The preparation of colloidal dispersions of copper

Kane, Eugene Joseph

01 January 1934

No description available.

Colloids

Copper

Aggregation and stabilization of organic hydrosols /

Schroeder, Paul Robert

January 1983

No description available.

Engineering

Colloids

Exploring the feasibility of the electrodeless colloid thrustor /

Hunter, Robert Elwood

January 1965

No description available.

Engineering

Colloids

Electrokinetic movement of suspended colloids in a flowing medium /

Hiler, Edward A.

January 1966

No description available.

Engineering

Colloids

Particle orientations in sheared suspensions.

Anczurowski, Edward

January 1966

No description available.

Colloids

Rheology

The characterization and manipulation of the internal pore structure of tetramethoxysilane sol-gels and polymer hybrid gels

Higginbotham, Catrena Pearl

12 1900

No description available.

Colloids

Polymer colloids

Surface chemistry

Emulsion droplets of controlled deformability :

Barnes, Timothy J

Unknown Date

This study has highlighted the role of emulsion droplet cross-linking (deformability and penetrability) on droplet surface chemistry, droplet colloidal stability and adsorption at the droplet-water interface and provides insight into methods for enhancing the performance of emulsion formulations. / Thesis (PhD)--University of South Australia, 2003.

Adsorption

Colloids

Emulsions

Polymer colloids

Emulsion droplets of controlled deformability: electrokinetics, colloid stability and polymer adsorption

Barnes, Timothy J

January 2003

This study has highlighted the role of emulsion droplet cross-linking (deformability and penetrability) on droplet surface chemistry, droplet colloidal stability and adsorption at the droplet-water interface and provides insight into methods for enhancing the performance of emulsion formulations.

Adsorption

Colloids

Emulsions

Polymer colloids

Emulsion droplets of controlled deformability :

Barnes, Timothy J

Unknown Date

This study has highlighted the role of emulsion droplet cross-linking (deformability and penetrability) on droplet surface chemistry, droplet colloidal stability and adsorption at the droplet-water interface and provides insight into methods for enhancing the performance of emulsion formulations. / Thesis (PhD)--University of South Australia, 2003.

Adsorption

Colloids

Emulsions

Polymer colloids

Modeling of an electroactive polymer hydrogel for optical applications

Paxton, Robert Alan

Unknown Date

In this work a finite element model is proposed to describe the swelling of poly(acrylic acid) hydrogels under the influence of an external electric field. The specific application of this model is for optical applications, but the design could be used equally well for other applications such as sensors and actuators.The model is proposed as five individual modules, which work in conjunction with each other but which can also function independently. This independence allows the model to provide intermediate results to the user, and also permits each module to be improved or adjusted individually without affecting the operation of the overall model. The first module is the Electrical module, which calculates the external electric field present in the hydrogel by solving Laplace's equation. The second module is the Chemical module, which uses the electric field to calculate the diffusion and migration of ions through the hydrogel/solvent regions. The third module is the Force module, which uses the change in ion concentrations to calculate the resulting change in osmotic pressure (force). This force is then used in the Mechanical module to calculate the deformation of the hydrogel, based on the assumption of linear elasticity. Finally, the fifth module is the Optical module, which uses the deformation to calculate the theoretical change in focal length.To verify the operation of the model, numerous experiments were conducted with the deformation of a poly(acrylic acid) hydrogel being measured under various external voltages with different electrode configurations. Overall, the model agrees quite well with the experimental results, but also highlights some interesting discrepancies that will need to be considered in future work. There is also some scope for improvement in the experimental method used, but again this is left for future work.

Polymers

Polymer colloids

Ophthalmic lenses

Colloids

Engineering