What is Thermogravimetric Analysis?

Composites, Fine & Specialty Chemicals, Food Products, Pharmaceuticals, Polymers, Thermal Analysis

A testament to the march of scientific inquiry, thermogravimetry emerged through the integration of three individual inventions in the 19th and 20th centuries: the electric furnace, the thermocouple, and the microbalance. As a cornerstone of material science, chemistry, and various other industries, thermogravimetric analysis (TGA) has since developed in leaps and bounds. Today, TA Instruments are leading the way in TGA, and we welcome you to join us as we explore the workings and applications of this groundbreaking technique.

Rheology is Maza: Unveiling the Secrets of Flowing Rangoli Colors

Batteries & Battery Materials, Blog Applications, Blog Techniques, Food Products, Paints, Inks, & Coatings, Personal Care & Household Products, Pharmaceuticals, Rheology

Powders are a big part of everyday life, from baking and laundry to cosmetics and pharmaceuticals. Understanding powder rheology—how powders flow and deform—is crucial for optimizing their use in various applications. This knowledge helps industries maintain consistency and product quality.

How to Accelerate Successful Product Development with Rheology

Batteries & Battery Materials, Blog Applications, Blog Techniques, Food Products, Paints, Inks, & Coatings, Personal Care & Household Products, Pharmaceuticals, Rheology

Rheology is a notoriously complex field, combining mathematics and physics to characterize materials. For inexperienced users, rheology can seem like a massive challenge. Luckily, new technology simplifies rheology down to its core so you can get essential measurements without difficult training, measurements, or calculations.

Linear Viscoelastic Region: Why It’s Crucial in Materials Testing

Engineered Materials, Food Products, Mechanical Testing, Pharmaceuticals, Polymers, Rheology

Our world is brimming with viscoelastic materials: The dough you knead before baking a fresh loaf, the Silly Putty your toddler slaps against the wall, the rubber gaskets that create an airtight seal on an airplane door. Testing those materials by applying controlled deformations (strains) or forces (stresses) at various timescales, temperatures, and/or humidities allows for the optimization of properties and ensures durability and safety.

What is Differential Scanning Calorimetry?

Pharmaceuticals, Polymers, Thermal Analysis

Differential scanning calorimetry is an analytical technique used to measure the amount of heat released or absorbed by a sample during heating or cooling over a range of temperature. As well as being used to characterize the thermal properties of a material, a differential scanning calorimeter is used to determine the temperature at which particular phase transitions occur, including glass transition temperature, fusion and crystallization events.