Machining

Range of services and production

With our modern machinery, we cover a wide range of manufacturing techniques - from classic machining to innovative additive manufacturing and complex assembly services. We place particular emphasis on precision, flexibility and sustainability in order to optimally meet your individual requirements. We see ourselves as a one-stop store and want to offer our customers the best possible service. You can rely on our expertise and commitment to successfully realize your projects.

Turning technology

Turning technology is a key manufacturing process in machining technology in which a workpiece is set in a rotating motion and machined using a stationary cutting tool. Cylindrical or rotationally symmetrical parts are predominantly manufactured here. The lathe is the main machine in this process and enables precise machining using various methods such as longitudinal turning, facing, thread turning and profile turning. Typical areas of application for turning technology include the manufacture of axles, shafts, bushes and screws in industries such as mechanical engineering, the automotive industry and precision mechanics. By using CNC (Computerized Numerical Control) lathes, turning technology can be carried out with high precision and automation, which increases the efficiency and repeatability of production.

Our possibilities

CNC hard lathes

approx. 3.00 - 50.00mm
Batch size: 1 - 200 pcs.

CNC turn-mill centers

Turning from the bar approx. 4.00mm - 80.00mm
Turning in chuck approx. 4.00mm - 300.00mm
Driven tools
Batch size: 1 - 10,000 pcs.

CNC sliding headstock lathes

Turning from the bar approx. 4.00mm - 32.00mm
Batch size: 1 - 10,000 pcs.

CNC multi-spindle lathes

approx. 4.00 - 20.00mm
Batch size: 10,000 - 100,000 pieces

Conventional lathes

approx. 2.00 - 100.00mm
Batch size: 1 - 200 pcs.

Milling technology

Milling technology is a manufacturing technology used for machining materials such as metal, plastic or wood. In milling, a multi-bladed tool, the milling cutter, rotates at high speed around its own axis while the workpiece is clamped in a defined position on the machining table. The movement of the tool in several axes/dimensions makes it possible to realize complex geometric shapes and precise surface finishes. Milling technology is used both in the production of individual parts and in series production and is used in numerous branches of industry such as mechanical engineering, the automotive industry, aerospace and mold making. Modern CNC (Computerized Numerical Control) milling machines offer a high level of accuracy and repeatability by being computer-controlled and can therefore carry out complex milling operations automatically and precisely. The further development of milling technology and the use of innovative materials and technologies continuously improve the efficiency and quality of the manufactured components.

Our possibilities

CNC machining centers

Max. component dimensions: 620 x 410 x 400mm
3 and 5 CNC axes

Conventional milling machines

Max. component dimensions: 400 x 400 x 400mm

Grinding technology

Grinding technology is a manufacturing technology used for the precise machining of workpieces. It comprises various processes in which abrasive tools such as grinding wheels are used to remove material from a workpiece and achieve the desired surface quality and dimensional accuracy. Grinding allows workpieces to be machined to very fine tolerances, which is crucial for applications in the aerospace, automotive, medical and other industries. Grinding technology can be used both for the production of new workpieces and for the reworking of already manufactured parts. It requires expertise and precise machines to achieve optimal results. Overall, grinding technology enables the production of high-quality components with precise dimensions and surfaces.

Our possibilities

Internal grinding

approx. 0.80-160.00mm

External grinding

Centerless grinding

Max. approx. 150.00mm
Batch size: 1-100,000 pieces

Between centers/in the chuck

Max. approx. 350.00mm
Batch size: 1-10,000 pieces

Surface grinding/ profile grinding

Max. 1,000.00 x 300.00 x 300.00mm

Vibratory grinding/ honing/ lapping

CNC grinding

approx. 0.80-160.00mm

EDM technology

EDM technology is a manufacturing process that is frequently used in precision manufacturing. It is based on the principle of sparkover between an electrode tool and the workpiece to be machined. In this process, material is removed by the electrical energy output of the electrode tool without there being direct contact between the tool and the workpiece. This process enables the machining of electrically conductive materials, including metals, hard metals and certain ceramics. EDM technology is used in the production of high-precision workpieces, particularly those with complex geometries or tight tolerances. It is used in various industries such as tool and mold making, aerospace and the automotive industry to produce parts with high accuracy and surface quality. With the ongoing development of EDM machines and technologies, EDM technology is continuously improving and remains an important method in modern manufacturing.

Our possibilities

CNC wire eroding

Max. Component dimensions: 450 x 550 x 400mm (LxWxH)

Sheet metal processing

Sheet metal working is a manufacturing technology that focuses on the processing of sheet metal to produce specific components or products. This process involves a variety of techniques such as cutting, bending/edging, punching, laser cutting and welding to shape the sheet metal into the desired form. First, the raw material is provided in the form of flat sheets (also known as plates) or sheets that are cut into smaller pieces depending on the requirements. This is usually followed by edging, in which the sheet metal is shaped into the desired form using pressure. Punching makes it possible to cut precise holes and contours in the material and also to carry out smaller forming operations. Laser cutting uses a high-energy laser beam to cut the sheet metal with high precision. Finally, the processed sheet metal parts can be joined together by welding to form more complex structures.

Our possibilities

Bending

Depending on the application, up to 8-axis CNC-controlled
Max. 2,500mm length

Cutting

Guillotine shears up to 3,000mm

Punching

Max. 1,500 x 3,000mm
Free-forming processes (rolls)
Embossing/engraving
Thread cutting
Punching of tabs, hooks, ventilation slots etc. (special tools)

Assembly

Assemblies/components (also provided)

Construction

We design according to your specifications and requirements

Joining processes

Welding (stainless steel / steel / aluminum)
riveting
gluing

Metrology

Sheet metal working is a manufacturing technology that focuses on the processing of sheet metal to produce specific components or products. This process involves a variety of techniques such as cutting, bending/edging, punching, laser cutting and welding to shape the sheet metal into the desired form. First, the raw material is provided in the form of flat sheets (also known as plates) or sheets that are cut into smaller pieces depending on the requirements. This is usually followed by edging, in which the sheet metal is shaped into the desired form using pressure. Punching makes it possible to cut precise holes and contours in the material and also to carry out smaller forming operations. Laser cutting uses a high-energy laser beam to cut the sheet metal with high precision. Finally, the processed sheet metal parts can be joined together by welding to form more complex structures.

Our possibilities

CNC measurement technology

Multisensor measurement technology
Optical metrology
Tactile measurement technology
Scanning metrology

Measurement automation

Pallet and bulk goods processing
AI-supported measurement sensors
Sorting according to usability
Measurement documentation

Conventional measuring technology

Outside micrometers
Calipers
Hardness testing

Services

In order to deliver a finished product as a one-stop store, it often takes more than just the machining process. We therefore also offer you a range of accompanying applications to refine the product.

It does not always make sense to map all processes "in-house". We therefore rely on a network of long-standing partners for selected processes. We will be happy to explain to you which applications this specifically concerns. Both internal and external processes are strictly monitored and regularly audited by our quality management.

Our possibilities

Hardening | Tempering

All common processes

Coating

Anodizing
Cadmium plating
Chromating | Chromiting
TiN coating
Various high-performance coatings
Corrosion protection oil (impregnation)
Powder coating

Painting

Automated drum painting
Various materials
Suitable for small parts

Labeling | Marking

Engraving (graver)
Laser marking (steel, aluminum)
Stamping (special ink)

Blasting (glass beads, sand)

With automated processing

Cleaning

Degreasing
Preservation

Challenge us!

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