Rheology Control of Colloidal Suspensions and New Fluid Devices Using Electrosensitive Liquids
スポンサーリンク
概要
- 論文の詳細を見る
Composite particles consisting of polymer core and inorganic shell are formed by suspension polymerization. The ER behavior of suspensions is studied in relation to column structures in electric fields. It is demonstrated that the surface modification of particles is very useful to improve the ER performance of suspensions. The highly anisotropic structures are induced in electric fields and hence the ER suspensions show striking electrooptical effects. On the application of high electric fields to some insulating oils, a fluid jet with a velocity of about 1 ms−1 is generated from the electrode. New fluid devices such as liquid motors, inkjet nozzles, and ER elements are developed by active control of jetflow. Their performance will be discussed in relation to the rheological properties of electrosensitive liquids for future device technology.
- 一般社団法人 日本レオロジー学会の論文
著者
関連論文
- ポリエチレングルコール分散系のエレクトロレオロジー
- Effect of Surfactant on the Bridging Conformation of Associating Polymer and Suspension Rheology
- Improvement of Preparation Method of UV-protecting Suspensions by the Use of Rheological Techniques
- Rheology and Firing Properties of Phosphor Pastes for CRT Displays
- A Fluid Control Valve Based on the Viscosity Increase Effects of Dielectric Fluids Caused by Electrodes Planted with Hair-Like Short Fibers : Proposition of a Fiber Planted ER Valve
- A Micro Motor Using Electroconjugate Fluids (ECFs) : Proposition of Stator Electrode Type (SE-type) Micro ECF Motors
- Rheological Behavior during Phase Separation Induced by UV Curing
- Rheology Control of Colloidal Suspensions and New Fluid Devices Using Electrosensitive Liquids
- Effect to Surfactant on the Bridging Conformation of Associating Polymer and Suspension Rheology
- Rheology Control of Colloidal Suspensions and New Fluid Devices Using Electrosensitive Liquids
- Rheology and Firing Properties of Phosphor Pastes for CRT Displays
- ポリエチレングルコール分散系のエレクトロレオロジー