Improvement of NiTi shape memory actuator performance through ultra-fine grained and nanocrystalline microstructures

Advanced Engineering Materials

Volumn 13, Issue 4, 2011, Pages 256-268

  Frenzel, Jan ^a   Burow, Juri A ^a   Payton, Eric J ^a   Rezanka, Stefan ^a   Eggeler, Gunther ^a  

^a RUHR UNIVERSITY BOCHUM   (Germany)

Author keywords

[No Author keywords available]

Indexed keywords

ANNEALING TEMPERATURES; AUSTENITE GRAIN SIZE; DISLOCATION PLASTICITY; DRIVING FORCES; ELEMENTARY PROCESS; ENGINEERING MATERIALS; FINE GRAINS; FUNCTIONAL PROPERTIES; GRAIN SIZE; GRAIN SIZE REFINEMENT; IRREVERSIBLE EFFECTS; MARTENSITE TRANSFORMATION TEMPERATURE; MARTENSITIC PHASE TRANSFORMATIONS; MEDICAL DEVICES; NANOCRYSTALLINE GRAIN SIZE; NANOCRYSTALLINE MICROSTRUCTURES; NUCLEATION BARRIER; PARTIAL TRANSFORMATION; PSEUDOELASTIC; ROOM TEMPERATURE; SHAPE MEMORY ACTUATORS; SHAPE MEMORY ALLOY; SHAPE-MEMORY MATERIALS; SPRING ACTUATORS; THERMOMECHANICAL CYCLING; TRANSFORMATION STRAIN; ULTRA-FINE GRAIN SIZE; ULTRAFINE GRAINED MICROSTRUCTURES; ULTRAFINE-GRAINED;

ACTUATORS; ANNEALING; AUSTENITE; BIOMEDICAL ENGINEERING; FUNCTIONAL POLYMERS; MARTENSITE; MARTENSITIC TRANSFORMATIONS; MATERIALS PROPERTIES; MECHANICAL PROPERTIES; MICROSTRUCTURAL EVOLUTION; NANOCRYSTALLINE MATERIALS; SHAPE MEMORY EFFECT; SPRINGS (COMPONENTS); WIRE; WIRE DRAWING;

GRAIN SIZE AND SHAPE;

EID: 79953211543     PISSN: 14381656     EISSN: 15272648     Source Type: Journal    
DOI: 10.1002/adem.201000285     Document Type: Article

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