Differential Scanning Calorimeter LMDSC-A101 is newly designed to ensure high resolution and high base line stability in the temperature range of RT to 600 ° C. An imported e-couple sensor offers excellent anti-interference performance and shield protection for the signal acquisition circuit. The model uses heating scan and air-cooling method to develop an output on a 7-inch LCD touch screen display.
Get QuoteTemperature Range | RT to 600 ° C (Air-cooled) |
Temperature Resolution | 0.01 °C |
Temperature Fluctuation | ± 0.1 °C |
Temperature Repeatability | ± 0.1 °C |
Heating Rate | 0.1 to 100 °C/ min |
DSC Range | 0 to ± 600 mW |
DSC resolution | 0.01 µW |
DSC accuracy | 0.01 mW |
DSC sensitivity | 0.01 mW |
Temperature control mode | Rising Temp, Constant Temp, Cooling Temp |
Curve scanning | Rising Scan |
Atmosphere Control Gas | Nitrogen, Oxygen |
Gas Flow | 0 to 300 mL/ min |
Gas Pressure | 0.2 Mpa |
Scanning Method | Heating scan |
Thermocouple | Total 3 sets of thermocouples for: Test sample temperature, Test furnace temperature, Test Internal Ambient Temperature |
Standard material | Indium and Tin |
Display | 24-bit color, 7-inch LCD touch screen display |
Data Interface | Standard USB interface |
Software | 4 in 1 operating software |
Standard Material | Indium and Tin |
Power Supply | AC 220 V, 50 Hz |
Dimensions (D × W × H) | 500 × 450 × 260 mm |
Weight | 12.4 Kg |
Metal furnace structure provides better baseline and higher precision
Indirect conduction mode is adopted in heating, which has high uniformity and stability, and reduces pulse radiation, making it better than traditional heating mode
USB communication interface, strong versatility, reliable communication, support self-recovery connection function
Nitrogen and oxygen atmosphere control gas
Equipped with sample, furnace body and internal environment temperature thermocouple
Fully automatic heating, constant and cooling temperature control mode
Automatic switching of two-way atmosphere flow, fast switching speed and short stable time
User-friendly software and an industrial level 7- inch touch screen display
Name | Quantity |
Main Machine | 1 pc |
Professional Software | 1 pc |
Aluminium Crucibles | 100 pcs |
Ceramic Crucible | 100 pcs |
Pure Tin Particles | 1 pack |
10a Fuse | 5 pcs |
10a Fuse | 5 pcs |
Air Tube | 2 pcs |
Tweezers And Related Tools | 1 set |
Data Cable | 1 pc |
Power Line | 1 pc |
Liquid Nitrogen Container | 1 pc |
Low Temperature Thermostatic Bath | 1 pc |
Differential Scanning Calorimeter is the most frequently used thermal analysis technique, measuring enthalpy changes in samples due to changes in their physical and chemical properties as a function of temperature or time.
Get Quote for
Differential Scanning Calorimeter LMDSC-A101
Differential scanning calorimetry (DSC) analysis is a powerful technique for probing essential physical characteristics of materials by subjecting them to controlled temperature changes. During a DSC experiment, both a test sample and a reference material undergo controlled heating, leading to a precisely measured response in temperature and heat capacity. These specialized furnace-based systems are particularly well-suited for investigating unique phase-transition properties, such as those seen in liquid crystals, quantifying the enthalpy of materials, and evaluating the resilience of products exposed to extreme temperatures and pressures. Differential scanning calorimeters offer a broad temperature range, spanning from a frigid -150°C to a scorching 800°C, with the capacity for rapid heating rates, including a maximum rate of 300 ml/min for DSC analysis.
Automatic Bomb Calorimeter is a state-of-the-art instrument designed for precise and efficient determination of the calorific value of various samples, making it an essential tool for researchers, quality control professionals, and laboratories across various industries. This automatic bomb calorimeter streamlines the process of measuring the heat of combustion for a wide range of substances, from fuels and petrochemicals to food products and environmental samples.