Thermal analysis presentation refers to the process of analyzing the thermal performance of a sample under different temperature conditions through thermal analysis technology and visualizing the results. Thermal analysis display can be achieved through various instruments and technologies, such as differential scanning calorimeter (DSC), thermogravimetric analyzer (TGA), thermal dilatometer (TMA), etc.

In the thermal analysis display, the following steps are generally carried out:

1. Sample preparation: Prepare the tested sample and select appropriate thermal analysis techniques and parameter settings based on specific needs.

2. Measurement data collection: The heating or cooling process of the sample is carried out in a thermal analysis instrument, and key data such as temperature, thermal capacity, and quality changes of the sample are recorded in real-time.

3. Data analysis: Based on measurement data, conduct data analysis and processing through software or data processing tools. Common analysis methods include calculating heat capacity, temperature and peak area of thermal decomposition peaks, thermal weight loss, and other indicators.

4. Result display: Display the analysis results in a visual form, and use charts, curves, heat maps, and other forms to display the trend and characteristics of the thermal performance changes of the sample.

5. Conclusion interpretation: Based on the displayed results, interpret and analyze the conclusion. The thermal performance characteristics, thermal stability, and phase transition behavior of the sample can be explained and discussed.

Thermal analysis displays have wide applications in materials science, chemistry, medicine, food, and other fields. Through thermal analysis display, researchers can deeply understand the thermal performance and behavior of samples, providing scientific basis and visual support for material design, process optimization, quality control, etc.