
Get Quote
Contact us now to receive a detailed quotation.
Differential Scanning Calorimeter LMDSC-A105 provides 0 to ±800 mW range for comprehensive thermal analysis. Integrated with mechanical cooling method supports efficient temperature regulation. It features calibrated Indium and Tin materials to ensure consistent measurement during tests. Incorporated with a USB port enabling seamless and rapid transfer of collected experimental data. Our Differential Scanning Calorimeter offers 2 sets of thermocouples for monitoring both sample and internal ambient conditions.
Catalog Send Mail WhatsappSpecifications
DSC Range | 0 to ± 800mW |
Temperature Range | -40°C to 600°C |
Heating Rate | 0.1 to 100℃/min |
Cooling Rate | 0.1 to 40℃/min |
Cooling Method | Mechanical Cooled |
Scanning Method | Heating and Cooling |
Constant Temperature Time | Up to 24 hours (programmable) |
Temperature Resolution | 0.001℃ |
Temperature Fluctuation | ±0.01℃ |
Temperature Repeatability | ±0.01℃ |
DSC Noise | 0.01μW |
DSC Resolution | 0.01μW |
DSC Accuracy | 0.01mW |
DSC Sensitivity | 0.01mW |
Temperature Control Modes | Rising, Constant, Cooling (Automatic) |
Curve Scanning | Rising and Cooling |
Gas Types | Nitrogen, Oxygen (Switch Automatically) |
Gas Flow Rate | 0 to 300mL/min |
Gas Pressure | Less than or equal to 5mPa |
Display | 7-inch LCD touchscreen, 24-bit color |
Data Interface | USB |
Calibration Materials | Indium, Tin |
Software | 4 in 1 operating software |
Thermocouples | 2 Sets (Sample & Internal Ambient) |
Packaging Dimension | 590 × 520 × 970 mm |
Weight | 50 kg |
Features
Variable Heating and Cooling Rates
Dual Scanning Modes
Automatic Gas Switching
7-inch LCD touchscreen
Advanced Software
Standard Accessories
Model No. | Accessory |
LMDSC-A105-S1 | Software |
LMDSC-A105-A1 | Aluminum Crucibles |
LMDSC-A105-T1 | Pure Tin Particles |
LMDSC-A105-F1 | 10A Fuses |
LMDSC-A105-A2 | Air Tubes |
LMDSC-A105-T2 | Tweezers and Related Tools |
LMDSC-A105-D2 | Data Cable |
LMDSC-A105-P1 | Power Cable |
LMDSC-A105-L1 | Low Temperature Thermostatic Bath |
Applications
Differential Scanning Calorimeter LMDSC-A105 is vital for studying phase transitions, melting points, and crystallization in materials. It is ideal for characterizing metals, alloys, and composites in material science.
Similar Products
Frequently Asked Questions
1 What is a Differential Scanning Calorimeter?
A Differential Scanning Calorimeter is an apparatus designed to measure heat flow differences between a sample and a reference to analyze thermal transitions.
2 How does a Differential Scanning Calorimeter work?
It works by heating or cooling a sample and comparing its heat flow to that of a reference material to detect thermal events.
3 What materials can be analyzed using Differential Scanning Calorimeter?
It can analyze a wide range of materials, including polymers, metals, pharmaceuticals and liquids.
4 Can Differential Scanning Calorimeter analyze chemical reactions?
It can analyze chemical reactions by measuring the heat released or absorbed during the reaction.
5 Can Differential Scanning Calorimeter be used to study pharmaceutical formulations?
It is used to investigate the thermal behavior of pharmaceutical compounds, including melting points, stability and interactions between active ingredients and excipients.
6 Can Differential Scanning Calorimeter be used for biodegradable material research?
It is used to study the thermal properties of biodegradable materials, helping in the development of eco-friendly materials with specific thermal behaviors.
7 Can Differential Scanning Calorimeter be used in environmental studies?
It is used to analyze the thermal properties of materials in environmental applications, such as evaluating the thermal degradation of pollutants or studying biopolymer stability.
8 Can Differential Scanning Calorimeter be used to evaluate textile materials?
It is used to analyze the thermal behavior of textile materials, including their melting points and heat resistance.
9 Can Differential Scanning Calorimeter be used to study nanocomposites?
It is used to study the thermal properties of nanocomposites, such as their melting points, glass transitions, and curing behaviors.
10 What is the role of Differential Scanning Calorimeter in studying food packaging materials?
It is used to study the thermal behavior of food packaging materials, such as their melting and crystallization points, in order to ensure that they maintain food quality and prevent spoilage.