Mechanical Cooling Differential Scanning Calorimeter -70°C - 600°C DSC420D

DSC420 Series Differential Scanning Calorimeter 

Introduction

DSC420 series is the new differential scanning calorimeter launched by SHUOBODA. The instrument has been completely redesigned and upgraded from appearance to software, making it more portable. At the same time, the sensor adopts anti-interference and corrosion-resistant treatment to extend the service life. At the same time, the instrument has high sensitivity and improved measurement accuracy. At the same time, the software is more intelligent and easy to operate.

The DSC420 Series differential scanning calorimeter can measure the melting point, glass transition temperature, oxidation induction period, melting, thermal enthalpy, curing temperature and thermal stability of materials.

The DSC420 Series differential scanning calorimeter has a wide temperature range and can meet the measurement needs of different materials.

Test standards:

Ø GB/T 19466.1-2004 Plastics Differential Scanning Calorimetry (DSC) General Rules

Ø GB/T 19466.2-2004 Plastics Differential Scanning Calorimetry (DSC) Part 2: Determination of Glass Transition Temperature

Ø GB/T 19466.3-2004 Plastics Differential Scanning Calorimetry (DSC) Part 3: Determination of Melting and Crystallization Temperatures and Enthalpy

Ø GB/T 19466.4-2016 Plastics Differential Scanning Calorimetry (DSC) Part 4_Determination of Specific Heat

Main Features

  Rapid cooling: Air cooling, semiconductor, mechanical, liquid nitrogen and other cooling methods are available, doubling the experimental efficiency

  New appearance design, more convenient and compact

  Software upgrade, more intelligent

  Sensor upgrade, more anti-oxidation and corrosion-resistant

  High sensitivity and high measurement accuracy

  Wide temperature range and wider application range

  Customization to meet more testing needs

Technical Parameter

Performance advantages

1. Brand-new furnace structure, better baseline and higher precision. Indirect conduction heating is adopted, which has high uniformity and stability, reduces pulse radiation, and is better than traditional heating mode.

2. A wide temperature range can meet the test temperature requirements of different materials.

3. Fast cooling. The instrument adopts a variety of cooling methods, including: air cooling, semiconductor, mechanical refrigeration and liquid nitrogen refrigeration, which can achieve rapid cooling and improve the efficiency of the experiment.

4. Automatically switch the two-way atmosphere flow, with fast switching speed and short stabilization time. At the same time, add one protective gas input.

5. The supporting analysis software is upgraded, the analysis data is more comprehensive, and the operation is more intelligent and convenient.

6. The instrument has high sensitivity, which greatly improves the accuracy of experimental tests.

7. Customized services can be provided to meet different test needs.