The TGA 4000 is designed with a compact ceramic furnace, which provides the temperature control you need for accurate results. Its rugged design is also corrosion resistant for the applications flexibility you need today and tomorrow.
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Typical TGA Applications:
Features & Benefits
|21 CFR Part 11 Compatible||Yes|
|Maximum Temperature||1000 °C|
|Model Name||TGA 4000|
|Technology Type||Thermal Analysis|
A gas chromatographic analysis of the extract can provide even greater sensitivity and more detailed compositional information, but further increases the time required for the analysis. Thermogravimetric analysis coupled to infrared spectroscopy (TG-IR) can provide detailed information about the amount and nature of the pollution, while requiring no sample preparation at all. This application note illustrates the kind of data that can be obtained with a modern TG-IR system.
One of the most challenging analytical problems with increasing importance is the possibility to analyze soil polluted by the dispersion of organic fluids which sometimes features particularly high boiling points. The current techniques used solvent extraction and headspace chromatographic analysis, have shown their limits. Solvent extraction needs time consuming sample preparation. Headspace makes it impossible to heat the sample at temperatures exceeding 200 °C, which risks not being able to identify the heaviest fractions of the polluting agents.
A valuable application of thermal analysis (TEA) is for the characterization of electronic materials and components, including printed circuit boards (PCB) and encapsulants. The key properties that TEA can help address are softening temperature or Tg, completeness of cure, degree of cure, rate of cure, compositional analysis, degradation temperatures for stability assessment, expansivities, coefficients of thermal expansion, modulus (stiffness) and damping properties. PerkinElmer offers a complete line of state-of-the-art thermal analysis instruments (DSC, TGA, TMA and DMA) for the analysis and characterization of the critical thermal, physical, degradation and mechanical properties of electronic materials. The results are highly useful for research and development as well as quality assurance applications.
Thermal analysis comprises a series of powerful techniques for the characterization of the thermal, physical, mechanical and degradation properties of materials. One valuable application of thermal analysis is for the characterization of electronic materials and components, including printed circuit boards (PCB) and encapsulants.
Thermogravimetric analysis (TGA) is one of the members of the family of thermal analysis techniques used to characterize a wide variety of materials. TGA provides complimentary and supplementary characterization iinformation to the most commonly used thermal technique, DSC.
Thermogravimetric analysis (TGA) is one of the members of the family of thermal analysis techniques used to characterize a wide variety of materials. TGA provides complimentary and supplementary characterization information to the most commonly used thermal technique, Differential Scanning Calorimetry (DSC). PerkinElmer offers a variety of high performance TGA instruments encompassing a wide range of application needs and operational requirements. The extended capabilities of the PerkinElmer TGA, as a valuable tool for polymeric characterization and quality assurance are demonstrated by these applications.
Thermogravimetric analysis (TGA) is a common technique that is used to study the weight loss during heating. It can tell you the percentage of weight loss quantitatively and accurately. But TGA alone will not tell you anything about the chemical components of the evolved off gas. The hyphenation between TGA and FT-IR is able to identify the off gas from TGA and give a more complete picture of material characterization. The TG-IR hyphenation technique has been widely used for the polymer industry. This application note demonstrates how to combine the strength of TGA and FT-IR analysis to offers a more comprehensive material characterization.
Today’s plastics are some of the most used materials on a global volume basis. Broadly integrated into today’s industrial and commercial lifestyles, they make a major, irreplaceable contribution to virtually every product category.
In this compendium you will find a wide range of applications for polymers, plastics, rubbers and advanced materials. Discover how to put these applications to work for you simply and efficiently.
Researchers in the automotive and petrochemical industries have studied the effects of oil volatility on engine emissions and oil consumption over the past decade. The standard test for assessing oil volatility has been the Noack and gas chromatographic techniques. The Noack test conditions are recognized as being more representative of those experienced by oils in engines during operation. This application note describes how PerkinElmer TGA 8000, TGA 4000 or STA 6000 instruments provide an excellent means of characterizing oil volatilities using the TGA Noack test, which has been developed to improve reproducibility and has taken into account better test conditions that closely meet ASTM D6375-09 specifications.
Innovation is the lifeblood of industrial polymer development – the push to improve materials or develop new ones infuses new life into the industry from R&D through to QA/QC. Manufacturers are continually challenged to ensure effective quality control and streamline processes while meeting stringent standards. Increasingly they must design for recycling and/or reuse in an ever more waste-adverse economy, keep a watchful eye on costs and stay ahead of the competition.
In response, we've gained years of experience developing a range of analytical capabilities to address a wide range of polymer analysis needs.
Download the interactive brochure to learn more about the most common challenges and our solutions in the market.
Quality control-monitoring and testing are important in ensuring the quality of palm oil. The quality control parameters are used to judge the quality of palm oil products and it can be monitored and tested to ensure that the palm oil is not deliberately or accidentally adulterated.
We are the leader in high sensitivity thermal analysis instrumentation, providing the confidence to achieve fast, accurate, reproducible results. The TGA 8000™ incorporates PerkinElmer’s 75 years of continuous innovation and experience into its intelligent design.
The TGA 8000’s design, optimal temperature control and high sensitivity ultra-microbalance provide the unsurpassed accuracy that is required in a laboratory.
This TGA embodies the next step in thermogravimetric evolution: simplicity and ruggedness in an easy-to-use, easy-to-maintain, automated system. Never has there been a TGA more perfectly suited for demanding environments and research and development.
The regulations of 21 CFR Part 11 cover overall system compliance and include administrative, procedural and technical elements. Software alone cannot be compliant without the development and implementation of the other elements. PerkinElmer’s Pyris™ Enhanced Security software for Thermal Analysis instruments provide features that, when coupled with appropriate policies and procedures, fulfill the requirements for 21 CFR Part 11 compliance.
The polymer industry is made up of a diverse set of players, all facing similar challenges. Better characterization of materials and derivatives in the polymer value chain is vital to understand their thermal properties and suitability for use in a variety of applications. Faster product development, ensuring quality control, and reducing costs to stay ahead of the competition demands enhanced material characterization capabilities from a trusted partner. Our lineup of advanced solutions for thermogravimetric analysis (TGA) are designed to help you in:
The hyphenation of TG-GC/MS is a powerful tool for quality control, safety, and product development. This Flyer discusses the utility of PerkinElmer TG-GC/MS with an example application – the identification of specific organic acids evolved during TGA analysis of switchgrass.
The Thermogravimetric Analyzer (TGA) is an essential laboratory tool used for material characterization. TGA is used as a technique to characterize materials used in various environmental, food, pharmaceutical, and petrochemical applications. This booklet provides an introduction to the concepts of Thermogravimetric Analysis (TGA). It is written for scientists unfamiliar with TGA.
The needs for polymer, pharmaceutical, chemicals, food and beverage, and environmental analyses are constantly changing due to innovation demands and regulation changes.
Evolved Gas Analysis (EGA) solutions combine multiple analytical technologies to empower speed and advanced information acquisition. Coupling Thermogravimetric Analyzer (TGA) systems with other analytical systems such as Gas Chromatography Mass Spectrometry (GC/MS) and Fourier Transform Infrared (FT-IR) Spectroscopy represents the most complete and advanced EGA solutions for gaining insights beyond decomposition of materials, by carrying out in-depth characterization of the evolved gases.
This comprehensive technology guide is your guide to understanding how hyphenation provides the insights - not just WHEN something has happened, but also WHAT happened.
Guide describing all UV/Vis spectroscopy, FT-IR spectroscopy, thermal analysis, hyphenation technique solutions for material characterization.
The TGA 4000 Installation and Hardware Guide provides an overview of instructions for the safe and proper installation of TGA 4000.
Poster summarizing solutions of thermal analysis, molecular spectroscopy, chromatography and hyphenated techniques for polymers focused on providing more insight into product performance and process optimization that make easier
The Polymer Market consists of a huge diversity of manufacturers of industrial products running many different processes yet still facing similar challenges. There is more and more pressure to achieve high product quality and reduce costs in order to stay one step ahead of the competition.
Polymer and plastics recycling is a rapidly growing industry, fueled by the increasing consumption of goods and the associated increase in landfill waste. Not only does plastic recycling reduce environmental problems caused by polymeric waste accumulation, it will also lead to a decrease in oil consumption and green-house gas emissions. The PerkinElmer Recycling Packages make use of the most commonly used techniques for material characterization and additionally supports the Plastic Identification Codes (PIC), used worldwide for packaging applications.