Applied Mathematics

Applied Mathematics

ISSN Print: 2152-7385
ISSN Online: 2152-7393
www.scirp.org/journal/am
E-mail: am@scirp.org
"Mathematical Modeling of Hydrogels Swelling Based on the Finite Element Method"
written by Armando Blanco, Gema González, Euro Casanova, María E. Pirela, Alexander Briceño,
published by Applied Mathematics, Vol.4 No.8A, 2013
has been cited by the following article(s):
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[1] The Impacts of Bio-Based and Synthetic Hydrogels on Soil Hydraulic Properties: A Review
Polymers, 2022
[2] Lattice Boltzmann method simulations of swelling of cuboid-shaped IPN hydrogel tablets with experimental validation
Heat and Mass …, 2022
[3] Analytical Solution for Controlled Drug Release with Time-Dependent Diffusion Parameter
Mathematics, 2022
[4] Numerical modeling of hydrogels: from microscopic network to macroscopic material
The Mechanics of Hydrogels, 2022
[5] The Impacts of Bio-Based and Synthetic Hydrogels on Soil Hydraulic Properties: A Review. Polymers 2022, 14, 4721
2022
[6] 1Wolfson School of Mechanical, Electrical and Manufacturing Engineering, Loughborough University, Leicester, United Kingdom; 2Research Centre for Medical …
The Mechanics of …, 2022
[7] Mathematical Model for Estimating Parameters of Swelling Drug Delivery Devices in a Two-Phase Release
2020
[8] Swelling Behavior of IPN and Copolymer Hydrogels by Lattice Boltzmann Method
2020
[9] Lattice Boltzmann simulation of swelling of an implant for microtia manufactured with IPN hydrogel
2020
[10] Design and Preparation of New Multifunctional Hydrogels Based on Chitosan/Acrylic Polymers for Drug Delivery and Wound Dressing Applications
2020
[11] Transient swelling behaviour of dual stimuli sensitive nanocomposite hydrogels
2020
[12] Drug release kinetics of pH‐responsive microgels of different glass‐transition temperatures
2019
[13] Theoretical and experimental studies on theophylline release from hydrophilic alginate nanoparticles
2019
[14] Lattice Boltzmann simulation of swelling behavior of cylindrical IPN hydrogel tablets
2019
[15] Chemical imaging of protein hydrogels undergoing alkaline dissolution by CARS microscopy
Food Chemistry, 2018
[16] Development and In vitro Anticancer Evaluation of Self‐Assembled Supramolecular pH Responsive Hydrogels of Carboxymethyl Chitosan and Polyoxometalate
ChemistrySelect, 2018
[17] Experimental determination and modelling of the swelling speed of a hydrogel polymer
Materials Research Express, 2018
[18] Swelling and Disintegration of Multi-Component Polymeric Structures
2018
[19] Carboxymethylpsyllium (CMPsy)/poly (acrylamide)(poly (AAm)) hydrogels for oral delivery of anti-diabetic drug Gliclazide
Chemistry and Ecology, 2017
[20] Spatial quantification of hydrogels swelling using wide-field fluorescence microscopy
Chemical Engineering Science, 2017
[21] A green approach to prepare Ag NPs loaded IC/PVA polymeric film for antimicrobial applications
International Journal of Science Education, 2017
[22] Dynamic Finite Element Modelling of a Hydrogel-Based Micro-Valve With 2-Way Fluid Structure Interactions
2017
[23] Modeling the closing behavior of a smart hydrogel micro-valve
Journal of Intelligent Material Systems and Structures, 2017
[24] OBTENCIÓN Y CARACTERIZACIÓN DE PROTOTIPO DE IMPLANTE PARA MICROTIA USANDO HIDROGEL INTERPENETRADO
2017
[25] Curcumin/cellulose micro crystals/chitosan films: Water absorption behavior and in vitro cytotoxicity
International journal of biological macromolecules, 2015
[26] Superabsorbent hydrogels based on polysaccharides for application in agriculture as soil conditioner and nutrient carrier: A review
European Polymer Journal, 2015
[27] Numerical simulation of capillary deformation of a body implantable device
Biomedical Engineering Letters, 2015
[28] Combined Simulation of the Closing Behavior of a Smart Hydrogel Micro-Valve
ASME 2015 Conference on Smart Materials, Adaptive Structures and Intelligent Systems, 2015
[29] ACERCA DE LA PRECISIÓN EN LA DETERMINACIÓN DE LAS CONSTANTES DE DIFUSIÓN EN HIDROGELES MEDIANTE SIMULACIÓN NUMÉRICA/ON THE ACCURACY IN THE DETERMINATION OF DIFFUSIVITY CONSTANTS IN HYDROGELS BY NUMERICAL SIMULATION
Revista de la Facultad de Ingeniería Universidad Central de Venezuela, 2015
[30] ACERCA DE LA PRECISIÓN EN LA DETERMINACIÓN DE LAS CONSTANTES DE DIFUSIÓN EN HIDROGELES MEDIANTE SIMULACIÓN NUMÉRICA/ …
2015
[31] Acerca de la precisión en la determinación de las constantes de difusión en hidrogeles mediante simulación numérica
Revista de la Facultad de Ingeniería Universidad Central de Venezuela, 2014
[32] On the accuracy in the determination of diffusivity constants in hydrogels by numerical simulation
Revista de la Facultad …, 2014
[33] Formulación y caracterización de la cinética de hinchamiento de hidrogeles de gelatina con inulina y fructooligosacáridos
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