HHerzog Crushing, pulverizing and pressing machines

HHerzog Crushing, pulverizing and pressing machines

Herzog Crushing, pulverizing and pressing machines

Slag preparation involves special requirements to which we respond by wet cleaning of the pulverizing vessel, magnetic separation or blank sample dosing.

Model line:

HP-MP

The automatic machining cycle ensures extremely fast, reproducible analytical results. The space saving design with the integration of the machine components for pulverizing and pelletizing in one machine housing makes this machine ideal for laboratory environments.

HP-P

Fully automatic sample preparation for X-ray fluorescent analysis with all its advantages is made by HERZOG pulverizing mills and pellet presses in modular design. The automatic method of operation with program-controlled grinding and pressing processes achieves a clear improvement reproducibility in sample preparation and thus better analysis results.

HP-MA

Automatic emptying and residue-free cleaning of the grinding vessel-  This is the essential precondition to safeguard continuous operation -particularly in the case of successive preparations of different sampie materials.

HP M100 P

The fine grinding mill is suitable for the pulverisation of different kinds of sample material, for example silicate, cement, ceramic material, ores, sinter and slags as well as ferro alloys and various other minerals.

HSM 100 / HSM 250

The HSM 100 offers the full benefits of HERZOG vibration mills – controlled grinding processes for the preparation of samples for x – ray fluorescence analysis. Control by programmable controller results in a substantial improvement in the reproducibility of sample preparation and consequently optimum analysis results.

HTP 40 / HTP 60

HTP 40/60 pellet presses offer the full benefits of program – controlled pressing processes for the preparation of samples for x – ray fluorescence analyses. Control by programmable controller results in a substantial improvement in the reproducibility of sample preparation, and consequently optimum analysis results.