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Philosophical Magazine A Volume 79, 1999 - Issue 3
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Original Articles

The effect of tip momentum on the contact stiffness and yielding during nanoindentation testing

A. B. Mann Department of Materials, University of Oxford, Parks Road, Oxford, OX1 3PH, England; Materials Science and Engineering Department, The Johns Hopkins University, 3400 N. Charles Street, Baltimore, Maryland, 21218, USA E-mail: [email protected].
&
J. B. Pethica Department of Materials, University of Oxford, Parks Road, Oxford, OX1 3PH, England
Pages 577-592 | Received 16 Dec 1997, Accepted 08 May 1998, Published online: 12 Aug 2009

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Siwei Chen, Yongming Wang, Naoyuki Hashimoto & Somei Ohnuki. (2014) Onset of plasticity of helium-implanted ferritic/martensitic steels during nanoindentation. Philosophical Magazine Letters 94:7, pages 433-438.
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C. A. Charitidis. (2012) Multiscale approach of hardness in aluminium alloy: consideration of rate dependent behaviour. Materials Science and Technology 28:9-10, pages 1127-1134.
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D.E. Kramer, K.B. Yoder & W.W. Gerberich. (2001) Surface constrained plasticity: Oxide rupture and the yield point process. Philosophical Magazine A 81:8, pages 2033-2058.
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Articles from other publishers (32)

John B. Pethica. (2023) Nanoindentation in more than one dimension – Experimental challenges and opportunities. Current Opinion in Solid State and Materials Science 27:4, pages 101100.
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Shigenobu Ogata. 2022. The Plaston Concept. The Plaston Concept 37 56 .
Takahito Ohmura & Masato Wakeda. (2021) Pop-In Phenomenon as a Fundamental Plasticity Probed by Nanoindentation Technique. Materials 14:8, pages 1879.
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Yuji Sato, Shuhei Shinzato, Takahito Ohmura & Shigenobu Ogata. (2019) Atomistic prediction of the temperature- and loading-rate-dependent first pop-in load in nanoindentation. International Journal of Plasticity 121, pages 280-292.
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Zafrul H. KhanHasan FaisalRafiqul A. Tarefder. (2018) Evaluation of Nanomechanical Properties of Nonaggregate Phase of Asphalt Concrete Using Finite-Element Method. Journal of Materials in Civil Engineering 30:12.
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Cédric Pouvreau, Kilian Wasmer, Haïcha Hessler-Wyser, Jean-Daniel Ganière, Jean-Marc Breguet, Johann Michler, Daniel Schulz & Jacques Henri Giovanola. (2013) Nanoindentation cracking in gallium arsenide: Part II. TEM investigation. Journal of Materials Research 28:20, pages 2799-2809.
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Elias P. Koumoulos, Costas A. Charitidis, Nikolaos M. Daniolos & Dimitrios I. Pantelis. (2013) Determination of onset of plasticity (yielding) and comparison of local mechanical properties of friction stir welded aluminum alloys using the micro‐ and nano‐indentation techniques. International Journal of Structural Integrity 4:1, pages 143-158.
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Kilian Wasmer, Rémy Gassilloud, Johann Michler & Christophe Ballif. (2011) Analysis of onset of dislocation nucleation during nanoindentation and nanoscratching of InP. Journal of Materials Research 27:1, pages 320-329.
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C. Charitidis. 2012. Materials and Surface Engineering. Materials and Surface Engineering 23 59 .
E.P. Koumoulos, C.A. Charitidis, N.M. Daniolos & D.I. Pantelis. (2011) Nanomechanical properties of friction stir welded AA6082-T6 aluminum alloy. Materials Science and Engineering: B 176:19, pages 1585-1589.
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Adrian B. Mann. 2011. Nanotribology and Nanomechanics I. Nanotribology and Nanomechanics I 391 437 .
A. N. CHAMOS, C. A. CHARITIDIS, A. SKARMOUTSOU & SP. G. PANTELAKIS. (2010) An investigation on the high stress sensitivity of fatigue life of rolled AZ31 magnesium alloy under constant amplitude fatigue loading. Fatigue & Fracture of Engineering Materials & Structures 33:4, pages 252-265.
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Adrian B. Mann. 2008. Nanotribology and Nanomechanics. Nanotribology and Nanomechanics 607 653 .
Adrian Mann. 2007. Springer Handbook of Nanotechnology. Springer Handbook of Nanotechnology 1137 1166 .
Sheng-Rui Jian, Te-Hua Fang, Der-San Chuu & Liang-Wen Ji. (2006) Atomistic modeling of dislocation activity in nanoindented GaAs. Applied Surface Science 253:2, pages 833-840.
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Christopher A. Schuh. (2006) Nanoindentation studies of materials. Materials Today 9:5, pages 32-40.
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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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C. A. Schuh, J. K. Mason & A. C. Lund. (2005) Quantitative insight into dislocation nucleation from high-temperature nanoindentation experiments. Nature Materials 4:8, pages 617-621.
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D. Tranchida & S. Piccarolo. (2005) Relating morphology to nanoscale mechanical properties: from crystalline to mesomorphic iPP. Polymer 46:12, pages 4032-4040.
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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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B. Wolf, A. Richter & V. Weihnacht. (2004) Differential and integral hardness—new aspects of quantifying load–depth-data in depth-sensing nanoindentation experiments. Surface and Coatings Technology 183:2-3, pages 141-150.
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E. Le Bourhis, G. Patriarche, L. Largeau & J.P. Rivière. (2011) Polarity-induced changes in the nanoindentation response of GaAs. Journal of Materials Research 19:1, pages 131-136.
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Adrian B. Mann. 2004. Springer Handbook of Nanotechnology. Springer Handbook of Nanotechnology 687 716 .
B. Wolf, A. Richter & M. Günther. (2003) Approaches of quantifying the entire load–depth curve in terms of hardness. Zeitschrift für Metallkunde 94:7, pages 807-812.
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B Wolf & A Richter. (2003) The concept of differential hardness in depth sensing indentation. New Journal of Physics 5, pages 15-15.
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E. Le Bourhis & G. Patriarche. (2003) Plastic deformation of III–V semiconductorsunder concentrated load. Progress in Crystal Growth and Characterization of Materials 47:1, pages 1-43.
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M. Göken, R. Sakidja, W.D. Nix & J.H. Perepezko. (2001) Microstructural mechanical properties and yield point effects in Mo alloys. Materials Science and Engineering: A 319-321, pages 902-908.
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N.I. Tymiak, D.E. Kramer, D.F. Bahr, T.J. Wyrobek & W.W. Gerberich. (2001) Plastic strain and strain gradients at very small indentation depths. Acta Materialia 49:6, pages 1021-1034.
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M. Göken, M. Kempf & W.D. Nix. (2001) Hardness and modulus of the lamellar microstructure in PST-TiAl studied by nanoindentations and AFM. Acta Materialia 49:5, pages 903-911.
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C. M. Lepienski, M. S. Meruvia, W. Veiga & F. Wypych. (2011) Mechanical properties of niobium disulfide and its hydrated sodium cation intercalation compound. Journal of Materials Research 15:10, pages 2061-2064.
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S. A. Syed Asif, K. J. Wahl & R. J. Colton. (2011) The influence of oxide and adsorbates on the nanomechanical response of silicon surfaces. Journal of Materials Research 15:2, pages 546-553.
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S. A. Syed Asif, K. J. Wahl & R. J. Colton. (2011) Quantitative Study of Nanoscale Contact and Pre-Contact Mechanics Using Force Modulation. MRS Proceedings 594.
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