Determination of linear and nonlinear mechanical properties of diamond by laser-based surface acoustic waves

Diamond and Related Materials

Volumn 18, Issue 2-3, 2009, Pages 186-190

  Hess, Peter ^a  

^a UNIVERSITY OF HEIDELBERG   (Germany)

Author keywords

Fracture strength; Nano , micro , and single crystalline diamond; Surface acoustic waves; Young's modulus

Indexed keywords

ACOUSTIC SURFACE WAVE DEVICES; ACOUSTIC WAVES; ACOUSTICS; ACOUSTOELECTRIC EFFECTS; CRYSTALLINE MATERIALS; DIAMOND CUTTING TOOLS; DIAMONDS; ELASTIC MODULI; ELASTIC WAVES; ELASTICITY; FRACTURE; GRAIN BOUNDARIES; GRAIN SIZE AND SHAPE; LASER EXCITATION; MECHANICAL PROPERTIES; PULSED LASER APPLICATIONS; SHEAR STRENGTH; SURFACES;

BROADBAND PULSE; CRITICAL STRESS; DIAMOND MATERIALS; FRACTURE PROCESS; FRACTURE STRENGTH; HIGH-QUALITY FILMS; MICROCRYSTALLINE DIAMOND FILMS; NANO-, MICRO-, AND SINGLE-CRYSTALLINE DIAMOND; NARROW BANDS; NONLINEAR MECHANICAL PROPERTIES; ORDERS OF MAGNITUDES; POLY-CRYSTALLINE DIAMONDS; SINGLE-CRYSTAL DIAMONDS; SINGLE-CRYSTAL SILICONS; STRONGLY NONLINEAR; SURFACE ACOUSTIC WAVES; YOUNG'S MODULUS;

DIAMOND FILMS;

EID: 59649129750     PISSN: 09259635     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.diamond.2008.10.005     Document Type: Article

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