ICF13B

13th International Conference on Fracture June 16–21, 2013, Beijing, China -10- Acknowledgements This study was partially supported by research fellowship program (No. 2210020) of Japan Society for the Promotion of Science (JSPS). References [1] S. Nambu, M. Enoki, Scattering in fatigue, crack growth of thin pure copper sheet for smart stress memory patch. ISIJ Int., 47 (2007) 1687-1691. [2] S. Nambu, M. Enoki, Monitoring of Acoustic Emission Activity of Smart Stress Memory Patch to Estimate Maximum Fatigue Stress for Structural Health Monitoring. ISIJ Int., 51 (2011) 88-92. [3] T. Shiraiwa, M. Enoki, Evaluation of Fatigue Properties of Steel Bar by Smart Stress-memory Patch. ISIJ Int., 51 (2011) 250-255. [4] T. Shiraiwa, M. Enoki, Fatigue Crack Length Measurement of Sputtered Metal Film for RFID-based Smart Stress Memory Patch. ISIJ Int., 51 (2011) 1480-1486. [5] S. Nambu, M. Enoki, Smart stress-memory patch for fatigue damage of structure. Mater. Trans., 48 (2007) 1244-1248. [6] Y. Fujino, S. Nambu, M. Enoki, AE behavior of smart stress memory patch after variable amplitude loading. Mod. Phys. Lett. B, 22 (2008) 1105-1110. [7] H. D. Merchant, M. G. Minor, Y. L. Liu, Mechanical Fatigue of Thin Copper Foil. J. Electron. Mater., 28 (1999) 998-1007. [8] M. Hommel, O. Kraft, E. Arzt, A new method to study cyclic deformation of thin films in tension and compression. J. Mater. Res., 14 (1999) 2373-2376. [9] M. Judelewicz, H. U. Künzi, N. Merk, B. Ilschner, Microstructural development during fatigue of copper foils 20–100 μm thick. Mater. Sci. Eng. A, 186 (1994) 135-142. [10] M. Gonzalez, F. Axisa, M. V. Bulcke, D. Brosteaux, B. Vandevelde, J. Vanfleteren, Design of metal interconnects for stretchable electronic circuits. Microelectron. Reliab., 48 (2008) 825-832. [11] S. Nambu, M. Enoki, Scattering in fatigue crack growth of thin pure copper sheet for smart stress memory patch. ISIJ Int., 47 (2007) 1687-1691. [12] T. Hanlon, E. D. Tabachnikova, S. Suresh, Fatigue behavior of nanocrystalline metals and alloys. Int. J. Fatigue, 27 (2005) 1147-1158. [13] P. J. Torvik, On the Determination of Stresses, Displacements, and Stress-Intensity Factors in Edge-Cracked Sheets With Mixed Boundary Conditions. J. Appl. Mech. , 46 (1979) 611-617. [14] J. Kohout, A new function describing fatigue crack growth curves. International Journal of Fatigue, 21 (1972) 813–821. [15] M. A. Miner, Cumulative Damage in Fatigue. J. Appl. Mech., 12 (1945) A159-A164. [16] S. Suresh, Fatigue of Materials, Cambridge University Press, Cambrige, 1998.

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