IST636 high-energy MIXER MIll
IST636 is upgraded version of IST600 mixer mill, with advanced options for unlimited milling time and 36 Hz oscillation rate, making it one of the highest-energy mixer mill available at the market. It comes in several colors, so it will add a nice visual upgrade to every laboratory where it is situated.
IST 636
- high-energy mixer mill with unprecedented frequency of oscillation of 36 Hz
- Mode for unlimited milling time*
- Configured for in situ monitoring by synchrotron X-ray diffraction and Raman spectroscopy
- ideal choice for pulverization of extra hard materials or performing the mechanochemical synthesis where the high kinetic energy input is needed.
- this mill can also be successfully used for disruption of biological cells, same as IST500.
- as with all advanced IST mills, it can be operated remotely, via a computer or server.
- Different colors available
GENERAL INFORMATION FOR THE IST600 MIXER MILL
- Ball mill for grinding dry, wet, hard, soft and soaked samples or materials
- Input particle size – up to 10 mm
- Particle size after grinding – < 100 nm - 3 um (depending on the material)
- Number of grinding stations – 2 (up to 4)
- Volume of grinding jars – 1-250 mL
- Grinding jars and balls materials – stainless steel, tungsten carbide, silicon nitride, zirconium oxide, aluminum,
brass, PMMA, PTFE, polyamide
- Adjustable vibration frequency – 3 to 36 Hz
- Adjustable grinding times – 30 s to 99 min
- Option for computer control for longer grinding
- Mode for unlimited grinding time*
- Power connection – 220-240 V / 50-60 Hz
- Power consumption – ca. 130 W
- Weight – ca. 23.5 kg
ADDITIONAL ADVANTAGES
- High-energy milling for demanding samples
- Configured for in situ monitoring by synchrotron X-ray diffraction and Raman spectroscopy
- Air cooled to prevent overheating of reaction vessels and the mill
- Overnight or long-term grinding
- Lowered noise level: around 67 dB during grinding
- Option of additional custom equipment:
- Adapter for 2 additional milling vessels
- Software for remote control
Scanning tunneling microscope (STM) imaging of
a coordination metal-organic sample milled for 60 minutes at 30 Hz using one stainless steel ball weighing 4 g.