APPLICABILITY OF FRACTURE MECHANICS TO NANO-COMPONENTS

Authors

  • Takayuki Kitamura Department of Mechanical Engineering and Science, Kyoto University, Kyoto 606-8501, Japan
  • Takashi Sumigawa Department of Mechanical Engineering and Science, Kyoto University, Kyoto 606-8501, Japan

Keywords:

Nano-elements, Deformation, Fracture, Mechanical properties, Stress concentration

Abstract

The focus in this project is put on the mechanical property of nano-components (nano-elements). The deformation property of a thin film consisting discretely arrayed nano-elements on a substrate is evaluated by means of an atomic force microscope (AFM) with a loading apparatus. The fact that the thin film eliminates stress singular field at the interface edge between dissimilar materials is numerically and experimentally elucidated.

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References

M. Suzuki and Y. Taga, "Integrated sculptured thin films", Japanese Journal of Applied Physics, 40, L358-L359, 2001

K. Robbie, M.J. Brett and A. Lakhtakia," First thin film realization of a helicoidal bianisotropic medium", J Vacuum Sci Technol, A13(6), 2991-2993 , 1995

H. Hirakata, T. Hirako, Y. Takahash, et al., " Creep crack initiation at a free edge of an interface between submicron thick elements ", Engineering Fracture Mechanics, 75, 2907-2920, 2008

Takahashi Y, Hirakata H, Kitamura T, "Quantitative evaluation of plasticity of a ductile nano-component", Thin Solid Films, 516, 1925-1930, 2008

H. Hirakata, T. Kitamura, Y. Yamamoto, "Evaluation of interface strength of micro-dot on substrate by means of AFM", International Journal of Solids and Structures, 41, 3243-3253, 2004

Hirakata H, Kitazawa M, Kitamura T, " Fatigue crack growth along interface between metal and ceramics submicron-thick films in inert environment ", Acta Materualia, 54, 89-97, 2006

H. Hirakata, S. Matsumoto, M. Takemura, M. Suzuki and T. Kitamura, "Anisotropic deformation of thin films comprised of helical nanosprings", International Journal of Solids and Structures, 44, 4030-4038, 2007.

T. Sumigawa, H. Hirakata, M. Takemura, S. Matsumoto, M. Suzuki and T. Kitamura, "Disappearance of stress singularity at interface edge due to nanostructured thin film", Engineering Fracture Mechanics, 75, 3073-3083, 2008

D.B. Bogy, "Edge-bonded dissimilar orthogonal elastic wedges under normal and shear loading", Journal of Applied Mechanics, 35, 460-466, 1968

T. Sumigawa, T. Sueda, Y. Futamura, M. Suzuki and Takayuki Kitamura, " Effect of Interface Layer consisting of Nanosprings on Stress Field near Interface Edge ", Engineering Fracture Mechanics, submitted

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Published

2009-03-01

Issue

Section

Articles

How to Cite

[1]
“ APPLICABILITY OF FRACTURE MECHANICS TO NANO-COMPONENTS”, JME, vol. 4, no. 1, pp. 1–6, Mar. 2009, Accessed: Nov. 21, 2024. [Online]. Available: https://smenec.org/index.php/1/article/view/600

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