Determination of the SADT of AIBN using a 0.8mL pressure-resistant container and a small-scale reaction calorimeter.
Measuring the thermal decomposition reaction of AIBN while maintaining it in a solid state! Using a high-pressure vessel.
This document is a technical note explaining the determination of the SADT of AIBN using a 0.8mL pressure-resistant container and a small reaction calorimeter. Instead of the 15mL vial of the mL size PalCRC small reaction calorimeter, a high-pressure container made of SUS316, with a volume of 0.8mL and a pressure resistance of 40MPa at 400°C, was used for the measurement. By setting the heating rate to 0.02 to 0.20 K/min, the exothermic decomposition reaction was shifted to the low-temperature side below the melting point, allowing the thermal decomposition reaction of AIBN to be measured while in the solid state. Please take a look. [Published Data (Excerpt)] ■ 0.80mL pressure-resistant container ■ DSC data measuring the A thermal decomposition reaction ■ Measurement data at 2K/min ■ Heating rate of 0.05K/min ■ Heating rate of 0.10K/min *For more details, please download the PDF or feel free to contact us.
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Our company works in the field of thermal safety evaluation to prevent thermal runaway accidents involving chemical substances. To achieve this, we analyze reaction kinetics parameters from thermal measurement data of a few milligrams of chemical substances and provide a measurement and analysis system that enables thermal safety evaluation when the chemical substances are scaled up to kg to 1000 kg. Additionally, we offer an evaluation system that combines isothermal microcalorimeters (IMC) for lithium-ion batteries and DSC with AKTS analysis software, allowing for comprehensive measurement of the entire battery.