high melting point metal.
This is a cermet coating made of O alloy and TiC, which is a highly hard ceramic. Therefore, it has both the high toughness of Mo or Mo alloy and the heat resistance, high hardness, and chemical stability of TiC.

このような本発明の耐摩耗性被膜は、本発明の方法によ
り極めて有利に形成され、また、本発明の原料粉末は本
発明方法の実施に極めて有用である。
Such a wear-resistant coating of the present invention is extremely advantageously formed by the method of the present invention, and the raw material powder of the present invention is extremely useful in carrying out the method of the present invention.

なお、本発明の方法において、溶射直後あるいは、溶射
した後にレーザ溶融処理した被膜においては、例えば、
TiCの含有率が13.5〜17.51驕部である場合
には、第1図に示すように被MlはMO相又はMo合金
相とTiC相からなる層状の構造のままであるが、被膜
表面1aが他の部材と摺動すると、第2図に示すように
TiCよりも硬度の低いMO相又はMo合金相の層2が
摩滅し、TiC相3が被膜面から突出するようにして露
出し、被膜表面に微小な多数の凹部6が形成される。こ
の凹部6は良好な油溜部として作用し、潤滑油の保油性
が著しく高くなり1部材表面の耐摩耗性が著しく向上さ
れる。
In addition, in the method of the present invention, for example, in the coating treated by laser melting immediately after thermal spraying or after thermal spraying,
When the TiC content is between 13.5 and 17.51, the Ml remains in a layered structure consisting of an MO phase or a Mo alloy phase and a TiC phase, as shown in FIG. When the coating surface 1a slides against other members, the layer 2 of the MO phase or Mo alloy phase, which has a lower hardness than TiC, is worn away and the TiC phase 3 protrudes from the coating surface, as shown in FIG. A large number of minute recesses 6 are formed on the exposed surface of the film. This concave portion 6 acts as a good oil reservoir, and the lubricating oil retention property is significantly increased, and the wear resistance of the surface of one member is significantly improved.

なお第1図及び第2図において符号4は被膜を構成する
1個の粒(Grain)、符号5は部材の本体側を示し
ている。
In FIGS. 1 and 2, reference numeral 4 indicates one grain constituting the coating, and reference numeral 5 indicates the main body side of the member.

[実施例] 実施例1 10cmXIOcmの大きさのftf4製基板の表面に
1本発明方法に従ってMo粉末及びT i C粉末を混
合してプラズマ溶射し被膜を形成した。
[Example] Example 1 Mo powder and TiC powder were mixed and plasma sprayed to form a coating on the surface of an FTF4 substrate having a size of 10 cm x IO cm according to the method of the present invention.

用いたMo粉末及びTiC粉末の粒径及び溶射条件は次
に示す通りである。
The particle sizes of the Mo powder and TiC powder used and the thermal spraying conditions are as shown below.

配合量 M o : 84 、5重1部 T t C: l 5 、5重穢部 粒径 Mo粉末:lOpm 〜63am TiC粉末: 10gm〜54終m 溶射条件 溶射膜21:プラズマ溶射装置 粉末供給ff: 2 k g / h r実施例? MOの替わりにMo合金を用い、 T i Cの混合比
率を変えたこと以外は実施例1と同様にして基板表面に
Mo合金とTICとからなる被膜を形成した。なお、M
o合金の組成は次に示す通りである。
Blend amount Mo: 84, 5-fold 1 part TtC: 15, 5-fold particle size Mo powder: 1Opm to 63am TiC powder: 10gm to 54mm Spraying conditions Thermal spraying film 21: Plasma spraying equipment powder supply ff : 2 kg/hr example? A film made of Mo alloy and TIC was formed on the surface of the substrate in the same manner as in Example 1 except that Mo alloy was used instead of MO and the mixing ratio of T i C was changed. In addition, M
The composition of the o alloy is as shown below.

M o : 70% Fe:15% CO:   5% Ni:    5% A 交 :   3% C:   2% また、TiC粉末の混合比率は10重量部である。Mo: 70% Fe: 15% CO: 5% Ni: 5% A: 3% C: 2% Further, the mixing ratio of TiC powder was 10 parts by weight.

実施例3 実施例2において、Mo合金とT i Cとの混合比を
70 + 30としたこと、及び溶射被膜形成後1こ更
にレーザビームを照射したこと以外は実施例2と同様の
操作によって基板表面に被膜を形成した。
Example 3 The same operations as in Example 2 were carried out except that the mixing ratio of Mo alloy and T i C was 70 + 30 and that the laser beam was irradiated one more time after the thermal spray coating was formed. A film was formed on the surface of the substrate.

なお、レーザ照射条件は次の通りである。Note that the laser irradiation conditions are as follows.

レーザ装置の機種:CO2レーザ 出    力 +4kW 走査速度+0.4m/sec 試験例1 実施例1〜3で得られた被膜を有する部材について、ビ
ニオンディスク型摩耗試験材を用いて、その摺動特性を
調へた。
Model of laser device: CO2 laser output +4 kW Scanning speed +0.4 m/sec Test Example 1 The sliding characteristics of the members having the coatings obtained in Examples 1 to 3 were evaluated using a Binion disc type wear test material. I checked.

テストピースはピン型試験片及びディスク型試験片に、
各々、実施例1〜3の方法により被膜を形成して作製し
た。各々の試験片を用いて、同一被膜同志を摺動させて
、その摩耗量を調べたところ、本発明に係る実施例1〜
3で形成された被膜は極めて耐摩耗性に優れていること
が判明した。
The test piece is a pin type test piece and a disc type test piece.
Each was produced by forming a film by the method of Examples 1 to 3. Using each test piece, the same coatings were slid against each other and the amount of wear was investigated.
It was found that the coating formed in No. 3 had extremely excellent wear resistance.

なお、この試験結果の一例を第3図に示す、第3図は実
施例1の方法で形成したMo−22,5%TiC溶射材
による被膜同志を用いて試験を行った場合の摩耗量と荷
重との関係を、片状黒鉛鋳鉄材同志を用いた場合の結果
とともに示すものである。この場合の試験温度は180
℃、摺動速度は1.8m/secとし、潤滑剤はエンジ
ン油(SAE  #20)を用いた。
An example of the test results is shown in Figure 3. Figure 3 shows the amount of wear and tear when the test was conducted using a coating made of Mo-22,5% TiC sprayed material formed by the method of Example 1. The relationship with load is shown together with the results when flaky graphite cast iron materials are used. The test temperature in this case is 180
℃, the sliding speed was 1.8 m/sec, and engine oil (SAE #20) was used as the lubricant.

第3図から1本発明方法に従って形成された被膜は、鋳
鉄に比べて一桁以上もその摩耗量が少ないことが明らか
である。
It is clear from FIG. 3 that the coating formed according to the method of the present invention exhibits an order of magnitude less wear than cast iron.

[効果] 以上詳述した通り、本発明の耐摩耗性被膜は、良好な保
油性を有し、著しく耐摩耗性に優れる。
[Effects] As detailed above, the wear-resistant coating of the present invention has good oil retention and is extremely excellent in wear resistance.

しかして、このような被膜は本発明の方法により、また
本発明の原料粉末を用いることにより、極めて容易に形
成される。
Such a film can be formed extremely easily by the method of the present invention and by using the raw material powder of the present invention.

本発明によれば、潤滑油を用いる摺動部材等の耐久性を
大幅に延長することが可能である。
According to the present invention, it is possible to significantly extend the durability of sliding members and the like that use lubricating oil.

【図面の簡単な説明】[Brief explanation of drawings]

第1図及び第2図は本発明の方法によって形成された被
膜の構成を示す模式的な断面図である。 第3図は試験例1の摩耗試験の結果を示すグラフである
。 1・・・被膜、    2・・・Mo相又はMO会合金
相3・・・T i C相、 4・・・被膜を構成する1個の粒(Grain)、5・
・・ノ、(板、       6・・・四部。 代理人  弁理士  玉 野  剛 第  1  図            s  2  
図s  3 図 舜東(let /c−)
FIGS. 1 and 2 are schematic cross-sectional views showing the structure of a coating formed by the method of the present invention. FIG. 3 is a graph showing the results of the wear test of Test Example 1. DESCRIPTION OF SYMBOLS 1... Coating, 2... Mo phase or MO-associated metal phase, 3... T i C phase, 4... One grain constituting the coating, 5...
...No, (board, 6...4 parts. Agent Patent attorney Tsuyoshi Tamano 1 Figure s 2
Figure s 3 Figure Shundong (let /c-)

Claims (3)

【特許請求の範囲】[Claims] (1)モリブテン又はモリブデン合金95〜60重量部
と、TiC5〜40重量部とから構成されることを特徴
とする耐摩耗性被膜。
(1) A wear-resistant coating comprising 95 to 60 parts by weight of molybdenum or a molybdenum alloy and 5 to 40 parts by weight of TiC.
(2)モリブデン又はモリブデン合金とTiCとを含む
粉末を、部材表面に溶射して、該部材表面に、モリブデ
ン又はモリブデン合金95〜60重量部とTiC5〜4
0重量部とから構成される被膜を形成する工程を有する
ことを特徴とする耐摩耗性被膜の形成方法。
(2) A powder containing molybdenum or a molybdenum alloy and TiC is thermally sprayed onto the surface of the member, and 95 to 60 parts by weight of molybdenum or a molybdenum alloy and 5 to 4 parts by weight of TiC are applied to the surface of the member.
1. A method for forming a wear-resistant coating, comprising the step of forming a coating consisting of 0 parts by weight.
(3)モリブデン又はモリブデン合金95〜60重量部
とTiC5〜40重量部とを含む粉末からなることを特
徴とする耐摩耗性被膜形成用の原料粉末。
(3) A raw material powder for forming a wear-resistant coating, characterized by comprising a powder containing 95 to 60 parts by weight of molybdenum or a molybdenum alloy and 5 to 40 parts by weight of TiC.
JP8554886A 1985-08-02 1986-04-14 Wear resistant film, its formation and powdery starting material therefor Pending JPS62124267A (en)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
JP17090885 1985-08-02
JP60-170908 1985-08-02

Publications (1)

Publication Number Publication Date
JPS62124267A true JPS62124267A (en) 1987-06-05

Family

ID=15913566

Family Applications (1)

Application Number Title Priority Date Filing Date
JP8554886A Pending JPS62124267A (en) 1985-08-02 1986-04-14 Wear resistant film, its formation and powdery starting material therefor

Country Status (1)

Country Link
JP (1) JPS62124267A (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS63190154A (en) * 1987-01-30 1988-08-05 Riken Corp Wear resistant surface layer and formation thereof

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS63190154A (en) * 1987-01-30 1988-08-05 Riken Corp Wear resistant surface layer and formation thereof

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