论文信息 - Fatigue limit estimation of stainless steels with new dissipated energy data analysis

Fatigue limit estimation of stainless steels with new dissipated energy data analysis

Abstract In this paper, a new fatigue limit estimation scheme for austenitic stainless steel based on the dissipated energy is proposed. The new scheme utilizes the phase 2 f lock-in infrared method which is a technique for improving the accuracy of a dissipated energy measurement, and evaluates the fatigue limit based on the increasing rate of dissipated energy. This scheme is applied to the pre-strained austenitic stainless steel specimen. The fatigue limit of austenitic stainless steel specimen is increased by the plastic forming process. The phase 2 f lock-in infrared method can remove the apparent dissipated energy which is caused by thermoelastic temperature change due to harmonic vibration of fatigue testing machine. The estimation scheme based on the increasing rate of dissipated energy against the stress level can evaluate the fatigue limit of the pre-strained specimen with greater accuracy than the conventional scheme.

[1] Minh Phong Luong,et al. Infrared thermography of fatigue in metals , 1992, Defense, Security, and Sensing.

[2] M. P. Luong,et al. Infrared thermographic scanning of fatigue in metals , 1995 .

[3] Takahide Sakagami,et al. Experimental Study of Relationship between Energy Dissipation and Fatigue Damage from Observation of Slip Band by Atomic Force Microscope , 2014 .

[4] 裕嗣井上,et al. 散逸エネルギー計測による切欠試験片の疲労限度の評価( M&M2009材料力学カンファレンス) , 2010 .

[5] T. Sakagami,et al. Dissipated Energy Evaluation for Austenitic Stainless Steel , 2013 .

[6] Takahide Sakagami,et al. OS0405-455 Accuracy improvement of dissipated energy measurement and fatigue limit estimation by using phase information , 2015 .

[7] Raffaella Sesana,et al. A new iteration method for the thermographic determination of fatigue limit in steels , 2005 .

[8] J.-C. Krapez,et al. Lock-in thermography and fatigue limit of metals , 2000 .

[9] Antonino Risitano,et al. Thermographic methodology for rapid determination of the fatigue limit of materials and mechanical components , 2000 .

[10] Davide Palumbo,et al. Characterisation of steel welded joints by infrared thermographic methods , 2014 .

[11] Takahide Sakagami,et al. Fatigue Limit Evaluation for Austenitic Stainless Steel , 2012 .

[12] Minh Phong Luong,et al. Fatigue limit evaluation of metals using an infrared thermographic technique , 1998 .