Five-axis CNC milling for the whole Auralis material library — dry cutting for zirconia and polymers, wet cutting for glass ceramics and titanium, and a flagship that changes climate without stopping. From a chairside four-axis to an unattended eighteen-disc cell.
Six milling machines sit under the Auralis Mill name. Choose first by climate — dry, wet, or both — then by how much of the day you want the machine to run alone.
The flagship. Dry-mills zirconia before lunch, wet-mills lithium disilicate after — the switch is automatic: a purge-and-dry cycle clears and dries the chamber, with no draining and no wipe-down. A 60,000 rpm spindle, an 18-tool magazine and automatic ball calibration keep every margin true to the design.
Five-axis dry milling for the materials that fill a laboratory's day — zirconia, PMMA, wax and composites. No coolant to manage, no drying time to wait for: discs go in, frameworks come out ready for the furnace.
The clinic-sized wet mill. Four axes and a proprietary integrated coolant circuit in a cabinet that fits beside the chair — a PMMA or lithium disilicate crown in a typical cycle of about 19 minutes (indication-dependent), with feather-edge margins down to 0.09 mm at the machine limit; actual restoration accuracy depends on material and setup.
Dry and wet milling are not rivals — they answer to different physics. Choose by what you cut most, and let the 5X Duo cover the rest.
Pre-sintered zirconia mills like chalk and drinks no water — cutting it dry keeps the body compact, the margins crisp and the disc on the shortest path to the furnace. Polymers behave the same way: PMMA, wax, composites and PEEK cut clean and dry while extraction carries the dust away.
Glass ceramic is brittle and titanium holds heat — both need a coolant film at the cutting edge. Wet milling keeps lithium disilicate free of micro-cracks and flushes titanium chips away before they weld to the bur; the same circuit protects abutments and soft-metal work.
All six share the same CAM strategies and the same tooling ecosystem — the differences are climate, capacity and autonomy.
| Model | Axes | Process | Materials | Power | Dimensions (mm) | Weight |
|---|---|---|---|---|---|---|
| Mill 5X | 5-axis | Dry | Zirconia · composite · wax · PMMA | 1.2 kW | 530 × 650 × 750 | 145 kg |
| Mill 5X Wet | 5-axis | Wet | Lithium disilicate · zirconia · Ti abutments · soft metal | 1.5 kW | 535 × 655 × 720 | 170 kg |
| Mill 5X Duo | 5-axis | Dry / wet, auto-switch | Zirconia · PMMA · PEEK · wax · lithium disilicate · titanium | 2.5 kW | 525 × 700 × 784 | 150 kg |
| Mill 4X Chairside | 4-axis | Wet | PMMA · lithium disilicate ≤ 40 mm · prefab blanks | 1.0 kW | 525 × 390 × 540 | 85 kg |
| Mill 5X Auto | 5-axis + auto disc changer | Dry · 18-disc changer | Zirconia · PMMA · PEEK · wax | 1.8 kW | 932 × 730 × 855 | 260 kg |
| Mill 5X Metal | 5-axis | Water-cooled | Titanium · PMMA · lithium disilicate | 1.8 kW | 595 × 760 × 1,635 | 360 kg |
Special systems — 5X Duo: 60,000 rpm spindle, 18-tool magazine, automatic ball calibration, automatic purge-and-dry dry/wet switchover. 5X Auto: 18-disc changer, 12-tool changer, RFID disc recognition, remote monitoring. 4X Chairside: ≈ 19-minute cycle (typical, indication-dependent), proprietary integrated coolant circuit. 0.09 mm is a machine-capability limit; actual restoration accuracy depends on material and setup.
Installation, training and CAM strategy support are available for partner laboratories and clinics across Southeast Asia — from a single chairside unit to an unattended milling cell.