Polymers are everywhere, from components making up the electronic device you’re reading this on to life-saving medical devices, energy efficient solar panels, and lightweight aero or auto components. Material scientists and engineers continue to improve high-performance polymers for strength, durability, and stability under demanding applications.
DetailsIn the world of material science, understanding the viscoelastic properties of materials is crucial for developing and optimizing products. Two key parameters in this context are storage modulus (E’ or G’) and loss modulus (E” or G”). These parameters provide insights into a material’s stiffness and damping characteristics, respectively, which are essential for applications ranging from polymers and pharmaceuticals to batteries and composites.
DetailsOverview In this Tech Tip, we will calibrate the Film/Fiber Probe on the Discovery TMA 450.
DetailsThe TA RS-DSC is a revolutionary new high-throughput thermal stability testing instrument specifically designed for biologic drug development.
DetailsElectrode slurries are paste-like mixtures made up of active materials, conductive additives, and a binder. The conductive additives must be electrically conducted to the current collector. However, binder is necessary for getting the active materials to stick together and adhere to the current collector.
DetailsFollowing the packing and unpacking instructions of your instrument is important to the lifetime and performance of your instrument.
DetailsFollowing the packing and unpacking instructions of your instrument is important to the lifetime and performance of your instrument.
DetailsDifferential Scanning Calorimetry is a thermal analysis technique commonly used to characterize materials across a broad array of applications including chemistry, biochemistry, pharmaceuticals, polymers, and more. Differential Scanning Calorimetry (DSC) measures the heat flow in a material as it is heated or cooled over a specified temperature range.
DetailsOverview In this Tech Tip, we’ll be discussing how to create RheoGuide™ methods using TRIOS software for the Discovery Core Rheometer.
DetailsIsothermal Microcalorimetry (IMC) is a highly sensitive analytical technique that measures the heat flow in chemical and physical processes under constant temperature. IMC enables the precise detection of thermal reactions, including phase transitions, binding events, and metabolic processes, making it invaluable in fields such as pharmaceuticals, materials science, and battery research.
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