Differential Scanning Calorimeter LBN-SC153 is a compact, fully automatic device with a temperature range of 150℃ to 600℃. It operates using the heat flow differential scanning method for thermal analysis. Built-in safety features and intelligent software ensure precise control delivers accurate results. Equipped with a 7-inch industrial-grade touch screen display, it provides efficient access to real-time data. Our Differential Scanning Calorimeter DSC is ideal for pharmaceutical testing, food product evaluation, material characterization, and quality control in research and industrial laboratories
| Temperature Range |
-150 to 600℃ -150°CCooling Scanning (Curve Controllable) |
| Temperature Resolution | 0.001℃ |
| Temperature Accuracy | ±0.1℃ |
| Temperature Fluctuation | ±0.001℃ |
| Heating Rate | 0.1 to 80℃/min |
| DSC Range | 0 to ±600mW |
| DSC Resolution | 0.01μW |
| DSC Accuracy | 0.01mW |
| DSC Sensitivity | 0.01mW |
| DSC Noise | 0.01mW |
| Temperature Control Mode | Rising Temperature, Constant Temperature, Cooling Temperature (Fully Automatic Programmed Control) |
| Curve Scanning | Rising Scan + Cooling Scan |
| Atmosphere Control Gas | Nitrogen, Oxygen (Switch Automatically) |
| Gas Pressure | 0.2MPa |
| Gas Flow Rate | 0 to 300mL/min |
| Communication Interface | Standard USB Interface |
| Software | 4 in 1 Operating Software |
| Thermocouples | 3 Sets of Thermocouples |
| Power Supply | 220V 50Hz& 380VAC±10% 50/60Hz |
Main Machine 1 Pack
Professional Software 1 Pack
Aluminium Crucibles 100 Packs
Ceramic crucible 100 Packs
Pure Tin Particles 1 Pack
10A Fuse 5 Packs
Air Tube 2 Packs
Tweezers and Related Tools 1 Set
Data Cable 1 Pack
Power Line 1 Pack
Liquid Nitrogen Container Optional
Differential Scanning Calorimeter LBN-SC153 is ideal for analyzing oxidation induction time, crystal thermal stability, material purity and polymer curing in research and quality control applications.
Differential Scanning Calorimeter LBN-SC153 is ideal for analyzing oxidation induction time, crystal thermal stability, material purity and polymer curing in research and quality control applications.
Most Frequently Asked Questions
1. What is Differential Scanning Calorimetry (DSC)?
Ans. Differential Scanning Calorimeter (DSC) measures heat flow during thermal events like melting, crystallization, or glass transitions by comparing a sample to a reference under controlled temperature conditions.
2. How does a Differential Scanning Calorimeter work ?
Ans. Differential Scanning Calorimeter heats a sample and a reference simultaneously under a controlled temperature program. It measures the difference in heat flow required to maintain both at the same temperature.
3. What types of samples can be analyzed with Differential Scanning Calorimeter ?
Ans. Differential Scanning Calorimeter can analyze solids, liquids, gels, or powders, including polymers, pharmaceuticals, metals, ceramics, and biological materials.
4. What maintenance does a Differential Scanning Calorimeter require?
Ans. Routine cleaning of sample pans, periodic calibration, checking sensors, and ensuring proper gas flow and cooling systems are essential.
5. What are the main applications of a Differential Scanning Calorimeter?
Ans. It is Used to study melting and crystallization temperatures, glass transitions, heat capacity, reaction enthalpies, and thermal stability of materials
6. What are the benefits of using a Differential Scanning Calorimeter?
Ans. DSC Provides fast, accurate thermal analysis with high sensitivity, low sample consumption, and real-time data acquisition for efficient lab testing.
Differential Scanning Calorimeter LBN-SC153 is a compact, fully automatic device with a temperature range of 150℃ to 600℃. It operates using the heat flow differential scanning method for thermal analysis. Built-in safety features and intelligent software ensure precise control delivers accurate results. Equipped with a 7-inch industrial-grade touch screen display, it provides efficient access to real-time data. Our Differential Scanning Calorimeter DSC is ideal for pharmaceutical testing, food product evaluation, material characterization, and quality control in research and industrial laboratories
