Direct quantification of the mechanical anisotropy and fracture of an individual exoskeleton layer via uniaxial compression of micropillars

Nano Letters

Volumn 11, Issue 9, 2011, Pages 3868-3874

  Han, Lin ^a   Wang, Lifeng ^a   Song, Juha ^a   Boyce, Mary C ^a   Ortiz, Christine ^a  

^a MASSACHUSETTS INSTITUTE OF TECHNOLOGY   (United States)

Author keywords

biological exoskeleton; energy dissipation; Mechanical anisotropy; natural armor; threat protection; uniaxial microcompression

Indexed keywords

BIOLOGICAL EXOSKELETON; CATASTROPHIC FAILURES; COMMON FEATURES; DAMAGE LOCALIZATION; ELASTIC-PLASTIC; FINITE ELEMENT MODELS; LONG AXIS; MATERIAL LAYERS; MECHANICAL ANISOTROPY; MICRO-PILLARS; MICROCOMPRESSION; NANOSTRUCTURAL; OUTER LAYER; PLASTIC ANISOTROPY; STRAIN CURVES; STRUCTURAL ANISOTROPY; THREAT PROTECTION; UNI-AXIAL COMPRESSION;

ANISOTROPY; APATITE; DAMAGE DETECTION; ENERGY DISSIPATION; FINITE ELEMENT METHOD; HYDROXYAPATITE; STRAIN HARDENING; THREE DIMENSIONAL; YIELD STRESS;

FRACTURE;

ANIMAL; ANISOTROPY; ARTICLE; BONE; ELASTICITY; FISH; FRACTURE; MECHANICAL STRESS; METHODOLOGY; NANOTECHNOLOGY; PATHOLOGY; SKELETON; THREE DIMENSIONAL IMAGING;

ANIMALS; ANISOTROPY; BONE AND BONES; ELASTICITY; FISHES; FRACTURES, BONE; IMAGING, THREE-DIMENSIONAL; NANOTECHNOLOGY; SKELETON; STRESS, MECHANICAL;

EID: 80052800184     PISSN: 15306984     EISSN: 15306992     Source Type: Journal    
DOI: 10.1021/nl201968u     Document Type: Article

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