Surface roughness effects on the displacement bursts observed in nanoindentation

Yoji Shibutani; Atsuhiro Koyama

doi:10.1557/jmr.2004.19.1.183

Abstract

The distinctive finding of unstable displacement bursts of indent depth observed in nanoindentation is thought to be linked to the dislocation emission phenomenon. However, because of a lack of understanding of the surface physics of the contact area, the explanation of the instability mechanism remains vague. In this paper, an effect of the surface roughness on the displacement bursts was experimentally investigated using single-crystalline aluminum. The surface properties of samples with several degrees of roughness of less than 10 nm were measured using atomic force microscopy. The discussion focuses on the relations between critical values of the load at the displacement bursts and the burst width.

References

REFERENCES

1.Gao, H., Huang, Y., Nix, W.D. and Hutchinson, J.W., J. Mech. Phys. Solids 47 1239 (1999).Google Scholar

2.Michalske, T.A. and Houston, J.E., Acta Mater. 46 391 (1998).CrossRef Google Scholar

3.Suresh, S., Nieh, T-G. and Choi, B.W., Scr. Mater. 41 951 (1999).Google Scholar

4.Gouldstone, A., Koh, H-J., Zeng, K-Y., Gannakopoulos, A.E. and Suresh, S., Acta Mater. 48 2277 (2000).CrossRef Google Scholar

5.Kiely, J.D., Hwang, R.Q. and Houston, J.E., Phys. Rev. Lett. 81 4422 (1998).Google Scholar

6.Kechner, C.L., Plimpton, S.J. and Hamilton, J.C., Phys. Rev. B 58 11085 (1998).CrossRef Google Scholar

7.Zimmerman, J.A., Kelchner, C.L., Klein, P.A., Hamilton, J.C. and Foils, S.M., Phys. Rev. Lett. 87 165507 (2001).Google Scholar

8.Sneddon, I.N., Int. J. Eng. Sci. 3 47 (1965).Google Scholar

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Ohmura, Takahito Tsuzaki, Kaneaki and Yin, Fuxing 2005. Nanoindentation-Induced Deformation Behavior in the Vicinity of Single Grain Boundary of Interstitial-Free Steel. MATERIALS TRANSACTIONS, Vol. 46, Issue. 9, p. 2026.

Schuh, C. A. Mason, J. K. and Lund, A. C. 2005. Quantitative insight into dislocation nucleation from high-temperature nanoindentation experiments. Nature Materials, Vol. 4, Issue. 8, p. 617.

Tsuru, Tomohito and Shibutani, Yoji 2006. Atomistic simulations of elastic deformation and dislocation nucleation in Al under indentation-induced stress distribution. Modelling and Simulation in Materials Science and Engineering, Vol. 14, Issue. 5, p. S55.

Schuh, Christopher A. 2006. Nanoindentation studies of materials. Materials Today, Vol. 9, Issue. 5, p. 32.

Tsuru, T. and Shibutani, Y. 2007. Anisotropic effects in elastic and incipient plastic deformation under (001), (110), and (111) nanoindentation of Al and Cu. Physical Review B, Vol. 75, Issue. 3,

Zbib, A.A. and Bahr, D.F. 2007. Dislocation Nucleation and Source Activation during Nanoindentation Yield Points. Metallurgical and Materials Transactions A, Vol. 38, Issue. 13, p. 2249.

Chen, Hsiu-Pin Kalia, Rajiv K. Nakano, Aiichiro Vashishta, Priya and Szlufarska, Izabela 2007. Multimillion-atom nanoindentation simulation of crystalline silicon carbide: Orientation dependence and anisotropic pileup. Journal of Applied Physics, Vol. 102, Issue. 6,

Shibutani, Yoji and Tsuru, Tomohito 2007. Nanoindentation-Induced Collective Dislocation Behavior and Nanoplasticity. Key Engineering Materials, Vol. 340-341, Issue. , p. 39.

Ohmura, Takahito and Tsuzaki, Kaneaki 2007. Plasticity initiation and subsequent deformation behavior in the vicinity of single grain boundary investigated through nanoindentation technique. Journal of Materials Science, Vol. 42, Issue. 5, p. 1728.

TSURU, Tomohito and SHIBUTANI, Yoji 2008. Dislocation Nucleation and Interaction under Nanoindentation in Single Crystalline Al and Cu: Molecular Dynamics Simulations. Journal of Computational Science and Technology, Vol. 2, Issue. 4, p. 459.

Navarro, V. de la Fuente, O. Rodríguez Mascaraque, A. and Rojo, J. M. 2008. Uncommon Dislocation Processes at the Incipient Plasticity of Stepped Gold Surfaces. Physical Review Letters, Vol. 100, Issue. 10,

TSURU, Tomohito and SHIBUTANI, Yoji 2008. Theoretical Investigation of the Displacement Burst Observed in Nanoindentation by Collective Dislocation Loops Nucleation Model. Journal of Computational Science and Technology, Vol. 2, Issue. 4, p. 559.

Golovin, Yu. I. 2008. Nanoindentation and mechanical properties of solids in submicrovolumes, thin near-surface layers, and films: A Review. Physics of the Solid State, Vol. 50, Issue. 12, p. 2205.

Saber-Samandari, Saeed and Gross, Karlis A. 2009. Effect of angled indentation on mechanical properties. Journal of the European Ceramic Society, Vol. 29, Issue. 12, p. 2461.

Zhang, Ling Ohmura, Takahito Emura, Satoshi Sekido, Nobuaki Yin, Fuxing Min, Xiaohua and Tsuzaki, Kaneaki 2009. Evaluation of matrix strength in ultra-fine grained pure Al by nanoindentation. Journal of Materials Research, Vol. 24, Issue. 9, p. 2917.

Guicciardi, Stefano Melandri, Cesare and Monteverde, Frederic Tullio 2010. Characterization of pop-in phenomena and indentation modulus in a polycrystalline ZrB2 ceramic. Journal of the European Ceramic Society, Vol. 30, Issue. 4, p. 1027.

Hirakata, Hiroyuki Ogiwara, Hiroki Yonezu, Akio and Minoshima, Kohji 2010. Evaluation of incipient plasticity from interfaces between ultra-thin gold films and compliant substrates. Thin Solid Films, Vol. 518, Issue. 18, p. 5249.

Ohmura, T. Zhang, L. Sekido, K. and Tsuzaki, K. 2012. Effects of lattice defects on indentation-induced plasticity initiation behavior in metals. Journal of Materials Research, Vol. 27, Issue. 13, p. 1742.

Hayashi, Koutarou Miyata, Kaori and Katsuki, Futoshi 2012. Deformation Behavior in High-Strength Dual-Phase Steel Sheets during Bend Forming. Tetsu-to-Hagane, Vol. 98, Issue. , p. 296.

Hayashi, Koutarou Miyata, Kaori Katsuki, Futoshi Ishimoto, Takuya and Nakano, Takayoshi 2013. Individual mechanical properties of ferrite and martensite in Fe–0.16mass% C–1.0mass% Si–1.5mass% Mn steel. Journal of Alloys and Compounds, Vol. 577, Issue. , p. S593.

Download full list

Article contents

Surface roughness effects on the displacement bursts observed in nanoindentation

Abstract

Keywords

Access options

References

REFERENCES

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

Surface roughness effects on the displacement bursts observed in nanoindentation

Abstract

Keywords

Access options

References

REFERENCES

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests