It is optimal for analyzing delayed destruction mechanisms.
This system uses Temperature-Programmed Desorption Analysis (TDA) to increase the furnace temperature at a constant rate from low to high temperatures, continuously measuring the amount of hydrogen released with temperature changes using gas chromatography, and analyzing the hydrogen release amount in relation to temperature.
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basic information
- Measurement of trace hydrogen is possible using the TDA method with gas chromatography. - The heating rate and temperature range can be changed arbitrarily. - The temperature and amount of released hydrogen are displayed in graphs and tables. - The tubular furnace is openable and easy to handle. - Safety measures are thorough due to the overheating prevention device. - Measurement of components other than hydrogen is also possible (optional).
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Applications/Examples of results
Investigate the behavior of hydrogen, which is the cause of delayed fracture in steel materials.
Company information
Our company has a 23-year history as a manufacturer that contributes to green innovation through the development of catalytic evaluation devices and organic trace element analysis devices, centered around system gas chromatography. In recent years, as the world calls for the realization of a decarbonized society, we are committed to further research and development of analytical and evaluation testing devices that contribute to Japan's long-term challenges of energy transition and environmental protection, such as hydrogen energy and carbon neutrality. We will continue to embrace our mission of providing value to society, leveraging innovative technologies and insights to pave the way for a sustainable future.
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