Enhance Battery Safety by Evaluating Your Battery Materials’ Thermal Stability
The Discovery Core Rheometer delivers streamlined, walk-up usability for reliable rheology data for users of all experience levels.
The Discovery Core Rheometer delivers streamlined, walk-up usability for reliable rheology data for users of all experience levels.
Der perfekte Einstieg in die Welt der Rheologie
Das Discovery Core Rheometer zeichnet sich durch optimierte Benutzerfreundlichkeit aus und macht es Einsteigern und erfahrenen Anwendern gleichermaßen leicht, zuverlässige Rheologiedaten zu erhalten.
Summary Electrode manufacturing for lithium-ion batteries is a complex, multistep process that requires comprehensive material characterization to ensure quality and consistency in the final electrodes. Electrode processing involves combining active materials with binders and conductive additives to form a coating on the current collector, either as a slurry or dry coating. The mixing and coating…
This webinar will cover the essential material characterization techniques that today’s labs need to adopt to develop the batteries of tomorrow.
Überblick Rheologie behandelt das Fließverhalten von Materialien. Durch die Auswahl geeigneter Messmethoden können die Auswirkungen von Einflüssen wie Verformungsgeschwindigkeit, Zeit und Temperatur auf die mechanischen Eigenschaften komplexer Proben ermittelt werden. In diesem Webinar möchten wir Ihnen einen Einblick in die Grundlagen dieses spannenden Wissenschaftsfeldes geben.
Overview Trends in tire development and manufacturing have shifted to high performance rubbers that not only offer better durability but higher performance and lower fuel consumption. Silica, as a filler material, is now replacing conventionally used carbon black due to its unique set of properties. This webinar will illustrate how High Force Dynamic Mechanical Analysis…
Overview Maintaining the optimum viscosity of a molten material is key for efficiency and product quality of many industrial processes. Processing of melts at high temperatures is the basis for classical or additive manufacturing of many materials like glasses or metals. Molten slag or ash viscosity is essential for economically operating industrial gasification processes…
Overview In order to meet growing market demands for power storage, Lithium ion and new battery chemistries demand higher energy density, longer cycle life, calendar life, and better safety to a lower cost. Isothermal microcalorimetry is a highly sensitive, non-destructive and non-specific tool to characterize these critical performance criteria. Learn how this method provides:…
Overview Liquid-crystal elastomers (LCEs) uniquely combine molecular ordering with entropic elasticity. The result is a class of anisotropic elastomers with remarkable properties spanning stimuli responsive actuation to exceptional dissipation of mechanical energy. Our group has recently developed a range of photopolymerizable LCE resins and inks which we 3D print using direct ink writing (DIW) and…
Overview Specific heat capacity measures the ability of a material to absorb thermal energy. Specific heat capacity is an important property in many fields; it involves thermal energy exchange. People have been studying specific heat capacity for decades on a wide variety of materials such as phase change materials, carbon nanomaterials, heating and cooling…
Overview Researchers are working tirelessly to understand the basic chemical details of viral pathogenesis, viral protein structures, and identifying therapeutics to disrupt and prevent disease. There are different modes of therapies evolving that include small-molecule antiviral drugs, mRNA, and protein-based vaccines. Microcalorimetry is one powerful tool for the development and characterization of the mechanism of…