The Milling System APS can be easily fitted to the DISPERMAT® laboratory dissolver. It is filled with the appropriate quantity of millbase. The milling tool is lowered.
The milling beads are introduced whilst the milling tool is rotated slowly.
The sliding cover is lowered to seal the milling container. The millbase is then dispersed. The cover can be easily raised for taking samples during the dispersion process.
On completion of the dispersion process, the sieve sealing plug is removed and the milling container is discharged with assistance of compressed air.
|
Type |
Container volume |
Product quantity ml |
Recommended DISPERMAT® - |
Recommended milling tools |
Product quantity |
|
APS 30 |
30 |
12 |
all DISPERMAT® dissolvers |
EMS T20 |
12 ml |
|
APS 50 |
50 |
20 |
all DISPERMAT® dissolvers |
DMS 28 |
20 ml |
|
APS 125 |
125 |
50 |
all DISPERMAT® dissolvers |
EMS 30, MICRO, DMS 32 |
50 ml |
|
APS 250 |
250 |
60 - |
all DISPERMAT® dissolvers |
EMS 45, MINI, DMS 45 |
100 ml |
|
APS 500 |
500 |
110 - |
all DISPERMAT® dissolvers |
EMS 60, MC 25, DMS 60 |
200 ml |
|
APS 1000 |
1000 |
220 - |
CA 40 to 60 | FM | CN | AE |
EMS 75, DMS 70 |
400 ml |
|
APS 3000 |
3000 |
650 - |
CA 60 | FM 20 to 40 | CN 20 to 40 | AE 4, AE 6 to 11 |
EMS 90, DMS 100 |
1200 ml |
|
APS 5000 |
5000 |
1000 - |
FM 40 | CN 40 | AE 6 to 11 |
EMS 125, DMS 130 |
2000 ml |
In combination with a milling system APS the laboratory dissolver DISPERMAT® changes into a closed, discontinuously operating bead mill. The system is simply adapted to the corresponding dissolver via the dissolver shaft or the adapter flange. The DISPERMAT® can be used as a dissolver as well as a bead mill.
Convert your DISPERMAT into a vertical bead mill
| Laboratory basket mills |
| Torusmill |
| LC30 LC55 LC75 |
| CV3 |
| TU |
| CA |
| CL 54 |
| CN |
| AE |
| CDS |
| VE |
| VL |
| CC |
| R11 |
| Containers |
| Impellers |
| Doughnut effect |
| What is dispersion |
| Scale up |
| Formulation |