Interfacial rheology studies the response of the interfacial layer to the external stimuli at air-liquid or liquid-liquid interfaces.
Interfacial shear rheology at the gas-liquid or liquid-liquid interface is relevant in a wide range of applications where foams and emulsions are used.
Contact angle measurements offer a fast and sensitive way to evaluate the effectiveness of different cleaning processes.
With all the approaches successful CO2 storage is mainly related to fluid-fluid and fluid-rock interfacial interactions.
Calendering, a common compaction process for Li-ion batteries, will significantly impact the pore structure and thus also the wettability of the electrode.
Interfacial rheology is a special branch of rheology that involves studying the unique two-dimensional systems formed at interfaces.
The wettability of different parts of Li-ion batteries is a key issue in terms of manufacturing, performance, and safety of the batteries.
For the mechanical performance of the composite, the adhesion between fiber and the matrix is of utmost importance.
Hydrophobic coatings are used in many consumers products. Contact angle measurements can be used to study them.