Fatigue Strength under Multiple Repeated Stress : (In the Case of Double Change of Amplitude in Two Stress Levels)
スポンサーリンク
概要
- 論文の詳細を見る
The problems of the fatigue of materials have been studied by many investigators, but there still remain many unknown factors, especially on the damaging effects due to the repeated stress with varying amplitude. In this study, we carried out the fatigue tests on the medium carbon steel by supperposing the higher stress reversals upon the fundamental repeated stress levels in order to discuss the process of fatigue stressing, and investigated the influence of the cycle ratio of the primary stress, the secondary higher stress level, and its reversals on the cumulative cycle ratio to failure. As a result, it has been found that the more the cycle ratio of the primary stress amplitude is and the lower the secondary stress level is, the greater the cumulative cycle ratio to failure becomes. Besides, we have interpreted these test results by the use of the cycle ratio-damage curves (D-R curves).
- 一般社団法人日本機械学会の論文
著者
-
Kawamoto Minoru
Faculty Of Engineering Kyoto University
-
Kawamoto Minoru
Faculty Of Mechanical Engineering Kyoto University
-
Nakagawa Takao
Faculty Of Engineering Kobe University
-
KOHAMA Hiroyuki
Kobe Steel Co., Ltd.
-
Kohama Hiroyuki
Kobe Steel Co. Ltd.
-
Nakagawa Takao
Faculty Of Mechanical Engineering Kyoto University
-
Kawamoto M.
Faculty of Engineering, Kyoto University
関連論文
- Study on Torsional Fatigue Strengths of Rectangular and Circular Cross Sections of Steel
- Effect of Heating and Cooling Speed and Hold Time on Thermal Fatigue
- Reliability Analysis of Structures under Seismic Excitation : Part III : Comparison of reliabilities obtained by first passage failure method and cumulative damage failure method
- Reliability Analysis of Structures under Seismic Excitation : Part II : Reliability by cumulative damage failure method
- Estimation of the Fatigue Lives under Actual Loads by Hereditary Method
- Fatigue Test Results and Fatigue Life Estimation on Hard Steel and Aluminum Alloy under Random Loads
- Plane Bending Plastic Fatigue of Ni-Cr-Mo Steel
- Effects of Statical Strength and Deformability of Steels on Tensile Impact Fatigue Strengths
- Fatigue Strength under Multiple Repeated Stress : (In the Case of Double Change of Amplitude in Two Stress Levels)
- On the Variation of Stress-Strain Characteristics in the Plastic Fatigue under Rotating Bending
- Fatigue Buckling
- On Non-Propagating Cracks in Fatigue of Metals
- On the Damage Line for the Fatigue Life of Carbon Steel : Under Completely Reversed Plane Bending Fatigue Test
- New Resonance Type Fatigue Testing Machine
- The Fatigue Bauschinger Effect : Continued Report, The Case of Brass
- Plastic Fatigue Life of Steel Subjected to a Multiple Repeated Stress under Rotary Bending
- A Newly Devised Resonance Type Rotating Bending Fatigue Testing Machine and Some Fatigue Tests
- Effect of Loading Frequency on the Fatigue Strength of Steels at Elevated Temperatures
- A New Mechanical Random Fatigue Testing Machine and Some Test Results