Milling, Turning
The combination of CNC production with versatile conventional methods of processing is the key to unimagined flexibility. In this way, the highly precise single part for the aerospace industry can be produced as economically as a small batch in lots up to about 200 pieces, for example for medical technology and precision engineering.
Measures of the parts in the fields of milling:
From | about 5 mm |
up to | 800x700x500 mm (5-axes processing) |
respectively | 1.000x630x550 mm (3-axes processing) |
Measures of the parts in the field of turning:
In the collet chuck: | |
from | ∅ 1 mm |
to | ∅ 25 mm |
(no turned parts made on sliding head lathes) |
In the jaw chuck: | |
from | ∅ 6 mm |
to | ∅ 65 mm (Stangendurchlass) |
respectively | ∅ 500 mm (chuck parts) |
Thereby, we put great emphasis on the latest machine technology of renowned German manufacturers. Only in this way the typical Freyer precision is made possible.
Shaping of sheet steel
On requirement, we produce sheet metal parts which have to be adjusted to milling- or turning parts, or single parts which cannot be processed economically by a typical sheet metal manufacturer due to the demanded precision.
Measures: | |
Sheet metal thickness: | |
from | 0,1 mm |
to | ca. 3 mm |
Folding length: | |
up to | 1.000 mm |
External cylindrical grinding
Turnparts which cannot be turned to the required measures due to the needed precision or surface quality are cylindrically grinded by one of our partners, centerless or between centers, depending on the part.
Wire cut EDM and die finishing
If eroding works are necessary, additionally to turning or milling, we can rely on efficient and very trustworthy partners who are specialized in these processes. This applies to wire-cut EDM as well as to die finishing.
Measures: | |
Wire-cut EDM: | |
max. | 105 mm high |
(larger hights on request) | |
Die finishing: | |
Very much dependent on the part (on request) |
Fine finishing
Especially in the field of aerospace, processing by means of customary machines very often reaches its limits: In case of very high requirements concerning tolerances or surface qualities, special methods of processing are in demand. The possibilities reach from grinding to lapping up to manual fine finishing.
Laser cutting and waterjet cutting
For the production of sheet metal parts and pre-tapping of milling contours, we revert to laser cutting as well as to waterjet cutting. We use efficient and reliable partners for both methods.
Fixture construction
High value assembly- and test devices, as well as MGSE on customers´ requirements are created in our Fixture Construction. We are very flexible in regard of specifications: On one hand, we produce on the basis of your finished constructions. But, of course, we also design for you. And you will also receive your required fixture based on rough sketches and sample parts. We would also like to equip your fixation with pneumatics or an additional control.
Meassuring
To prove our high quality standards continuously, comprehensive measuring- and test facilities are available. Our flagship is a coordinate measuring machine ZEISS CONTURA G2.
Procedural area: | up to max. 1,200x1,000x500 mm |
Measuring probe | swivel head VAST XXT |
On requirement, your product will be delivered with the complete documentation, e.g. measurement report, initial sample test report etc.
Range of materials
The list of materials processed by us is very extensive. Due to our very well networked Purchase that can revert to many sources, we have the possibility to supply versatile materials.
Examples of materials: | |
Aerospace | |
Aluminium alloys | e.g. EN AW-7075/7175 (3.4364) |
Stainless steels | e.g. 1.4301, 1.4548 or 1.4944 |
Titanium alloys | e.g. TiAl6V4 (3.7164) |
Plastics | e.g. PTFE (Teflon), Vespel SP-1, PEEK |
Copper | e.g. SF-Cu |
Ceramics | processible machining ceramics, e.g. MACOR® |
Medical technology | |
Hardening stainless steels | e.g. 1.4021, 1.4057, 1.4542 (17-4PH) |
Titanium alloys | e.g. TiAl6V4 (3.7165) |
Plastics | e.g. POM, PEEK, PPSU, PP HTMT |
Precision engineering | |
Aluminium and steel | all conventional alloys |
Stainless steels | e.g. 1.4301, 1.4401 |
Non-ferrous metals | e.g. brass, copper |
Plastics | e.g. POM, PP, PA, PEEK |