Links and References¶
Links¶
Other interesting Matlab toolboxes about indentation¶
Links about (nano)indentation¶
Reference paper¶
References¶
Pop-in event¶
Plasticity or Fracture?¶
Dislocation nucleation/initiation during (nano)indentation¶
Venkataraman S.K. et al., “Continuous microindentation of passivating surfaces” (1993).
Gerberich W.W. et al., “The injection of plasticity by millinewton contacts” (1995).
Gerberich W.W. et al., “Indentation induced dislocation nucleation: The initial yield point” (1996).
Michalske T.A. and Houston J.E., “Dislocation nucleation at nano-scale mechanical contacts” (1998).
Bahr D.F. et al., “Non-linear deformation mechanisms during nanoindentation” (1998).
Bahr D.F. et al., “Energy considerations regarding yield points during indentation” (1999).
Suresh S. et al., “Nano-indentation of copper thin films on silicon substrates” (1999).
Cáceres D. et al., “Nanoindentation on AlGaN thin films” (1999).
Göken M. et al., “Nanomechanical characterizations of metals and thin films” (1999).
Bradby J.E. et al., “Mechanical deformation of InP and GaAs by spherical indentation” (2001).
Nieh T.G. et al., “Strain rate-dependent deformation in bulk metallic glasses” (2002).
Wang W. et al., “Deformation behavior of Ni3Al single crystals during nanoindentation”(2003).
Liang H.Y. et al. “Dislocation nucleation in the initial stage during nanoindentation” (2003).
Schuh C.A. and Nieh T.G., “A survey of instrumented indentation studies on metallic glasses” (2004).
Basu S. et al., “On the determination of spherical nanoindentation stress–strain curves” (2006).
Soer W.A. et al., “Incipient plasticity in metallic thin films” (2007).
Shim S. et al., “A different type of indentation size effect” (2008).
Jian S.R. and Jang J.S.-C., “Berkovich nanoindentation on InP” (2009).
Morris J.R. et al., “Size Effects and Stochastic Behavior of Nanoindentation Pop In” (2011).
Stauffer D.D., “Deformation Mechanisms in Nanoscale Brittle Materials” PhD Thesis (2011).
Huang J. et al., “Nanoscale anisotropic plastic deformation in single crystal GaN” (2012).
Jian S.-R. et al., “Nanoindentation pop-in effects of Bi2Te3 thermoelectric thin films” (2012).
Lu J.-Y. et al., “Thermally activated pop-in and indentation size effects in GaN films” (2012).
Gan B. et al., “Nanoindentation and nano-compression testing of Ni3Al precipitates” (2012).
Pathak S. et al., “Understanding pop-ins in spherical nanoindentation” (2014).
Xia Y., “Investigation of deformation and failure mechanisms in nanoindentation mechanics” (2014).
Xiong K. and Gu J., “Understanding pop-in phenomena in FeNi3 nanoindentation” (2015).
Esterl R., “Cryogenic nanoindentation of single crystalline copper, chromium and tungsten.”, Marshall Plan Scholarship Research Report (2015).
Dislocation nucleation during compression of pillar¶
Uchic M.D. et al., “Plasticity of Micrometer-Scale Single Crystals in Compression” (2009).
Kraft O. et al., “Plasticity in Confined Dimensions” (2010).
Korte S. et al., “High temperature microcompression and nanoindentation in vacuum” (2012).
Maaß R. et al., “Independence of Slip Velocities on Applied Stress in Small Crystals” (2014).
Hagen A.B., “In-situ Compession Testing of Nanosized Pillars” Master thesis (2014).
Roa J.J. et al., “Deformation of polycrystalline TRIP stainless steel micropillars” (2015).
Crosby T. et al., “The origin of strain avalanches in sub-micron plasticity of fcc metals” (2015).
Rupture of a hard brittle film on an elastic-plastic substrate¶
Whitehead A.J. and Page T.F., “Nanoindentation studies of thin film coated systems” (1992).
Li X. et al., “Fracture mechanisms of thin amorphous carbon films in nanoindentation” (1997).
Bahr D.F. et al., “Indentation induced film fracture in hard film – soft substrate systems” (2003).
Morash K.R. and Bahr D.F., “Nanomechanical testing for fracture of oxide films.”, (2005).
Morash K.R., “Nanoindentation induced thin film fracture” PhD Thesis (2005).
Stauffer D.D., “Deformation Mechanisms in Nanoscale Brittle Materials” PhD Thesis (2011).
Cracks formation / Fracture¶
Lawn B.R. and Fuller E.R. Jr, “Equilibrium penny-like crack in indentation fracture” (1975).
Field J.S. et al., “Nano-indentation fracture of fused silica and glassy carbon with a corner cube and 45°” (2001).
Scholz T. et al., “Fracture toughness from submicron derived indentation cracks” (2004).
Wilantewicz T., “Crack initiation behavior ofoptical glasses from Vickers indentation” PhD thesis (2005).
Phase transformation¶
Strain transfer across grain boundaries¶
Soer W.A, “Interactions between dislocations and grain boundaries” PhD thesis (2006).
Britton T.B. et al., “Nanoindentation study of slip transfer phenomenon at grain boundaries” (2011).
Mercier D. et al. “A Matlab toolbox to analyze slip transfer through grain boundaries” (2015).
Amorphization / Densification¶
Statistics and mathematical analysis of pop-in¶
Mann A.B. et al., “Nanoindentation of Epitaxial Films: A Study of Pop-in Events” (1994).
Morris J.R. et al., “Size Effects and Stochastic Behavior of Nanoindentation Pop In” (2011).
Lu J.-Y. et al. “Thermally activated pop-in and indentation size effects in GaN films” (2012).
Esterl R., “Cryogenic nanoindentation of single crystalline copper, chromium and tungsten.”, Marshall Plan Scholarship Research Report (2015).