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Thermal analyzers are tools that examine substances as they alter with temperature in relation to heat, such as at freezing and boiling points, the heat of fusion, the heat of vaporisation, etc. The phrase “thermal analysis” describes a number of methods where a sample’s property is continually monitored as the sample is programmed through a specified temperature profile.
Thermal gravimetric analysis (TA) and differential scanning calorimetry are among the methods that are used the most frequently. (DSC).
Thermal analysis is a broad phrase that refers to a technique used to examine the temperature and time at which a substance physically changes when heated or cooled. The definition of each technique depends on the kinds of physical changes being examined.
The Global Thermal Analysis Instruments Market accounted for $XX Billion in 2022 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2023 to 2030.
For advanced material development and quality control, Hitachi High-Tech introduces the NEXTA DSC line of thermal analyzers.
Launching the NEXTA DSC, a new line of differential scanning calorimeters for advanced materials development and product quality control, is Hitachi High-Tech Analytical Science Corporation (Hitachi High-Tech Analytical Science), a wholly owned subsidiary of Hitachi High-Tech Corporation engaged in the manufacture and sales of analysis and measuring instruments.
The NEXTA DSC provides laboratories and manufacturers with a new alternative for the most in-depth and extensive DSC analysis as the newest addition to Hitachi High-Tech’s high-specification thermal analysis portfolio.
The optional RealView Sample unit gathers visual sample information during the DSC measurement, capturing sample images in real time that can be connected directly to the DSC signal.
This aids in recognising physical property changes, and the DSC output’s addition of visual data makes it even simpler to interpret results, especially when performing failure analysis, foreign particle analysis, and looking into unusual results.
A newly created thermocouple-type DSC sensor, used in the NEXTA DSC600, provides the maximum sensitivity and resolution required for more sophisticated materials development and failure analysis.The NEXTA DSC line, in addition to emphasising performance, offers a variety of other features to facilitate extensive thermal analysis in big volumes.
