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Volumn 50, Issue 1, 2010, Pages 158-166
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Numerical study on dynamic characteristics of micromachined ionic polymer metal composite devices based on molecular-scale modeling
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Author keywords
IPMC; Micromachining; Modeling; Nafion
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Indexed keywords
ACTUATION TIME;
CATION CONCENTRATIONS;
CHARGE TRANSPORT;
CHEMO-MECHANICAL MODEL;
CONCENTRATION GRADIENTS;
CONSTITUTIVE RELATIONS;
COULOMB'S LAW;
DRIVING WAVEFORMS;
DYNAMIC CHARACTERISTICS;
DYNAMIC PROPERTY;
GOOD CORRELATIONS;
IN-PLANE STRESS;
INDUCED STRESS;
IONIC POLYMER METAL COMPOSITES;
IPMC;
MASS CONSERVATION;
MICROMACHINED;
MODELING;
MOLECULAR SCALE;
NAFION;
NEWTON'S SECOND LAW;
NUMERICAL STUDIES;
ON DYNAMICS;
OPERATING FREQUENCY;
SCALE MODELING;
STOKES' LAW;
TIME-DEPENDENT;
VOLTAGE AMPLITUDE;
COMPOSITE MICROMECHANICS;
MICROMACHINING;
NUMERICAL ANALYSIS;
ORGANIC CONDUCTORS;
POSITIVE IONS;
CONCENTRATION (PROCESS);
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EID: 77957953187
PISSN: 09270256
EISSN: None
Source Type: Journal
DOI: 10.1016/j.commatsci.2010.07.020 Document Type: Article |
Times cited : (14)
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References (18)
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