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Philosophical Magazine A Volume 78, 1998 - Issue 3
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Original Articles

Mechanisms of energy dissipation during displacement- sensitive indentation in Ge single crystals at elevated temperatures

B. Ya. Farber Rosemount Analytical Inc., Gas Division, Orrville, Ohio, 44667, USA; Department of Materials Science and Engineering, Case Western Reserve University, Cleveland, Ohio, 44106, USA
,
V. I. Orlov Department of Materials Science and Engineering, Case Western Reserve University, Cleveland, Ohio, 44106, USA; Institute of Solid State Physics, Russian Academy of Sciences, 142432, Chernogolovka, Moscow District, Russia
,
V. I. Nikitenko Institute of Solid State Physics, Russian Academy of Sciences, 142432, Chernogolovka, Moscow District, Russia
&
A. H. Heuer Department of Materials Science and Engineering, Case Western Reserve University, Cleveland, Ohio, 44106, USA
Pages 671-677 | Accepted 18 Oct 1997, Published online: 12 Aug 2009

Citations (15)

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Yu. I. Golovin, A. I. Tyurin & B. Ya. Farber. (2002) Time-dependent characteristics of materials and micromechanisms of plastic deformation on a submicron scale by a new pulse indentation technique. Philosophical Magazine A 82:10, pages 1857-1864.
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Articles from other publishers (14)

A. A. Dmitrievskiy. (2013) Regularities of Changes in the Properties of Silicon Single Crystals under Low-Dose Beta-Irradiation. Russian Physics Journal 56:8, pages 942-952.
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Jonathan C. Trenkle, Corinne E. Packard & Christopher A. Schuh. (2010) Hot nanoindentation in inert environments. Review of Scientific Instruments 81:7.
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Yu. I. Golovin. (2008) Nanoindentation and mechanical properties of solids in submicrovolumes, thin near-surface layers, and films: A Review. Physics of the Solid State 50:12, pages 2205-2236.
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Yu. I. Golovin, A. A. Dmitrievskii, N. Yu. Suchkova & M. Yu. Tolotaev. (2007) Changes in the silicon microhardness induced by a low-intensity electron beam. Journal of Surface Investigation. X-ray, Synchrotron and Neutron Techniques 1:2, pages 204-206.
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Christopher A. Schuh. (2006) Nanoindentation studies of materials. Materials Today 9:5, pages 32-40.
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Christopher A. Schuh, Corinne E. Packard & Alan C. Lund. (2006) Nanoindentation and contact-mode imaging at high temperatures. Journal of Materials Research 21:3, pages 725-736.
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Yu. I. Golovin, A. A. Dmitrievskiĭ & N. Yu. Suchkova. (2006) Structure of complexes responsible for radiation-stimulated softening of silicon single crystals. Physics of the Solid State 48:2, pages 279-282.
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J. K. Mason, A. C. Lund & C. A. Schuh. (2006) Determining the activation energy and volume for the onset of plasticity during nanoindentation. Physical Review B 73:5.
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Yu. I. Golovin. (2005) Multistage Radiation-Stimulated Changes in the Microhardness of Silicon Single Crystals Exposed to Low-Intensity β Irradiation. Physics of the Solid State 47:7, pages 1278.
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Yu. I. Golovin, A. A. Dmitrievskii, I. A. Pushnin & N. Yu. Suchkova. (2004) Reversible changes in the microhardness of silicon crystals under electron irradiation with low doses. Physics of the Solid State 46:10, pages 1851-1853.
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Christopher A. Schuh & Alan C. Lund. (2011) Application of nucleation theory to the rate dependence of incipient plasticity during nanoindentation. Journal of Materials Research 19:7, pages 2152-2158.
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Yu. I. Golovin, Yu. L. Iunin & A. I. Tyurin. (2003) Strain-rate sensitivity of the hardness of crystalline materials under dynamic nanoindentation. Doklady Physics 48:9, pages 505-508.
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V Orlov, H Richter, A Fischer, J Reif, T Müller & R Wahlich. (2002) Mechanical properties of nitrogen-doped CZ silicon crystals. Materials Science in Semiconductor Processing 5:4-5, pages 403-407.
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Yu. I. Golovin, A. I. Tyurin, V. I. Ivolgin & V. V. Korenkov. (2000) Dynamic characteristics of solids in microvolumes: Modern principles, techniques, and results of investigation. Technical Physics 45:5, pages 605-612.
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