Hotplate Magnetic Stirrer FM-HMS-D104 offers a speed range from 50 to 1200 rpm, ensuring precise control over stirring intensity. It supports a maximum stirring capacity of 20 liters of water, making it ideal for high-volume laboratory applications. The unit features adjustable speed and time settings to accommodate various experimental needs. An integrated LCD screen display provides clear and intuitive monitoring of all operating parameters.
$1,165.00
| Speed Range | 50 to 1200 rpm |
| Max Stirring H20 Volume | 20 L |
| Timing Range | 1 to 99h59min |
| Motor Type | DC Brushless Motor |
| Power Consumption | 45W |
| Power Supply | AC100 to 240; 50 to 60 Hz |
| Standard Magneton Dimension | φ10 × 70 mm |
| Dimension (LxB) | 275 × 265 mm |
1: What makes the Hotplate Magnetic Stirrer FM-HMS-D104 suitable for high-volume laboratory applications?
The Hotplate Magnetic Stirrer FM-HMS-D104 supports a maximum stirring capacity of 20 liters of water, which makes it highly efficient for high-volume laboratory experiments. Its DC brushless motor ensures consistent stirring performance even under large sample loads.
2: How does the Hotplate Magnetic Stirrer FM-HMS-D104 ensure operational convenience during complex experiments?
The Hotplate Magnetic Stirrer FM-HMS-D104 is designed with an intuitive user interface, an integrated LCD display for clear monitoring, and an automatic memory function that recalls the last used settings, saving researchers time during repeated experiments.
3: What safety and durability features does the Hotplate Magnetic Stirrer FM-HMS-D104 include?
The Hotplate Magnetic Stirrer FM-HMS-D104 incorporates high-temperature resistant magnetic steel and an anti-slip coated disk, ensuring stable and safe operation even at prolonged use and higher temperatures, making it reliable for demanding laboratory conditions.
4: How precise is the timing and speed control of the Hotplate Magnetic Stirrer FM-HMS-D104?
The Hotplate Magnetic Stirrer FM-HMS-D104 offers a timing range from 1 minute up to 99 hours 59 minutes and a speed range of 50 to 1200 rpm, enabling researchers to conduct both short-term and long-duration stirring experiments with precise control.
