MAGD18 — Magnetic Stirrer with Glass Nano Ceramic Hotplate · 184×184 mm
MAGD18 magnetic stirrer with hotplate for high-temperature laboratory applications
MAGD18 magnetic stirrer with hotplate is engineered for laboratories that require stable high-temperature heating combined with precise magnetic mixing. Designed for research laboratories, chemical synthesis, material testing and advanced sample preparation, this laboratory magnetic stirrer with heating delivers controlled thermal performance up to 550°C.
The MAGD18 magnetic stirrer with hotplate integrates PID temperature control with Pt1000 A-class sensing, ensuring reliable temperature regulation whether monitoring plate surface temperature or liquid temperature through an external probe. This makes the system suitable for reproducible laboratory workflows where temperature stability and accuracy are critical parameters.
As a professional laboratory hotplate stirrer, MAGD18 provides a stirring speed range of 100–1500 rpm and supports mixing volumes up to 20 liters (H₂O). The brushless DC motor ensures stable torque across the entire speed range, while the glass nano-ceramic hotplate guarantees chemical resistance and uniform heat distribution.
For high-temperature applications, the MAGD18 magnetic stirrer with hotplate 550°C offers a defined safety temperature limit and visual hot warning indicator. Even after switching off the instrument, the hot surface indicator remains active to prevent accidental contact. This safety logic is particularly important in academic, R&D and industrial laboratory environments.
Compared with standard magnetic stirrers, the 550°C hotplate stirrer configuration allows users to perform demanding thermal reactions, solvent evaporation procedures, digestion processes and heating under reflux conditions. The PID auto-tuning function optimizes heating behavior depending on vessel type, volume and environmental conditions.
The MAGD18 magnetic stirrer with hotplate also supports RS232 communication for PC connectivity (configuration dependent), enabling parameter visualization and experiment process documentation. For laboratories that value digital traceability and process monitoring, this feature enhances workflow transparency.
Whether used in chemistry laboratories, pharmaceutical development units, materials science research or educational institutions, this glass ceramic hotplate stirrer combines mechanical durability, thermal precision and user-oriented safety features. The 184×184 mm working plate provides sufficient surface area for common laboratory vessels while maintaining compact bench dimensions.
In summary, the MAGD18 magnetic stirrer with hotplate represents a high-temperature laboratory stirring solution designed for controlled heating, stable mixing performance and long-term operational reliability within professional laboratory environments.
Overview: high-temperature magnetic stirring with nano-ceramic hotplate
MAGD18 magnetic stirrer with heating is designed for quantitative, high-temperature stirring with a maximum hotplate temperature up to 550°C.
The white glass nano-ceramic plate (184×184 mm) is engineered for chemical resistance and stable heat transfer, while the brushless DC motor provides reliable mixing across the 100–1500 rpm range.
Connectivity: via RS232 the instrument can be connected to PC software to display parameters and record the experiment process (configuration dependent).
Temperature control: PID regulation with Pt1000 A-class sensing
- RT to 550°C hotplate range for demanding heating + stirring workflows.
- PID temperature regulation (plate or external liquid temperature control concept) using Pt1000 A-class sensing.
- Control accuracy (plate): referenced ±0.1°C; with temperature sensor: referenced ±0.2°C.
- Auto-tuning function to optimize heating and stirring performance for the current setup.
- Temperature setting step: 1°C.
Key features: safety, readability, capacity, and lab practicality
- Large LCD display with backlight for easy reading of set/actual values (speed + temperature).
- Powerful mixing: up to 20 L (H₂O), one mixing position.
- Stir bar compatibility: referenced max stirrer size 80 mm (magnet size 80×10 mm).
- Safety hot indicator (hot display) remains active even when the device is switched off.
- Support rod mounting possible on the left or right side; support rod + clamp included (per documentation).
- Housing designed for lab durability; bulk orders may allow color selection (per documentation).
COLO.SCIENCE KNOWLEDGE
Magnetic stirring with heating: plate materials, probes, and safe high-temperature workflows
Practical guidance for selecting hotplate stirrers: nano-ceramic vs metal plates, PID control with external probes, mixing capacity logic, and safety habits when working at elevated temperatures.
Technical data: working plate, speed, temperature, power and dimensions
| Model | MAGD18 Magnetic Stirrer with Glass Nano Ceramic Hotplate |
| Working plate size | 184 × 184 mm |
| Work plate material | Glass nano-ceramic hotplate (white) (per documentation) |
| Temperature range | Room temperature to 550°C |
| Temperature control accuracy | ±0.1°C (referenced) |
| Accuracy with temperature sensor | ±0.2°C (referenced) |
| Configuring sensors | PT1000 |
| Rotation speed range | 100–1500 rpm |
| Max. stirring capacity (H₂O) | 20 L |
| Timing range | 99 h 59 min |
| Motor input/output power | 24 V / 30 W (referenced) |
| Heating power | 1000 W |
| Rated capacity | 1050 W |
| Input power supply | 200–240 V AC, 50/60 Hz |
| IP code | IP 21 |
| Safety temperature | 580°C |
| Dimensions (W×D×H) | 215 × 360 × 112 mm |
| Weight | 5.3 kg |
Standard delivery & configuration notes
- MAGD18 hotplate magnetic stirrer (1 set)
- Support rod and clamp (per documentation)
- EU plug (per documentation)
- Ambient conditions: allowed ambient temperature referenced 5–40°C.
- Note: if the instrument configuration does not match your application needs, COLO engineering can propose technical solutions; specifications may change without notice (per documentation).
Technical configuration notice
MAGD18 specifications, included components and software/communication functions are defined by the official quotation and accompanying technical documentation.
Information presented on this website is for general reference and may be subject to change without prior notice.
