An Introduction To High Pressure Rheology

An Introduction To High Pressure Rheology High pressure rheology explores phenomena that are not accessible at ambient laboratory conditions. Three of the advantages of using a pressure rheometer cell include a controlled environment for volatile fluids, saturating fluids with soluble constituents, and exploring new phase space using a combination of temperature and pressure.

Randy H. Ewoldt: Experimental Challenges of Shear Rheology, How to Avoid Bad Data

Randy H. Ewoldt: Experimental Challenges of Shear Rheology, How to Avoid Bad Data How do you know when to trust your rheology data? How do you avoid bad data? Is there a checklist? Can you co-plot quantitative experimental boundaries against measured data? This presentation will discuss techniques for identifying and minimizing experimental errors and for…

Norman J. Wagner: An Introduction to Colloidal Suspension Rheology

Norman J. Wagner: An Introduction to Colloidal Suspension Rheology 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…

An Introduction to Tribo-Rheometry: Quantifying Friction

마찰 연구는 유변학을 보완하여 유변학의 벌크 유체 측정에 통찰력을 더하는 고체-고체 상호 반응 정보를 제공합니다. 마찰 연구는 특히 건조 또는 윤활된 조건에서 미끄러지는 속도와 하중의 함수로 마찰 계수의 정량화하는 데 중요합니다. 이를 통해 윤활, 마모, 감촉, 구강 촉감에 대한 유용한 정보를 얻을 수 있습니다.