9 Videos of Fritsch
rss![]() |
You can refine your search further. Select from the filter options on the left to narrow down your results. |
Fast, gentle, reproducible size-reduction and homogenisation!
The Knife Mill PULVERISETTE 11 provides a homogeneous sample in a very short time due to its special design. Each subsample taken from any location in the grinding vessel is representative for the original sample and thus ensures an exact, significant analysis. And that for a wide range of ...
Automatic grinding bowl clamping, imbalance control and comminution down to the nano range
FRITSCH’s premium linePlanetary Ball Mills PULVERISETTE 5 and 7 can grind, alloy, mix and homogenize reliably at bowl speeds of up to 2200 rpm. They let you effortlessly grind hard, medium, soft, brittle and moist samples down to a final fineness of For both wet and dry grinding, the process is ...
Why spend twice as much? Amazingly good value particle size analyzer with software that’s fun to use
The FRITSCH ANALYSETTE 28 ImageSizer is the value-for-money champion for analyzing particle shapes and particle size distribution. The optical method of dynamic image analysis delivers results for particle sizes from 20 μm to 20 mm with a multitude of shape parameters and evaluation options. Your ...
Save money and hassle: practically maintenance-free dispersion unit without soiling, without wear
Select the Laser Particle Sizer according to your needs: either the ANALYSETTE 22 NeXT Micro for all typical measurement tasks from 0.5 - 1500 μm or the high-end instrument ANALYSETTE 22 NeXT Nano with an extra wide measuring range from 0.01 - 3800 μm for maximum precision and sensitivity even ...
Ideal for Particle Size Analysis in Production and Quality Control, Research and Development
Due to the especially wide measuring range of 0.01-2100 μm, the ANALYSETTE 22 NanoTec is the ideal, universally applicable Laser Particle Sizer for efficient dry and wet measurement of particle size distributions down into the nano range. The ANALYSETTE 22 NanoTec is ideally suited for particle ...