Developing Stages of Ultrasonically Produced Cavitation Erosion and Corresponding Surface Roughness
スポンサーリンク
概要
- 論文の詳細を見る
Vibratory-erosion tests on a typical erosion-resistant material made of 304 stainless steel were carried out. We carefully observed the erosion patterns and the surface roughness aspects with respect to test time, under a specified condition of uniform nuclei-size distribution, by a scanning electron microscope and a profilometer. The eroded surface is classified into three stages from surface topography and roughness profile. In the first stage, the surface is plastically deformed and its roughness rapidly increases. In the second stage, the surface becomes more hardened, so that cracks initiate and propagate ; after that, local removal of material occurs. In addition, the roughness doubles and then increases slightly. In the third stage, almost all the virgin surface is removed and the roughness doubles again. It is found that skewness has, respectively, a positive and a negative value before and after the material removal, while the kurtosis is always positive.
- 社団法人日本機械学会の論文
- 1990-02-15
著者
-
OBA Risaburo
Institute of Fluid Science, Tohoku University
-
Oba Risaburo
Institute Of Fluid Science Tohoku University
-
Hokkirigawa K
Associate Professor Faculty Of Engineering Yamagata University
-
Hokkirigawa Kazuo
Department Of Mechanical Systems Engineering Faculty Of Engineering Yamagata University
-
Hokkirigawa Kazuo
Department Of Mechanical Engineering Tohoku University
-
AHMED Shemy
Institute of Fluid Science, Tohoku University
-
AHMED Shemy
Tohoku University
-
HOKKIRIGAWA Kazuo
Tohoku University
-
MATSUDAIRA Yasuaki
Tokyo Metropolitan Institute of Technology
-
Ahmed S
Assiut Univ. Egy
-
Ahmed Shemy
Institute Of Fluid Science Tohoku University
関連論文
- Jet Structure Analyses on High-Speed Submerged Water Jets through Cavitation Noises
- Several Kinds Vibrations Arisen around a Typical Highspeed SupercavitatingHydrofoil with Various Nose Shapes
- Appearance of Cavitation and Cavitation-Acoustic-Pulses (Especially in Decelerated-and Accelerated-Flow)
- Singular Behavior of Erosion-Standoff-Distance-Curves for Highspeed-Water-Jets in Air
- Behavior of Cavitation Nuclei in High-Speed Submerged Water-Jet-Tests
- Marked Change in Subcavitation-Cascade Performance Resulting from a Very Slight Modification in Leading Edges
- Spatial Distribution of Cavitation-Shock-Pressure Around a Jet-Flow Gate-Valve : Series B : Fluid Engineering, Heat Transfer, Combustion, Power, Thermophysical Properties
- Base-Vented Performance Simulation for Supercavitating Hydrofoils with Pseudo-Kirchhoff Noses Operating within the Subcavitating Region
- SEM Observation of the Vibratory Cavitation-Fracture Mode during the Incubation Period and the Small Roughness Effect
- Developing Stages of Ultrasonically Produced Cavitation Erosion and Corresponding Surface Roughness
- An Indirect Vibratory Method Capable of Simulating Several Cavitating States
- Several Trials in the Search for a Complete Cavitation Concept
- Several Aspects of Fatigue Failure Caused by Cavitation Erosion
- Flow Calculation of a Mixed-Flow Runner, Especially with Respect to a Marked Effect of the Blade Loading
- SEM Studies of Particles Produced by Cavitation Erosion
- Characteristics of Bubble-Collapse Pressures in a Karman-Vortex Cavity
- Fretting Damage of SUS304 in a Vacuum (Discussion of the Condition of the Crack Generation) : Vibration, Control Engineering, Engineering for Industry
- Fretting Damage of SUS304 in a Vacuum : Vibration, Control Engineering, Engineering for Industry
- RELATION BETWEEN IMPACT VELOCITY OF PARTICLE AND SIZE OF CRATER FORMED ON SOFT SURFACE
- Spatial Distribution of Cavitation-Shock-Pressures around a Jet-Flow Gate-Valve
- Cavitation-Probable Bubbles Flowing Down from a Cavitating Branch Duct
- A Peculiar Behavior of Cavitation-Nuclei-Size Distributions in Sample Water Under Vibratory Erosion Tests
- Stochastic Behavior (Randomness) of Acoustic Pressure Pulses in the Near-Subcavitating Range : Fluids Engineering
- Peculiar Behavior of Disc Drag during Force Measurements for Supercavitating Hydrofoils
- Cavity Separations and Associated Impulsive Pressures around a Cavitating Circular Cylinder (1st Report, Vortex Cavitation in the Wake and Attached Cavitation)
- Peculiar Behavior of Disc Drag During Force Measurements for Super cavitating Hydrofoils
- Unsteady Behavior of Violent-Vibrations Depending upon Type of Cavitation
- Studies on Low-Erosion Butterfly Valves : Suppression of Erosive Vortex Cavitation
- High-Speed Observations of the Cavitation Cloud around a High-Speed Submerged Water Jet
- Suitable Region of High-Speed Submerged Water Jets for Cutting and Peening
- High-Speed Observations of the Vibratory Cavitation Accompanying Hard Erosion
- High-Speed Stereo-Observations of Violent Vibrations Associated with Three Types of Cavitation