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Rigaku Corporation Thermogravimetry Differential Thermal Analyzer TG-DTA/GC-MS

Description
This unique hybrid evolved gas analyzer system makes it practical to obtain information on not only a change of mass of a substance taking place at time of heating but also a chemical reaction difficult to decide on by traditional thermal analysis alone. Moreover, this information set can be obtained simultaneously with high sensitivity. This type of system is an indispensable tool to powerfully support the development of new materials, the establishment of manufacturing techniques as well as quality control and fundamental research. Thus, jointly with such manufacturers' MS and GC-MS, the Rigaku thermal analyzer plays the important role of the total system. Measurement in a humidity controlled atmosphere is an available option. EGA is an analytical technique in which the characteristics or amount of volatile products released by a substance are determined as a function of controlled temperature variation. EGA is typically used in materials science research and in the pharmaceutical industry to determine thermal stability, decomposition mechanisms, the nature of residual solvents and product safety. Thermal analysis allows the elucidation of microscopic information—such as chemical properties and crystal structure—allowing more precise determination of what kind of processes are occurring in the sample. The evaluation of thermal stability of polymeric and electronic materials, and recycling processing of polymers are socially important technologies, so there are increasing demands for improved EGA analysis methods. Combining multiple techniques, simultaneous measurement of two or more properties from the same sample can provide significantly more information than sequential determination of these same properties. One of the most remarkable developments in thermal analysis techniques is "three-dimensional thermal analysis." TG-MS, a simultaneous technology coupling thermogravimetry (TG)—which determines mass change as a function of temperature—and mass spectrometry (MS), is a typical method in evolved gas analysis (EGA). TG-MS has become increasingly popular in the analytical laboratory.

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Thermogravimetry Differential Thermal Analyzer - TG-DTA/GC-MS - Rigaku Corporation
The Woodlands, TX, USA
Thermogravimetry Differential Thermal Analyzer
TG-DTA/GC-MS
Thermogravimetry Differential Thermal Analyzer TG-DTA/GC-MS
This unique hybrid evolved gas analyzer system makes it practical to obtain information on not only a change of mass of a substance taking place at time of heating but also a chemical reaction difficult to decide on by traditional thermal analysis alone. Moreover, this information set can be obtained simultaneously with high sensitivity. This type of system is an indispensable tool to powerfully support the development of new materials, the establishment of manufacturing techniques as well as quality control and fundamental research. Thus, jointly with such manufacturers' MS and GC-MS, the Rigaku thermal analyzer plays the important role of the total system. Measurement in a humidity controlled atmosphere is an available option. EGA is an analytical technique in which the characteristics or amount of volatile products released by a substance are determined as a function of controlled temperature variation. EGA is typically used in materials science research and in the pharmaceutical industry to determine thermal stability, decomposition mechanisms, the nature of residual solvents and product safety. Thermal analysis allows the elucidation of microscopic information—such as chemical properties and crystal structure—allowing more precise determination of what kind of processes are occurring in the sample. The evaluation of thermal stability of polymeric and electronic materials, and recycling processing of polymers are socially important technologies, so there are increasing demands for improved EGA analysis methods. Combining multiple techniques, simultaneous measurement of two or more properties from the same sample can provide significantly more information than sequential determination of these same properties. One of the most remarkable developments in thermal analysis techniques is "three-dimensional thermal analysis." TG-MS, a simultaneous technology coupling thermogravimetry (TG)—which determines mass change as a function of temperature—and mass spectrometry (MS), is a typical method in evolved gas analysis (EGA). TG-MS has become increasingly popular in the analytical laboratory.

This unique hybrid evolved gas analyzer system makes it practical to obtain information on not only a change of mass of a substance taking place at time of heating but also a chemical reaction difficult to decide on by traditional thermal analysis alone. Moreover, this information set can be obtained simultaneously with high sensitivity. This type of system is an indispensable tool to powerfully support the development of new materials, the establishment of manufacturing techniques as well as quality control and fundamental research. Thus, jointly with such manufacturers' MS and GC-MS, the Rigaku thermal analyzer plays the important role of the total system. Measurement in a humidity controlled atmosphere is an available option.

EGA is an analytical technique in which the characteristics or amount of volatile products released by a substance are determined as a function of controlled temperature variation. EGA is typically used in materials science research and in the pharmaceutical industry to determine thermal stability, decomposition mechanisms, the nature of residual solvents and product safety.

Thermal analysis allows the elucidation of microscopic information—such as chemical properties and crystal structure—allowing more precise determination of what kind of processes are occurring in the sample. The evaluation of thermal stability of polymeric and electronic materials, and recycling processing of polymers are socially important technologies, so there are increasing demands for improved EGA analysis methods.

Combining multiple techniques, simultaneous measurement of two or more properties from the same sample can provide significantly more information than sequential determination of these same properties. One of the most remarkable developments in thermal analysis techniques is "three-dimensional thermal analysis." TG-MS, a simultaneous technology coupling thermogravimetry (TG)—which determines mass change as a function of temperature—and mass spectrometry (MS), is a typical method in evolved gas analysis (EGA). TG-MS has become increasingly popular in the analytical laboratory.

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Technical Specifications

  Rigaku Corporation
Product Category Calorimeters and Thermal Analyzers
Product Number TG-DTA/GC-MS
Product Name Thermogravimetry Differential Thermal Analyzer
Thermal Analyzer Type Differential Thermal Analysis; Thermal Gravimetric Analyzer
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