Chemyx Syringe Pump F100T2
- Make Chemyx
- Hertz 50Hz/60Hz
- Model F100T2
- Serial 36931
- Weight 4.0 Kg
- Voltage 240V
- Warranty AS-IS
- Dimensions 32.0cm x 23.0cm x 26.0cm
- Shipping Type FedEx Ground
- Item Condition Excellent
- Manufacturing Date Does Not Apply
Product Information
Chemyx Syringe Pump F100T2 Key Features: Smooth, Pulseless Flow High Accuracy at Low Flow Rates Pumps for Automatic Calibration This Chemyx syringe pump model F100T2 is a versatile piece of laboratory equipment that offers a smooth, pulseless flow and high accuracy at low flow rates. It is engineered with advanced capabilities to pump for automatic calibration, making it a reliable tool for various applications in a laboratory setting. The syringe pump is commonly used for drug infusion, microfluidic research, and chemical analytics. Its pulseless flow ensures consistent and precise delivery of solutions, making it ideal for experiments and procedures requiring accurate dosing. With its ability to provide high accuracy at low flow rates, the F100T2 syringe pump is essential for applications involving small volumes and delicate samples. Overall, the Chemyx F100T2 is a dependable and versatile syringe pump for scientific research and experimentation.
Key Features- Smooth, Pulseless Flow
- High Accuracy at Low Flow Rates
- Pumps for Automatic Calibration
- Smooth, pulseless flow for consistent delivery
- High accuracy at low flow rates for precision dosing
- Automatic calibration feature for reliable performance
Metric: 4.0 kg
Imperial: 8.8 lbs
Metric: 9.45 cm x 5.91 cm x 4.33 cm
Imperial: 3.72 in x 2.33 in x 1.71 in
901890
Harmonized Code DetailsMedical, surgical, dental or veterinary instruments and appliances, nesoi
Testimonials
“REUZEit has been a great partner for our used equipment needs and always provide timely updates of new arrivals of consigned equipment.”
“Great company to work with. Tammy completed our first international equipment shipment with ease.”
“Fast response, open to adjusting schedule as needed, and great customer interaction.”