Differential Scanning Calorimeter LDSC-A10 is an analyzer which allows the measurement of different characteristic properties of various samples from RT to 800°C. It meets ASTM, ISO standards. High resolution, stable base line, air flow meter, bilateral control etc. are some of the features which ensures accurate and reliable results. It finds applications in fields like polymer development, quality control of different materials, performance testing and many other industries.
Temperature range | RT to 800°C (Air cooled) |
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Temperature resolution | 0.1°C |
Temperature fluctuations | ± 0.1°C |
Temperature repeatability | ± 0.1°C |
Dynamic heat flow range (DSC range) | 0 to ± 500 mW |
Heating rate | 1 to 80°C / min |
Cooling rate | 1 to 20°C / min (OPTIONAL) |
DSC noise | 0.01 μW |
DSC resolution | 0.01 µW |
DSC accuracy | 0.1 µW |
DSC sensitivity | 0.1 µW |
Control Mode | Rising temperature, constant temperature (full automatic) |
Curve scanning | Rising scan, cooling scan(OPTIONAL) |
Gas flow control | Embedded digital flow meter & Software control, automatic changing |
Parameter standard | With standard material, with calibration function, the user may correct temperature and heat enthalpy |
Display | 24 bit 7 inches LCD touch screen display |
Data interface | Standard USB connector |
Power Consumption | Less than 2000 W |
Packaging Dimension and Gross weight (2 case) | 580×490×520 mm / 29 kg<br/> 530×270×280 mm / 15 kg |
It is used to study thermal transitions, heat capacity, glass transition temperature, crystallinity, melting temperature etc. of various materials like polymers, plastics, elastomer, food stuffs, biomolecules, non-corrosive samples, electronic components etc.
Our Differential Scanning Calorimeters, often known as DSCs, are instruments that detect temperatures as well as heat fluxes associated with thermal changes in a substance. The most common uses are research, quality control, and production settings, where an inquiry, selection, comparison, and end-use performance assessment of materials are carried out. Glass transitions, "cold" crystallisation, phase shifts, melting, crystallisation, product stability, cure / cure kinetics, and oxidative stability are some of the properties that may be studied using our DSC procedures. The differential scanning calorimeter (DSC) makes it possible to conduct measurements of transitions including melting, crystallisation, and the glass transition. In addition, the chemical reaction may be measured, and some of the elements that can be measured include thermal curing, heat history, specific heat capacity, and purity analysis. In recent years, with the introduction of highly functional polymeric material, there has been a tremendous increase in the need for thermal property studies. Both DTA and DSC are capable of determining the temperature differences that exist between the sample and the reference; however, only DSC can make a quantitative assessment of the amount of heat that is on top. There is a Discovery DSC that can meet your needs and exceed your expectations, regardless of whether you need to increase the sample throughput of your instrument, conduct tests on materials while they are being subjected to pressure, or simply want to obtain the most accurate and reliable information about your material.
Temperature range | RT to 600°C (Air cooled) |
Temperature resolution | 0.1°C |
Temperature fluctuations | ± 0.1°C |
Temperature repeatability | ± 0.1°C |
Temperature range | -150°C to 550°C |
Temperature resolution | 0.001°C |
Temperature fluctuations | ± 0.001°C |
Temperature repeatability | ± 0.1°C |