OMGM carries out milling machining to drawing for machinery and industrial equipment where high structural rigidity, precise dimensional accuracy and long-term functional reliability are essential.
Milling machining activities include the manufacture of fixing plates, support plates, machine bases, frames and complex milled components, used as functional and structural elements within mechanical assemblies.
Milling machining consists of chip-removal processes carried out using rotating cutting tools to produce flat surfaces, slots, seats, complex profiles, and three-dimensional geometries with high precision.
By advanced CNC technology, our milling machining ensures tight tolerances, controlled flatness, and functional surfaces ready for assembly.
Thanks to an advanced CNC machinery, OMGM Group manufactures custom milled components for a wide range of mechanical engineering applications.
Typical components include:
The components manufactured through our milling machining integrate accurately into final assemblies, improving the overall service life, accuracy and reliability.
Milling machining is carried out on materials selected according to technical requirements:
1
CARBON STEEL
for load-bearing components and machine bases
2
STAINLESS STEEL
for corrosive environments and applications with high hygienic requirements
3
ALUMINIUM
for lightweight and easily machinable partd
4
CAST IRON
selected for its dimensional stability and vibration damping features.
The CNC milling machining process starts with analysis of the technical drawing and definition of the most suitable machining strategies.
Machining is performed on CNC machining centres with 3-, 4- and 5-axis technology, enabling:
Where required, heat and surface treatments are applied to improve wear resistance and service life. Dimensional inspection is carried out using advanced metrological equipment to verify compliance with technical specifications.
PARAMETER
Machinable diameters
Max. weight
Materials
Geometric tolerances
CAPACITY / DETAILS
Large plates and machine structural bodies
1t
Carbon steel, stainless steel, aluminium, cast iron
Down to 5 µm
PARAMETER
Machining
Finishes
Dimensional
inspections
Production batches
CAPACITY / DETAILS
CNC milling machining (3, 4 and 5 axes), drilling, tapping
Roughness Ra ≤ 1.6 µm
EN 10204 3.1 material certificates, 3D dimensional inspection, FAIR
Single components and small batches up to 50 pieces
OMGM milling machining is used in industrial sectors where mechanical components must meet strict requirements in terms of precision, load capacity and long-term dimensional stability.
Used in tool change systems, feed units, internal handling and positioning mechanisms, where maximum accuracy and repeatability are required.
The main application sector for mechanical cams. They are essential for synchronised motion, continuous high-speed cycles, pick-and-place systems, dosing units and complex movements typical of automatic machinery.
Applied in blister machines, dosing equipment, sterile packaging lines and high-cleanliness automatic systems, where controlled and consistent motion is critical for the end product quality.
Employed in assembly systems, automated production lines, test benches and mechanisms requiring programmed motion and high resistance to wear.
Depending on component geometry and technical requirements, milling machining may involve face milling, peripheral milling, pocket milling and multi-axis machining. CNC milling with 3, 4 and 5 axes enable complex geometries to be machined while reducing re-clamping operations and improving final component quality.
CNC milling machines allow flat surfaces, slots, mating surfaces, complex component geometries and multi-sided machining operations. Typical applications include fixing plates, support plates, machine bases and precision milled components for industrial systems.
OMGM milling machining delivers high precision, certified quality, fully traceable materials and complete manufacturing to customer drawings. Advanced CNC machining centres and accurate dimensional inspection ensure reliability, repeatability and precise integration of components into complex mechanical assemblies.
