Norman J. Wagner:
膠態懸浮液流變學簡介
在眾多自然現象以及工業相關產品和製程中會遇到膠態懸浮液。從塗料和墨水,到食品和藥物,分散體、溶膠、凝膠和膠態顆粒的玻璃表現出豐富的流變行為。本網路研討會將介紹這種豐富的流變學,以及其在布朗運動、表面力和流體動力學相互作用中的微觀起源。將著重介紹流動、微觀結構和力學回應之間的關係,以及配製和研究膠態分散體的策略。
在眾多自然現象以及工業相關產品和製程中會遇到膠態懸浮液。從塗料和墨水,到食品和藥物,分散體、溶膠、凝膠和膠態顆粒的玻璃表現出豐富的流變行為。本網路研討會將介紹這種豐富的流變學,以及其在布朗運動、表面力和流體動力學相互作用中的微觀起源。將著重介紹流動、微觀結構和力學回應之間的關係,以及配製和研究膠態分散體的策略。
Colloidal suspensions are encountered across a broad range of natural phenomena and industrially relevant products and processes. From coatings and inks, to foods and pharmaceuticals, dispersions, sols, gels, and glasses of colloidal particles exhibit a rich rheological behavior. This webinar will present an introductory overview of this rich rheology and its microscopic origins in Brownian motion, surface forces, and hydrodynamic interactions. Relationships between flow, microstructure, and the mechanical response, as well as strategies for formulating and studying colloidal dispersions will be highlighted.
Colloidal suspensions are encountered across a broad range of natural phenomena and industrially relevant products and processes. From coatings and inks, to foods and pharmaceuticals, dispersions, sols, gels, and glasses of colloidal particles exhibit a rich rheological behavior. This webinar will present an introductory overview of this rich rheology and its microscopic origins in Brownian motion, surface forces, and hydrodynamic interactions. Relationships between flow, microstructure, and the mechanical response, as well as strategies for formulating and studying colloidal dispersions will be highlighted.
Colloidal suspensions are encountered across a broad range of natural phenomena and industrially relevant products and processes. From coatings and inks, to foods and pharmaceuticals, dispersions, sols, gels, and glasses of colloidal particles exhibit a rich rheological behavior. This webinar will present an introductory overview of this rich rheology and its microscopic origins in Brownian motion, surface forces, and hydrodynamic interactions. Relationships between flow, microstructure, and the mechanical response, as well as strategies for formulating and studying colloidal dispersions will be highlighted.
Colloidal suspensions are encountered across a broad range of natural phenomena and industrially relevant products and processes. From coatings and inks, to foods and pharmaceuticals, dispersions, sols, gels, and glasses of colloidal particles exhibit a rich rheological behavior. This webinar will present an introductory overview of this rich rheology and its microscopic origins in Brownian motion, surface forces, and hydrodynamic interactions. Relationships between flow, microstructure, and the mechanical response, as well as strategies for formulating and studying colloidal dispersions will be highlighted.
Colloidal suspensions are encountered across a broad range of natural phenomena and industrially relevant products and processes. From coatings and inks, to foods and pharmaceuticals, dispersions, sols, gels, and glasses of colloidal particles exhibit a rich rheological behavior. This webinar will present an introductory overview of this rich rheology and its microscopic origins in Brownian motion, surface forces, and hydrodynamic interactions. Relationships between flow, microstructure, and the mechanical response, as well as strategies for formulating and studying colloidal dispersions will be highlighted.
Colloidal suspensions are encountered across a broad range of natural phenomena and industrially relevant products and processes. From coatings and inks, to foods and pharmaceuticals, dispersions, sols, gels, and glasses of colloidal particles exhibit a rich rheological behavior. This webinar will present an introductory overview of this rich rheology and its microscopic origins in Brownian motion, surface forces, and hydrodynamic interactions. Relationships between flow, microstructure, and the mechanical response, as well as strategies for formulating and studying colloidal dispersions will be highlighted.
Colloidal suspensions are encountered across a broad range of natural phenomena and industrially relevant products and processes. From coatings and inks, to foods and pharmaceuticals, dispersions, sols, gels, and glasses of colloidal particles exhibit a rich rheological behavior. This webinar will present an introductory overview of this rich rheology and its microscopic origins in Brownian motion, surface forces, and hydrodynamic interactions. Relationships between flow, microstructure, and the mechanical response, as well as strategies for formulating and studying colloidal dispersions will be highlighted.