Wear of Metals in Corrosive Environments
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概要
- 論文の詳細を見る
The wear of carbon steel in corrosive environments has been observed under the potential controlled conditions, and the mechanism of wear and friction in corrosive environments is discussed. In the wear of metals in corrosive environments, the fracture of adhesion points, the fracture by thermal fatigue, the rubbing off of corroded layer and the damage by corrosion fatigue are observed in accordance with the variety of corrosive agents, the corrosion intensity, the type of friction, the rubbing velocity and the contact load. In the oxidizing neutral media, the lubrication due to the corrosion products plays an important role in the behavior of wear, the minimum wear rate being obtained under the mild corrosiveness in the type of face contact. In the reducing acid media, the lubrication of corrosion products is not found because of their dissolution. In the corrosive wear of metals, the wear rate is much affected by the dissolution rate of metals because of the great effect of corrosion fatigue. The cathodic potential sufficient to protect the static corrosion is not adequate to the members under friction in corrosive environments, owing to the increase of the surface activity of metals. However, the protection from corrosion is not always expected to decrease the wear rate as is mentioned above.
- 一般社団法人日本機械学会の論文
著者
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Endo Kichiro
Faculty Of Engineering Kyoto University
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Komai Kenjiro
Faculty Of Engineering Kyoto University
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FUJITA Daito
Osaka Gas Co., Ltd.
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Fujita Daito
Osaka Gas Co. Ltd.
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Endo Kichiro
Faculty Of Engineering Hiroshima University
関連論文
- The Influence of Load-Difference in Reciprocating Stroke on the Lubricated Wear
- Effects of Cycle Frequency on Fretting Fatigue Life of Carbon Steel
- Estimation of Corrosion Fatigue Strength by Corrosion Resistance and Notch Sensitivity of Materials
- Wear of Steel in the Lubricating Oil Containing Abrasive Particles
- Further Study on the Crack Depth and the Low Temperature Embrittlement of a Carbon Steel Subjected to Corrosion Fatigue
- Influences of Secondary Stress Fluctuations of Small Amplitude on Low Cycle Corrosion Fatigue
- Fatigue Crack Propagation of Steel in Oil
- Fatigue Crack Propagation in Bearing Metals Lining on Steel Plates in Lubricating Oil
- Fundamental Studies on Cavitation Erosion
- Wear of Metals in the Lubricating Oil Containing Solid Particles : Effects of Diameter of Partlcles and Contact Pressure
- On the Crack Length and the Low Temperature Brittleness of a Carbon Steel Subjected to Corrosion Fatigue
- Influences of Stress Cycle Frequency on Propagation of Corrosion Fatigue Cracks
- The Effects of Atmosphere on Fatigue Crack Propagation
- Wear of Metals in Corrosive Environments
- On the Study of Thermal Fatigue of Bearing Metals Lining on Steel Plates
- The Effect of Atmosphere on the Frequency Effect in the High Temperature Fatigue of a Carbon Steel
- Studies on the Size Effect of Bending and Twisting Fatigue Strength
- Fundamental Studies of Cavitation Erosion : In the Case of Low Cavitation Intensity
- Fatigue Strength of White Metal Lining on Steel Plate
- Fretting Fatigue Strength of Several Materials Combinations
- Fatigue Strength of Bearing Metals Lining on Steel Plates in Lubricating Oil
- Erosion Damages of Sintered Metals
- Plastic Strain Fatigue of High Tensile Steel in Corrosive Media
- Effects of Cycle Frequency on the Corrosion Fatigue Strength
- A Study of Fatigue Crack Propagation in a Coating Film on Base Metal
- Wear Behaviours of Metals under Lubricated Condition and the Effect of Small Electric Potential
- The Wear of Steel in Lubricating Oil under Varying Load
- Erosion of Bearing Alloys in Oil Film
- Environmental Effects on Initiation and Propagation of Fatigue Cracks in High Strength Steel