Double Layer Glass Reactor FM-DGR-A100 is equipped with a 1 L borosilicate glass vessel designed for precise laboratory-scale synthesis, distillation, and concentration. Its double layer jacketed structure allows efficient heating or cooling by circulating liquid. This ensures stable temperature control across a wide range of reactions. The system supports smooth stirring under vacuum or atmospheric conditions. It is suitable for diverse chemical and pharmaceutical processes.
$2,991.00
| Glass Vessel Volume | 1 L |
| Jacket Volume | 200 Ml |
| Stirring Speed | 50 to 1100 rpm |
| Stirring Motor Power | 60 W |
| Timer Range | 0 to 99 h 59 min |
| Screen | Display stirring speed, timer, temperature |
| Temperature Range | -80°C to +250°C |
| Temperature Accuracy | ±1°C |
| Vacuum Degree | 0.098 MPa |
| Glass Vessel Lid Diameter | Ø150 mm |
| Power Supply | 220V / 50Hz |
| Dimensions (W×D×H) | 450 × 450 × 1050 mm |
| Weight | 17.5 kg |
1: What is the maximum vacuum and temperature range supported?
The Double layer Glass Reactor FM-DGR-A100 operates between -80°C and +250°C and can achieve up to 0.098 MPa vacuum, allowing efficient heating, cooling, and solvent removal under reduced pressure.
2: What type of glass is used in the vessel and why?
The Double layer Glass Reactor FM-DGR-A100 uses borosilicate glass, known for its chemical resistance and ability to withstand high and low temperatures without cracking, making it safe for diverse laboratory reactions.
3: Can the Glass Reactor FM-DGR-A100 support additional laboratory accessories?
Yes, the wide-lid design with multiple ports allows easy connection of condensers, dosing funnels, sensors, and gas inlets, making it adaptable for different research needs.
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.