William Toh scite author profile

Hydrogels possess magnificent properties which may be harnessed for novel applications. However, this is not achievable if the mechanical behaviors of hydrogels are not well understood. This paper aims to provide the reader with a bird's eye view of the mechanics of hydrogels, in particular the theories associated with deformation of hydrogels, the phenomena that are commonly observed, and recent developments in applications of hydrogels. Besides theoretical analyses and experimental observations, another feature of this paper is to provide an overview of how mechanics can be applied.

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A review on low dimensional carbon desalination and gas separation membrane designs

Ang

Toh

Yeo

et al. 2020

Journal of Membrane Science

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Mechanics of inhomogeneous large deformation of photo-thermal sensitive hydrogels

Toh

et al. 2014

International Journal of Solids and Structures

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a b s t r a c tA polymer network can imbibe copious amounts of solvent and swell, the resulting state is known as a gel. Depending on its constituents, a gel is able to deform under the influence of various external stimuli, such as temperature, pH-value and light. In this work, we investigate the photo-thermal mechanics of deformation of temperature sensitive hydrogels impregnated with light-absorbing nano-particles. The field theory of photo-thermal sensitive gels is developed by incorporating effects of photochemical heating into the thermodynamic theory of neutral and temperature sensitive hydrogels. This is achieved by considering the equilibrium thermodynamics of a swelling gel through a variational approach. The phase transition phenomenon of these gels, and the factors affecting their deformations, are studied. To facilitate the simulation of large inhomogeneous deformations subjected to geometrical constraints, a finite element model is developed using a user-defined subroutine in ABAQUS, and by modeling the gel as a hyperelastic material. This numerical approach is validated through case studies involving gels undergoing phase coexistence and buckling when exposed to irradiation of varying intensities, and as a microvalve in microfluidic application.

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Inhomogeneous Large Deformation Kinetics of Polymeric Gels

Toh

Liu

et al. 2013

Int. J. Appl. Mechanics

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This work examines the dynamics of nonlinear large deformation of polymeric gels, and the kinetics of gel deformation is carried out through the coupling of existing hyperelastic theory for gels with kinetic laws for diffusion of small molecules. As finite element (FE) models for the transient swelling process is not available in commercial FE software, we develop a customized FE model/methodology which can be used to simulate the transient swelling process of hydrogels. The method is based on the similarity between diffusion and heat transfer laws by determining the equivalent thermal properties for gel kinetics. Several numerical examples are investigated to explore the capabilities of the present FE model, namely: a cube to study free swelling; one-dimensional constrained swelling; a rectangular block fixed to a rigid substrate to study swelling under external constraints; and a thin annulus fixed at the inner core to study buckling phenomena. The simulation results for the constrained block and one-dimensional constrained swelling are compared with available experimental data, and these comparisons show a good degree of similarity. In addition to this work providing a valuable tool to researchers for the study of gel kinetic deformation in the various applications of soft matter, we also hope to inspire works to adopt this simplified approach, in particular to kinetic studies of diffusion-driven mechanisms.

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Additively manufactured continuous carbon fiber-reinforced thermoplastic for topology optimized unmanned aerial vehicle structures

Goh

Toh

Yap

et al. 2021

Composites Part B: Engineering

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Evaluation of structural epoxy and cyanoacrylate adhesives on jointed 3D printed polymeric materials

Yap

Toh

Koneru

et al. 2020

International Journal of Adhesion and Adhesives

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A simplified coupled thermo-mechanical model for the transient analysis of temperature-sensitive hydrogels

Ding

Toh

et al. 2016

Mechanics of Materials

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William Toh

Spectrum Survey in Singapore: Occupancy Measurements and Analyses

Advances in Mechanics of Soft Materials: A Review of Large Deformation Behavior of Hydrogels

A review on low dimensional carbon desalination and gas separation membrane designs

Mechanics of inhomogeneous large deformation of photo-thermal sensitive hydrogels

Inhomogeneous Large Deformation Kinetics of Polymeric Gels

Additively manufactured continuous carbon fiber-reinforced thermoplastic for topology optimized unmanned aerial vehicle structures

Evaluation of structural epoxy and cyanoacrylate adhesives on jointed 3D printed polymeric materials

A simplified coupled thermo-mechanical model for the transient analysis of temperature-sensitive hydrogels

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