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JPS59193215A - Surface toughening method of metal - Google Patents

Surface toughening method of metal

Info

Publication number
JPS59193215A
JPS59193215A JP6709783A JP6709783A JPS59193215A JP S59193215 A JPS59193215 A JP S59193215A JP 6709783 A JP6709783 A JP 6709783A JP 6709783 A JP6709783 A JP 6709783A JP S59193215 A JPS59193215 A JP S59193215A
Authority
JP
Japan
Prior art keywords
metal
liquid
cavity
impact force
immersed
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
JP6709783A
Other languages
Japanese (ja)
Inventor
Masao Mizuno
水野 正夫
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.)
Individual
Original Assignee
Individual
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 Individual filed Critical Individual
Priority to JP6709783A priority Critical patent/JPS59193215A/en
Publication of JPS59193215A publication Critical patent/JPS59193215A/en
Pending legal-status Critical Current

Links

Classifications

    • CCHEMISTRY; METALLURGY
    • C21METALLURGY OF IRON
    • C21DMODIFYING THE PHYSICAL STRUCTURE OF FERROUS METALS; GENERAL DEVICES FOR HEAT TREATMENT OF FERROUS OR NON-FERROUS METALS OR ALLOYS; MAKING METAL MALLEABLE, e.g. BY DECARBURISATION OR TEMPERING
    • C21D7/00Modifying the physical properties of iron or steel by deformation
    • C21D7/02Modifying the physical properties of iron or steel by deformation by cold working
    • C21D7/04Modifying the physical properties of iron or steel by deformation by cold working of the surface

Landscapes

  • Chemical & Material Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Crystallography & Structural Chemistry (AREA)
  • Mechanical Engineering (AREA)
  • Materials Engineering (AREA)
  • Metallurgy (AREA)
  • Organic Chemistry (AREA)
  • Heat Treatment Of Nonferrous Metals Or Alloys (AREA)

Abstract

PURPOSE:To certainly, simply and easily toughen the surface of a metal even in the narrow surface part thereof, by imparting impact force caused by the collapse of a cavity to the predetermined surface part of the metal immersed in a liquid. CONSTITUTION:A cavity is generated in the liquid 3 received in a container 2 by a cavity generating means 4 such as an ultrasonic vibration generating means or a high pressure high flow speed liquid jet means and impact force caused by the collapse of said cavity is imparted to the narrow surface part such as fatigue rupture easily generating notch part, an oil hole part or a key groove part of the metal 1 immersed in said liquid in a range generating no errosion. By this method, residual compession stress is imparted to the surface part of the above mentioned metal 1 and the surface of said part is toughened to enhance fatigue strength while the surface thereof is hardened to enhance abrasion resistance.

Description

【発明の詳細な説明】 本発明は切欠き部分や油孔部分やキー溝部分の如く疲労
破壊の生じ易い金属の所定表面部分をショットピーニン
グと同様の効果を有するように簡単且つ容易に強化する
ことができ、しかもその強化する所定表面部分がショッ
トピーニングを良好に実施し得ないような狭い部分であ
っても容易且つ確実に実施し得る金属の表面強化法に関
するものである。
DETAILED DESCRIPTION OF THE INVENTION The present invention simply and easily strengthens predetermined surface areas of metal that are prone to fatigue failure, such as notches, oil holes, and key grooves, so as to have the same effect as shot peening. The present invention relates to a metal surface strengthening method that can be easily and reliably carried out even if the predetermined surface portion to be strengthened is a narrow portion where shot peening cannot be performed well.

従来より金属材料は繰り返し応力が作用せしめられる機
械部品等に多々使用されているが、このように繰り返し
応力が作用せしめられる機械部品等においてはその疲労
強度が問題となっている。
BACKGROUND OF THE INVENTION Conventionally, metal materials have been widely used in mechanical parts to which repeated stresses are applied, but fatigue strength has become a problem in mechanical parts to which such repeated stresses are applied.

この疲労強度、すなわち耐久限度を高める方法として繰
り返し応力が作用せしめられる金属の所定表面部分に残
留圧縮応力を付与する方法が広〈実施されており、・こ
のような金属の所定表面部分に残留圧縮応力を付与する
方法としてショットピーニング法が非常に広〈実施され
ている。このショットピーニング法は、金属の所定表面
部分に鋼粒の如きショットを高速で打ちつ【プて表面仕
上げを行なう冷間加工法であって、ショットによる打撃
によって金属の表面に微−小な凹凸が生ずるために回転
部分等においてはその微小な凹部が潤滑油の保持部分と
もなって金属の耐久限度の向上によりその効果を発揮せ
しめている。
As a method of increasing this fatigue strength, that is, the durability limit, a method of applying residual compressive stress to a predetermined surface portion of a metal that is subjected to repeated stress is widely practiced. Shot peening is a very widely used method for applying stress. This shot peening method is a cold working method that finishes the surface by hitting a predetermined surface area of the metal with shots such as steel grains at high speed. Because of this, the minute recesses in rotating parts also serve as lubricating oil holding areas, which is effective in improving the durability of metal.

このようにショットピーニング法は非常に優れた金属の
表面強化法であるが、ショットピーニングを施そうとす
る金属の所定表面部分が、切欠きゃキー溝の底部エツジ
部であったり、油孔であったりするような非常に狭い部
分であって、ショットがその部分に有効に噴射供給され
ないような部分であると実施し得ない場合が生ずる欠点
があった。
In this way, the shot peening method is an excellent method for strengthening the surface of metals, but if the specified surface area of the metal to be shot peened is a notch, the bottom edge of a keyway, or an oil hole This method has the disadvantage that it may not be possible to implement this technique if the area is very narrow, such as a narrow area where the shot cannot be effectively injected into the area.

本発明者はか)るショットピーニング法の欠点を除去す
べく鋭意研究の結果、液体にキャビティを発生せしめる
と、発生したキャビティが圧)貞する際に生ずる衝撃力
が金属の表面強化に有効であることを究明して本発明を
完成したのである。
As a result of intensive research to eliminate the drawbacks of the shot peening method, the present inventor found that when cavities are generated in the liquid, the impact force generated when the cavities are compressed is effective in strengthening the surface of the metal. They investigated certain things and completed the present invention.

すなわち本発明は、液体中に浸漬した金属の所定表面部
分に、該液体に生せしめたキA2ヒテイの圧潰に起因す
る衝撃力をエロージョンを生せしめない範囲内で付与す
ることを特徴とする金属の表面強化法を提供するもので
ある。
That is, the present invention is characterized in that an impact force caused by the crushing of the metal A2 formed in the liquid is applied to a predetermined surface portion of the metal immersed in the liquid within a range that does not cause erosion. The present invention provides a method for surface strengthening.

以下、図面により本発明に係る金属の表面強化法につい
て詳細に説明する。
Hereinafter, the metal surface strengthening method according to the present invention will be explained in detail with reference to the drawings.

第1図は本発明に係る金属の表面強化法の1実施例の説
明用正面図、第2図は本発明に係る金属の表面強化法の
他の実施例の説明用正面図である。
FIG. 1 is an explanatory front view of one embodiment of the metal surface strengthening method according to the present invention, and FIG. 2 is an explanatory front view of another embodiment of the metal surface strengthening method according to the present invention.

図面中、1は繰り返し応力が作用せしめられる機械部品
等の金属、2は金属1が浸漬される液体3を収納してい
る容器、4は液体3中に浸漬されている金属1の所定表
面部分に液体3に生ぜしめたキャビティの圧潰に起因す
る衝撃力をエロージョンを生ぜしめない範囲内で付与す
るために液体3にキAノビティを生ぜしめるキャビティ
発生手段であり、口のキャビティ発生手段としては、第
1図に示す如く金属1が浸漬された液体3中に浸漬され
超音波振動せしめられるホーンや、第2図に示す如く金
属1が浸漬された液体3中に高圧高速の液体を噴射させ
るノズルを備えた手段など種々の手段゛が採用できる。
In the drawing, 1 is a metal such as a mechanical part to which repeated stress is applied, 2 is a container containing a liquid 3 in which the metal 1 is immersed, and 4 is a predetermined surface portion of the metal 1 immersed in the liquid 3. This is a cavity generating means that generates a cavity in the liquid 3 in order to apply the impact force due to the collapse of the cavity generated in the liquid 3 within a range that does not cause erosion, and as a cavity generating means in the mouth. As shown in FIG. 1, a horn is immersed in a liquid 3 in which a metal 1 is immersed and vibrated by ultrasonic waves, or a high-pressure and high-velocity liquid is injected into a liquid 3 in which a metal 1 is immersed, as shown in FIG. Various means such as means equipped with a nozzle can be employed.

本発明法は、このよう“に金属1を液体3中に浸漬し、
その液体3に前述したようなキャビティ発生手段4によ
り発生せしめたキャビティの圧潰に起因する衝撃力を金
属10所定表面部分にエロージョンを生ぜしめない範囲
内で付与することにより金属1の表面を強化する方法で
あり、この本発明法においては液体3中に浸漬した金属
10所定表面部分に、液体3に生せしめられたキャビデ
ィの圧潰に起因する衝撃力のイ」与をエロージョンを生
ぜしめない範囲内でだけ付与することが重要である。こ
れは金属10所定表面部分にキA7ビテイの圧潰に起因
する衝撃力でエロージョンが生ずると、ショットピーニ
ングと同様の表面強化を行なおうとする金属1の所定表
面部分がエロージョンにより剥離されてしまってキャビ
ティの圧潰に起因する衝撃力を付与した効果が失なわれ
てしまうと共に、表面強化を行なおうとする金属1の所
定表面部分が剥離したことに起因して金属1の表面肌荒
れが促進されてごの剥離部分が新らたな応力集中部分と
なるために疲労強度が低下すると共にその寸法精度に誤
差が生じて機械部品等として好ましくないからである。
In the method of the present invention, the metal 1 is immersed in the liquid 3 in this way,
The surface of the metal 1 is strengthened by applying an impact force caused by the crushing of the cavity generated by the cavity generating means 4 as described above to the liquid 3 within a range that does not cause erosion on a predetermined surface portion of the metal 10. In this method, a predetermined surface portion of the metal 10 immersed in the liquid 3 is subjected to an impact force caused by the crushing of the cavity formed in the liquid 3 within a range that does not cause erosion. It is important to give only . This is because when erosion occurs on a predetermined surface portion of the metal 10 due to the impact force caused by the crushing of the bit A7, the predetermined surface portion of the metal 1, which is intended to undergo surface reinforcement similar to shot peening, is peeled off due to the erosion. The effect of applying the impact force due to the crushing of the cavity is lost, and the surface roughness of the metal 1 is accelerated due to peeling of a predetermined surface portion of the metal 1 where surface reinforcement is to be performed. This is because the peeled part becomes a new stress concentration part, which lowers the fatigue strength and causes an error in the dimensional accuracy, making it undesirable as a mechanical part or the like.

以上詳述した本発明に係る金属の表面強化法は、繰り返
し応力が作用せしめられる機械部品等に使用されるとそ
の疲労強度が問題となる金属の所定表面部分に残留圧縮
応力を付与してその疲労強度を向上せしめたり、金属の
所定表面部分に付与した残留圧縮応力に起因Jる表面の
硬化によって耐摩耗性を向上せしめたりするショットピ
ーニングと同様の効果を右づる金属の表面強化を簡単且
つ容易に行なうことがこぎ、しかもこのような金属の強
化する所定表面部分がショットピーニングを良好に実施
しくqないようなすなわちショットだそすの部分に打も
つけられないような金属のの表面部分に設けられている
切欠ぎ部分や油孔部分やキー溝部分の如き狭い部分であ
っても容易且つ確実に実施し、得る画期的な方法であり
、その工朶的価値は非常に大きなものがある。
The method for strengthening the surface of metal according to the present invention described in detail above applies residual compressive stress to a predetermined surface portion of the metal, which poses a problem in fatigue strength when used in mechanical parts etc. to which repeated stress is applied. It is a simple and effective way to strengthen the surface of metals, which has the same effect as shot peening, which improves fatigue strength and hardens the surface due to residual compressive stress applied to a specified surface area of the metal. Shot peening can be easily carried out, and in addition, shot peening may not be carried out well on such metal surface areas, i.e., shot peening cannot be applied to surface areas of the metal. This is an innovative method that can be easily and reliably applied even in narrow areas such as cutouts, oil holes, and key grooves, and its industrial value is extremely large. be.

実施例 冷間引抜材より成る5ioc材製の直径6mmの丸棒の
長さ方向の(Jは中央部に、開き角度60度、切欠き深
さ0,6Ilm、切欠き底の曲率半径0.4mmとなる
ように型暉状切欠き部を設Calたままの試材と、史に
この試材を水中で切欠き部中心とホーン先端の中心とを
一直線上に位置させ切欠き底とホーン先端との間隔を2
.6mmとして100−11 Or p mで回転さt
!4jがらホーンを周波数19.2KIIz、出力50
0’vVC超高波振動さけることによって310C材が
浸漬されている水にキヤビテイを発生させ−C木発明に
係る金属の表面強化法を実施した試材とを$備し、これ
らの試材をその軸方向に引張・圧縮の繰り返し7応力を
作用させる完全両振り超音波疲労試験を行なった結果、
本発明法を実施しなかった場合の試材C,Lその耐久限
度に相当J−る正振幅は65,8Ilであったのに対し
、本発明法を実施した場合の試材はその耐久限度に相当
する正振幅は69.24zであり、本発明に係る金属の
表面強化法を実施したものは試材として既に冷間引抜加
工によって疲労強度が向上しているために大幅な疲労強
度の向上を明侍し得ないような素材を採用したにもかが
4つら7+’、その耐久限度が約5%向上したことが確
認できた。
Example A round bar with a diameter of 6 mm made of 5IOC material made of cold drawn material (J is at the center, opening angle of 60 degrees, notch depth of 0.6 Ilm, radius of curvature of the notch bottom of 0.6 mm). A sample material with a molded notch with a diameter of 4 mm was placed as it is, and the center of the notch was placed in line with the center of the horn tip in water, and the bottom of the notch and the horn were separated. The distance from the tip is 2
.. Rotated at 100-11 Or p m as 6mm
! 4j horn frequency 19.2KIIz, output 50
By avoiding ultra-high wave vibrations of 0'vVC, a cavity is generated in the water in which the 310C material is immersed. As a result of a complete double-sided ultrasonic fatigue test in which 7 repeated stresses of tension and compression were applied in the axial direction,
When the method of the present invention was not carried out, the positive amplitude of specimens C and L corresponding to their durability limit was 65.8 Il, whereas when the method of the present invention was carried out, the positive amplitude of specimens C and L corresponded to their durability limit. The positive amplitude corresponding to 69.24z is 69.24z, and the fatigue strength of the sample material that has been subjected to the metal surface strengthening method according to the present invention has already been improved by cold drawing, so the fatigue strength is significantly improved. It was confirmed that the durability limit of Moka 4 7+' has been increased by about 5% due to the use of materials that cannot be used.

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

第1図は本発明に係る金属の表面強化法の1実施例の説
明用正面図、第2図は本発明に係る金属の表面強化法の
他の実施例の説明用正面図である。 1・・・・金属 2・・・・容器 3・・・・液体 4・・・・キャヒティ発生手段 −7゛l
FIG. 1 is an explanatory front view of one embodiment of the metal surface strengthening method according to the present invention, and FIG. 2 is an explanatory front view of another embodiment of the metal surface strengthening method according to the present invention. 1... Metal 2... Container 3... Liquid 4... Capacity generating means -7゛l

Claims (1)

【特許請求の範囲】 1 液体中に浸漬した金属の所定表面部分に、該液体に
生ぜしめたキャビティの圧潰に起因する衝撃力をエロー
ジョンを生ぜしめない範囲内で付与することを特徴とす
る金属の表面強化法。 2 液体中に浸漬した金属の所定表面部分に衝撃力を(
=j与するために、液体中に浸漬したホーンに超音波振
動を与えることによって該液体にキャビティを生せしめ
る特許請求の範囲第1項に記載の金属の表面強化法。 3 液体中に浸漬した金属の所定表面部分に衝撃力を付
与するために、液体中にノズルより高圧高流速の液体を
噴射することによって該液体にキャビティを生ぜしめる
特許請求の範囲第1項に記載の金属の表面強化法。 4Fa、体に生ぜしめたキャビティの圧潰に起因するI
li撃力をエロージョンを生せしめない範囲内で付与さ
れる金属の所定表面部分が、疲労破壊の生じ易い部分で
ある特R′[請求の範囲第2項又は第3項に記載の金属
の表面強化法、。 5 疲労破壊の生じ易い金属の所定表面部分が、金属の
表面部分に設(プられCいる切欠き部分である特許請求
の範囲第4項に記載の金属の表面強化法。 6 疲労破壊の生じ易い金属の所定表面部分が、金属の
表面部分に設(プられている油孔部分である特許請求の
範囲第4項に記載の金属の表面強化法。 7 疲労破壊の生じ易い金属の所定表面部分が、金属の
表面部分に設(プられているキー溝部分である特許請求
の範囲第4項に記載の金属の表面強化法。
[Scope of Claims] 1. A metal characterized by applying an impact force caused by the collapse of a cavity created in the liquid to a predetermined surface portion of the metal immersed in a liquid within a range that does not cause erosion. surface reinforcement method. 2 Applying an impact force (
2. A method for strengthening the surface of a metal according to claim 1, wherein a cavity is created in the liquid by applying ultrasonic vibration to a horn immersed in the liquid in order to give =j. 3. In claim 1, in which a cavity is created in a liquid by injecting a high-pressure, high-flow liquid into the liquid from a nozzle in order to apply an impact force to a predetermined surface portion of a metal immersed in the liquid. Method of surface strengthening of metals described. 4Fa, I caused by the collapse of the cavity created in the body
Characteristic R' [the surface of the metal according to claim 2 or 3], wherein the predetermined surface portion of the metal to which the impact force is applied within a range that does not cause erosion is a portion where fatigue fracture is likely to occur. Reinforcement method. 5. The method for strengthening the surface of a metal according to claim 4, wherein the predetermined surface portion of the metal where fatigue fracture is likely to occur is a notch portion formed in the surface portion of the metal. 6. Occurrence of fatigue fracture. The method for strengthening the surface of a metal according to claim 4, wherein the predetermined surface portion of the metal that is susceptible to fatigue fracture is an oil hole portion provided in the surface portion of the metal.7. 5. The method for strengthening the surface of a metal according to claim 4, wherein the portion is a keyway portion provided on a surface portion of the metal.
JP6709783A 1983-04-18 1983-04-18 Surface toughening method of metal Pending JPS59193215A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP6709783A JPS59193215A (en) 1983-04-18 1983-04-18 Surface toughening method of metal

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP6709783A JPS59193215A (en) 1983-04-18 1983-04-18 Surface toughening method of metal

Publications (1)

Publication Number Publication Date
JPS59193215A true JPS59193215A (en) 1984-11-01

Family

ID=13335034

Family Applications (1)

Application Number Title Priority Date Filing Date
JP6709783A Pending JPS59193215A (en) 1983-04-18 1983-04-18 Surface toughening method of metal

Country Status (1)

Country Link
JP (1) JPS59193215A (en)

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US5305361A (en) * 1992-01-24 1994-04-19 Hitachi, Ltd. Method of and apparatus for water-jet peening
WO2004029303A1 (en) * 2002-09-25 2004-04-08 Nippon Steel Corporation Method of improving fatigue strength of work end portion of steel
US20190283903A1 (en) * 2016-08-31 2019-09-19 Industry-Academic Cooperation Foundation, Dankook University Crack pepair method for inhibiting crack growth in wall portion by using ultrasonic wave

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US5305361A (en) * 1992-01-24 1994-04-19 Hitachi, Ltd. Method of and apparatus for water-jet peening
WO2004029303A1 (en) * 2002-09-25 2004-04-08 Nippon Steel Corporation Method of improving fatigue strength of work end portion of steel
US20190283903A1 (en) * 2016-08-31 2019-09-19 Industry-Academic Cooperation Foundation, Dankook University Crack pepair method for inhibiting crack growth in wall portion by using ultrasonic wave
US10906669B2 (en) * 2016-08-31 2021-02-02 Ndustry-Academic Cooperation Foundation, Dankook University Crack pepair method for inhibiting crack growth in wall portion by using ultrasonic wave

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