Shanghai Heson HS-TGA-301 Thermogravimetric Analyzer New Product Launch

Thermogravimetric analyzer is a method of analyzing the thermal stability, composition, and decomposition process of a substance by accurately measuring its mass changes with temperature or time.

                       
Thermogravimetric analysis (TGA) is commonly used in polymers, food, pharmaceuticals, and many other materials. HESON thermal balance adopts a top shell structure (with the furnace body located above the balance), which maximizes the convenience of user operation.

The highly sensitive measurement system and specially developed furnace body can achieve excellent measurement results at extremely high heating and cooling rates within the temperature range of room temperature to 1450 ℃.

The thermal balance can be used in conjunction with a mass spectrometer (TGA-QMS) or a Fourier transform infrared spectrometer (TGA-FTIR) at any time. This device is very suitable for studying thermal decomposition and oxidation reactions.

combination use
1、 New product features:

1. High measurement accuracy: using imported microcalorimetry balance, with a mass resolution of up to 1 μ g, accurate and reliable data, and excellent repeatability.

2. Wide temperature control range: The furnace body temperature covers room temperature to 1100 ℃ (expandable to 1450 ℃), widely applicable for organic, inorganic, and composite material analysis.

3. Good baseline stability: The unique furnace body and balance structure design effectively suppresses buoyancy and convection interference, with a flat and stable baseline, significantly improving the signal-to-noise ratio of trace weight loss signals.

4. Joint expansion capability: Equipped with standard FTIR, MS and other joint interfaces, it supports real-time analysis and component analysis of escaping gases, achieving synchronous characterization of quality changes and chemical structures.

5. Intelligent and efficient software system: integrating data collection, analysis, and report generation functions, supporting dynamic analysis, intuitive and easy operation, greatly improving experimental and data processing efficiency.

6. Convenient calibration and verification: equipped with one click automated temperature and quality calibration function, supporting compliance verification with USP, ISO and other regulations, ensuring data compliance and accuracy.

7. Intelligent baseline compensation technology: using patented algorithms to automatically deduct background drift of empty crucibles, directly outputting pure sample TG curves, simplifying operations, and improving data accuracy.

8. High performance hardware control system: The host is equipped with ARM microprocessor, which has fast computing speed and strong system processing capability, ensuring the accuracy and stability of real-time data calculation.

9. Humanized interactive interface: equipped with a color touch LCD screen, the graphical operation interface is simple and intuitive, and user control is more convenient and efficient.

2、 No need for baseline running - get results faster

In typical measurements, in order to ensure the accuracy of quality change values, baseline runs need to be conducted under the same testing conditions for variables such as heating rate, gas type, gas flow rate, crucible type, and geometry, and deducted from the sample measurement values. The baseline operation takes into account the influence of instruments and buoyancy. In contrast, when using the built-in baseline operation function for typical temperature curve measurements, there is usually no need for separate baseline calibration. This greatly simplifies routine testing work, especially suitable for industrial quality control.