Effect of Plastic Deformation by Roller-Working on Fatigue Strength of Notched Specimen
スポンサーリンク
概要
- 論文の詳細を見る
In this study, the fatigue test is performed to investigate the effect of plastic deformation by roller-working on the fatigue limit of a notched specimen. Three types of specimens are tested, whose different deformation values are obtained by roller-working and whose final finishing shape and dimensions are the same. The reason why fatigue limit changes with a change in the plastic deformation value is examined by analyzing residual stress, micro-Vickers hardness distribution and crack-tip opening displacement. The main results are as follows : (1) The resistance against fatigue crack initiation increases with an increase in the plastic deformation value. (2) When the deformation value becomes too large by roller-working, residual stress is released by cycle stress amplitude and the critical stress amplitude of non-propagating crack tip opening decreases. (3) The fatigue limit of the roller-worked notched specimen does not necessarily increase when the plastic deformation value becomes too large. (4) The optimum deformation value exists and is about 0.5 mm, to improve the fatigue limit of the roller-worked notched specimen.
- 一般社団法人日本機械学会の論文
- 2000-10-15
著者
-
NISHIDA Shin-ichi
Faculty of Science & Engineering, Saga University
-
NAKAMURA Norikazu
Fukuoka Industrial Technology Center
-
Hattori Nobusuke
Faculty Of Science & Engineering Saga University
-
Hattori Nobusuke
Faculty Of Science & Engineering Saga Univ.
-
Nakamura Norikazu
Fukuoka Industrial Technology Center Mechanics & Electronics
-
Wang Sheng-wu
Faculty of Science & Engineering, Saga University
-
Tamasaki Hidetosi
Nittetsu Bolten Co., Ltd.
-
Wang Sheng-wu
Faculty Of Science & Engineering Saga University
-
Tamasaki Hidetosi
Nittetsu Bolten Co. Ltd.
関連論文
- A STUDY OF EFFECTS OF GRAIN SIZE ON HIGH - CYCLE FATIGUE STRENGTH IN PURE ALUMINUM
- Influence of Mean Stress on the Stress-Controlled Fatigue of Structural Stainless Steels
- OS11(5)-19(OS11W0080) The Effect of Compressive Mean Stress on Fatigue Properties of Notched Structural Steel
- Fatigue Properties of Pre-strained Eutectoid Steel
- OS11(5)-20(OS11W0081) Optimum Deformation Value of Notched Eutectoid Steel by Roller Working
- OS11(6)-25(OS11W0094) Study on Service Performance of Automobile Steel Sheets
- Impact Characteristics of Diffusion Bonds of Ferritic Spheroidal Graphite Cast Iron
- Fatigue Properties of a 5083/SiCp Metal Matrix Composite
- Effect of Plastic Deformation by Roller-Working on Fatigue Strength of Notched Specimen
- Static and Cyclic Properties of Eutectoid Steel and Study of its Micro-Behavior(Fatigue 2)
- Design, Manufacture and Performance of Hybrid Reducers with Gear and Traction Elements (1st Report, Trial-Made of a New Speed Reducer and Power Transmission Efficiency) : Series C : Vibration, Control Engineering, Engineering for Industry
- OS11(1)-4(OS11W0289) Study on Contact Rolling Fatigue of Rails