Coupled chemo-electro-mechanical simulation for smart hydrogels that are responsive to an external electric field
By reformulating the fixed charge density with finite deformation, a previously developed model for pH-sensitive hydrogels is further refined in this paper to simulate electric-sensitive hydrogels when immersed in a bath solution subject to an externally applied electric field; it is termed the refi...
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| Published in | Smart materials and structures Vol. 16; no. 4; pp. 1185 - 1191 |
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| Main Authors | , , |
| Format | Journal Article |
| Language | English |
| Published |
Bristol
IOP Publishing
01.08.2007
Institute of Physics |
| Subjects | |
| Online Access | Get full text |
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| Abstract | By reformulating the fixed charge density with finite deformation, a previously developed model for pH-sensitive hydrogels is further refined in this paper to simulate electric-sensitive hydrogels when immersed in a bath solution subject to an externally applied electric field; it is termed the refined multi-effect-coupling electric-stimulus (rMECe) model. This model consists of coupled nonlinear partial differential governing equations with the effects of chemo-electro-mechanical multi-energy domains. The reformulated fixed charge density incorporates the effect of the applied voltage. The rMECe model is validated by numerical comparison of the simulation results with those of published experiments. One-dimensional steady-state simulations are carried out for the equilibrium behavior of an electric-sensitive hydrogel strip. Then detailed discussions are given of the influence of the externally applied voltage on the responses of the hydrogel strip. |
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| AbstractList | By reformulating the fixed charge density with finite deformation, a previously developed model for pH-sensitive hydrogels is further refined in this paper to simulate electric-sensitive hydrogels when immersed in a bath solution subject to an externally applied electric field; it is termed the refined multi-effect-coupling electric-stimulus (rMECe) model. This model consists of coupled nonlinear partial differential governing equations with the effects of chemo-electro-mechanical multi-energy domains. The reformulated fixed charge density incorporates the effect of the applied voltage. The rMECe model is validated by numerical comparison of the simulation results with those of published experiments. One-dimensional steady-state simulations are carried out for the equilibrium behavior of an electric-sensitive hydrogel strip. Then detailed discussions are given of the influence of the externally applied voltage on the responses of the hydrogel strip. |
| Author | Luo, Rongmo Li, Hua Lam, K Y |
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| CitedBy_id | crossref_primary_10_1038_srep39402 crossref_primary_10_1142_S1758825118500473 crossref_primary_10_1142_S1758825115300011 crossref_primary_10_1016_j_bios_2009_05_030 crossref_primary_10_1088_0964_1726_24_3_035021 crossref_primary_10_1016_j_actbio_2022_01_017 crossref_primary_10_3390_bioengineering10080920 crossref_primary_10_1007_s10237_022_01590_5 |
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| Keywords | Charge density External fields pH metering High strain Non linear model Differential equations Chemical reactions Modelling Hydrogel Steady state Intelligent system |
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| Title | Coupled chemo-electro-mechanical simulation for smart hydrogels that are responsive to an external electric field |
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