The Pyris™ TGA 9 is an advanced thermogravimetric analysis system offering precise quantification and characterization of samples across a broad temperature range. Featuring a durable alumina furnace with 25 years of proven reliability and a sensitive balance, the compact system optimizes productivity and value. The 96-well autosampler and responsive touchscreen for direct temperature control simplifies workflows, while providing superior data quality and reduced sensor lag.
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The Pyris TGA 9 is ideal for both research and routine tasks. Highlights of the system include:
The application brief details the use of the PerkinElmer Pyris™ TGA 9 for determining the loss on drying of a pharmaceutical excipient, specifically microcrystalline cellulose. Loss on drying is essential to measure because it affects the stability, processing characteristics, and longevity of pharm ...
The application brief presents the use of the new PerkinElmer Pyris TGA 9 thermogravimetric analyzer in determining the composition of an unknown polymer sample. Thermogravimetric analysis (TGA) tracks the mass change of the sample under controlled heating, identifying the weight loss due to bound w ...
The application note details the use of the PerkinElmer Pyris TGA 9 Thermogravimetric Analyzer for analyzing tire rubber, adhering to the ASTM D6370 standard. It involves assessing various components such as organics, carbon black, and fillers within tire samples. Key findings demonstrated variances ...
Research scientists and QA/QC analysts require precise data to analyze material behavior and face challenges with complex instrumentation, unreliable data, fast-paced testing, and strict regulations. PerkinElmer, leveraging six decades of expertise, revolutionizes thermal analysis with its new Pyris ...
We are supporting scientists as they work to solve the battery challenges that will drive the next phases of global economic advancement as the world pivots towards a renewable energy future.
This white paper discusses what testing is required at each step in the polymer production lifecycle from R&D to manufacture to recycling. It explores the analytical technologies that will meet those testing needs, and important considerations to help you select the instrumentation that will provide ...