Extensional Rheology in Polymer Processing Extensional flows dominate many polymer processes, including blow molding, film blowing, fiber spinning, thermoforming and many others. The rheology of polymeric materials under extensional flows can differ significantly from shear flows and it is important to understand this in order to optimize both materials and processes. In this webinar, we…
An Introduction to Tribo-Rheometry: Quantifying Friction Tribology complements rheology, providing information on solid-solid interactions that adds insight to the bulk fluid measurements of rheology. Tribology is especially concerned with quantifying the coefficient of friction as a function of sliding speed and load force, under dry or lubricated conditions. This provides useful information about lubrication, wear,…
Rheo-Microscopy: Bridging Rheology, Microstructure & Dynamics The combination of optical microscopy with rheological tests enables direct observation of material structure under shear deformation. This provides critical information that can help understand, predict, and tune the material response under processing, storage, or end-use conditions.
Morphology Of Complex Nanoparticle Mixtures The performance of new materials and devices depend heavily on morphological considerations: degree of crystallinity, conformation of amorphous species, and relative organization of one species with respect to another, characteristics which can be determined by thermal analysis. These considerations are important for functional materials such as photovoltaics and MEMS devices,…
Extensional Rheology & Analytics of Material Characterization OVERVIEW Extensional flows are important to converging and squeezing flows that occur in polymer processing operations such as injection molding, extrusion, blow molding, film blowing and calendering. Uniaxial extensional flow measurement is particularly useful in polymer characterization because it is the ‘strongest’ flow field one can generate with…
Practical Aspects of Kinetics Determination by Thermal Analysis This presentation describes how DSC and TGA are used to obtain kinetic parameters and the relative merits of each approach. Guidelines will be given for the selection of the best approach and insight will be shared regarding the common uses of kinetic parameters specifically for hazard evaluation…
An Introduction to Lifetime Testing by Thermogravimetry Lifetime testing by thermogravimetry (TGA) is a well-established, powerful technique for predicting the long-term aging characteristics of a material in a short experimental time. Multiple techniques and models are presented and compared for lifetime testing, including Modulated TGA™, and a survey of the current ASTM methods and the…
Uses of Isothermal Microcalorimetry in Urology In this TA Instruments sponsored webinar, Dr. Olivier Braissant discusses the process of detecting and monitoring biological processes with isothermal calorimetry. This has been shown to be an accurate analytical technique and is proportional to the rate at which a given chemical or physical process takes place.
Plasma Protein Calorimetry For Clinical Diagnostics In this TA Instruments sponsored webinar, Dr. Nichola Garbett discusses the emerging technique of using high sensitivity DSC analysis of blood plasma for plasma proteome research, and as a clinical diagnostic tool.
Measuring Thermodynamic Parameters in the Drug Development Process Is there a benefit to measuring thermodynamic parameters in the drug development process? In this TA Instruments Webinar, Dr. John E. Ladbury discusses Thermodynamic Parameterization of protein-ligand interaction, not only provides quantification of the affinity of an interaction, but also the underlying changes in enthalpy and entropy.…
