The Double Layer Glass Reactor FM-DGR-102 features a 3-liter borosilicate vessel with a 600 ml jacket, providing efficient heating and cooling for laboratory processes. It comes with performance magnetic stirring system and intuitive digital controls. Together, they ensure reliable performance for synthesis, research, and routine lab applications. Its durable design and simple operation make it a dependable choice for both advanced and everyday laboratory use.
$2,896.00
| Glass vessel volume | 3 L |
| Jacket volume | 600 ml |
| Stirring motor power | 120 W |
| Stirring speed | 50 to 1100 rpm |
| Screen | Display Stirring speed, timer, temperature |
| Timer range | 0 to 99h59min |
| Temperature range | –80℃ to +250℃ |
| Glass vessel lid diameter | Ø205 mm |
| Temperature accuracy | ±1℃ |
| Vacuum degree | 0.098 MPa |
| Power supply | 220V/50Hz |
| Dimensions ( W × D × H ) | 450×450×1170mm |
| Weight | 26 kg |
1: Can the Double layer Glass Reactor FM-DGR-A102 handle continuous temperature cycling without affecting performance?
Yes, the borosilicate vessel and jacket are designed for repeated heating and cooling cycles, maintaining consistent temperature control and structural integrity over long-term use.
2: How can I ensure uniform mixing for viscous or high-density solutions?
The 120W stirring motor provides adjustable speed and torque, allowing even viscous solutions to be thoroughly mixed. Using the digital controls, you can fine-tune the stirring for optimal results.
3: Is the Double layer Glass Reactor FM-DGR-A102 compatible with various external circulators for heating and cooling?
Absolutely. The jacket can connect to standard external heating and cooling circulators, giving you flexibility to maintain precise temperature conditions for different experimental setups.
Double layer Glass Reactors are equipped with a borosilicate glass vessel designed for precise laboratory scale synthesis, distillation, and concentration. Their double layer jacketed structure allows efficient heating or cooling by circulating liquid, ensuring stable temperature control across a wide range of reactions. Their system supports smooth stirring under vacuum or atmospheric conditions, making them suitable for diverse chemical and pharmaceutical processes.