Measurement of the Indentation Modulus and the Local Internal Friction in Amorphous SiO2 Using Atomic Force Acoustic Microscopy

Journal title

Archives of Metallurgy and Materials




No 1 March

Publication authors

Divisions of PAS

Nauki Techniczne


Institute of Metallurgy and Materials Science of Polish Academy of Sciences ; Commitee on Metallurgy of Polish Academy of Sciences




ISSN 1733-3490


Hurley (2007), Mapping mechanical properties on the nanoscale using atomic - force acoustic microscopy, JOM, 59, 23, ; Stan (2008), Mapping the elastic properties of granular Au films by contact resonance atomic force microscopy, Nanotechnology, 19, 23570, ; Müller (2008), Quantitative evaluation of elastic properties of nano - crystalline nickel using atomic force acoustic microscopy, Phys Chem, 222. ; Magalas (2009), Mechanical spectroscopy internal friction and ultrasonic attenuation Collection of works, Mater Sci Eng, 521. ; Johnson (2005), A universal criterion for plastic yielding of metallic glasses with a temperature dependence, Phys Rev Lett, 95. ; Wagner (2014), Measurement of local internal friction in metallic glasses Erratum, Appl Phys Appl Phys, 115. ; Yuya (2011), Relationship between Q - factor and sample damping for contact resonance atomic force microscope measurement of viscoelastic properties, Appl Phys, 109. ; Stillinger (1982), Hidden structure in liquids A topographic view of supercooled liquids and glass - formation, Phys Rev A Science, 31, 25. ; Vlassak (1993), Indentation modulus of elastically anisotropic half - spaces, Phil Mag, 67. ; Wagner (2011), Local elastic properties of a metallic glass, Nature Materials, 10, 439, ; Harmon (2007), Anelastic to plastic transition in metallic glass - forming liquids, Phys Rev Lett, 99. ; Stan (2006), Quantitative measurements of indentation moduli by atomic force acoustic microscopy using a dual reference method, Rev Sci Instr, 77. ; Wagner (2010), Lokale Elastizitätsfluktuationen kristalliner und amorpher Festkörper : Eine experimentelle Vergleichsstudie mittels Ultraschall - Kraftmikroskopie Diploma Thesis Georg - August Universität Göttingen unpublished, Phys.