Calorímetro de la exploración diferencial

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Calorímetro de la exploración diferencial

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August 17, 2025

Conexión De Categoría: Calorímetro de la exploración diferencial

Chatea Contáctenos

Etiquetas:

#Calorímetro de la exploración diferencial de DSC #equipo de la calorimetría de exploración diferencial #Máquina de la calorimetría de exploración diferencial

Brief: Discover the 0.1mW Oxidation Induction Time Test Machine for Plastic Analysis, a high-precision differential scanning calorimeter (DSC) designed for thermal analysis of polymers. With a temperature range up to 500°C and 0.1mW sensitivity, it's ideal for studying oxidative stability, heat capacity, and more in thermoplastics, thermosets, and elastomers.

Related Product Features:

Precise temperature control with a range from room temperature to 500°C and 0.1°C resolution.
High DSC sensitivity of 0.1mW for accurate thermal analysis of polymers.
LCD display with blue backlight for clear viewing of temperature, flow rates, and differential thermal signals.
USB communication interface for reliable data transfer and recovery connection support.
Dual temperature probes ensure accurate and repeatable sample temperature measurements.
Digital gas mass flow meter for automatic switching of atmosphere flow with fast response.
Compact furnace design with infinitely adjustable heating rates and mechanical fixing to avoid signal contamination.
Software compatibility with multiple operating systems and screen resolutions for flexible use.

Las preguntas:

What types of materials can be analyzed with this Oxidation Induction Time Test Machine?

This machine is designed for thermal analysis of various polymers, including thermoplastics, thermosets, and elastomers, with or without fillers, fibers, or reinforcements.
What is the temperature range and resolution of this DSC machine?

The machine offers a temperature range from room temperature to 500°C with a resolution of 0.1°C, ensuring precise thermal analysis.
How does the dual temperature probe system improve measurement accuracy?

The dual probes measure real sample temperature and adjust furnace wall temperature accordingly, reducing errors caused by thermal inertia and ensuring repeatable results.