CNC metal machining services for clients from Warsaw
The easiest way to obtain custom-made parts
CNC Partner provides specialized machining services for clients in Warsaw and across Poland. The workshop focuses on the precise shaping of metal components using computer-controlled machines. Its modern machine park allows for the execution of various industrial projects.
The facility handles both single parts and serial production involving thousands of components. Every order undergoes thorough quality control at each stage of execution. Precision CNC technologies ensure dimensional repeatability and high surface quality.
CNC milling services
CNC Milling is one of the most precise methods for shaping metal components. The process uses numerically controlled milling machines to remove excess material according to programmed parameters. This technology enables the creation of complex three-dimensional shapes with high dimensional accuracy.
Multi-axis machines allow simultaneous machining of multiple surfaces without the need to retool the part. Interpolated milling enables the creation of rounded edges, contoured surfaces, and elements with complex geometry. This process is especially effective in producing injection molds and components with high-quality requirements.
The facility uses three-, four-, and five-axis milling machines to carry out a variety of projects. Modern CAD/CAM systems allow for optimal tool path programming and minimize machining time. Automatic tool changing ensures continuity of the production process.
Features of CNC milling:
- High dimensional accuracy – capability to achieve tolerances up to 0.01 mm with proper process preparation
- Machining of contoured surfaces – creating complex three-dimensional geometries and shapes impossible to achieve by conventional methods
- Dimensional repeatability – identical parameters for all parts in a production series
- Capability to machine various materials – structural steel, stainless steel, aluminum, bronze, and plastics
- Process automation – minimal operator involvement and reduction of auxiliary time
- Multi-axis capability – simultaneous machining of several surfaces without the need for retooling.
CNC milling provides economical production for both single prototypes and large series of components. The technology is effective in the automotive, aerospace, medical industries, as well as in tool and equipment manufacturing.
CNC Milling Machines park
+GF+ Mikron VCE 1600 Pro
Year: 2017
Working area: 1700 x 900 x 800
+GF+ Mikron VCE 800
Year: 2015
Working area: 800 x 500 x 540
AVIA VMC 800 V
Year: 2015
Working area: 1000 x 550 x 600
AVIA VMC 650 V
Year: 2018
Working area: 800 x 550 x 600
CNC turning services
CNC Turning is a precise method of machining rotating parts using numerically controlled lathes. The process involves removing material from a rotating workpiece using cutting tools. This technology allows for the production of shafts, bushings, flanges, and other components with complex axially symmetric shapes.
Modern CNC lathes are equipped with automatic tool turrets and cooling systems. Axis interpolation enables simultaneous movement in multiple planes and the creation of conical and curved surfaces. Automatic tool changing significantly reduces the time required to complete complex projects.
The numerical control system ensures high dimensional repeatability and surface quality. CNC turning is ideal for manufacturing parts with strict accuracy requirements, such as engine components or precision shafts. The process allows machining of materials with varying hardness and mechanical properties.
Features of CNC turning:
- Precise machining of rotating parts – achieving perfect cylindrical and conical surfaces
- Automatic dimension control – continuous measurement of parameters during the machining process
- High surface quality – minimal roughness and excellent finish without additional processing
- Axis interpolation – capability to produce complex shapes and curved surfaces
- Machining of difficult-to-cut materials – effective shaping of hardened steel and special alloys
- Cost-effectiveness in mass production – low unit cost at large production volumes
CNC turning is used in manufacturing components for the machinery, automotive, and energy industries. The technology ensures timely order fulfillment while maintaining the highest quality standards.
CNC Turning Machines park
HAAS SL-30THE
Year: 2008
Through: fi 76, max turning diameter fi 482, max turning length 864
Driven tools including angle heads.
CNC grinding services
CNC Grinding is the most precise method of finishing metal surfaces using numerically controlled grinders. The process uses rotating abrasive wheels to remove microscopic layers of material and achieve exceptional surface smoothness. The technology allows for dimensional tolerances down to micrometers and surface roughness at the nanometer level.
Modern CNC grinders are equipped with automatic positioning systems and abrasive wheel wear compensation. Precise linear guides and high-speed spindles ensure process stability and repeatability of results. Cooling and filtration systems maintain optimal machining conditions.
CNC grinding is especially effective for machining parts after thermal and thermo-chemical hardening. The technology enables processing of surfaces with hardness exceeding the capabilities of other cutting methods. The process is used in the production of precision components with high operational requirements.
Features of CNC grinding:
- Highest dimensional accuracy – tolerances at the level of single micrometers
- Exceptional surface quality – Ra roughness below 0.1 micrometer
- Machining of hardened materials – effective shaping of parts after hardening
- Precise geometric shapes – cylindricity, flatness, and perpendicularity at the highest level
- Surface stress control – prevention of cracks and deformations
- Automatic dimension correction – tool wear compensation during the process
CNC grinding ensures the production of components meeting the highest standards of the aerospace, medical, and precision industries. The technology guarantees long-lasting performance of manufactured parts.
CNC Grinding Machines park
+JUNG
Work area: 2000 x 1000
Wire EDM services
Wire EDM is an advanced electrical discharge machining technology that uses a thin wire as the working electrode. The process involves generating controlled electrical discharges between the wire and the workpiece in a dielectric environment. This technology allows for cutting complex shapes from materials with high hardness, which are inaccessible to conventional machining methods.
The numerical control system manages the wire movement in three axes as well as its tension and feed rate. Automatic wire threading and dielectric filtration systems ensure continuous operation. The absence of cutting forces eliminates deformation of the workpiece and enables the production of very thin components.
Wire EDM is especially used in the production of dies, punches, and injection mold parts. The technology allows achieving surfaces of excellent quality without additional finishing. The process is also effective for cutting holes with unusual shapes and precise slots.
Features of Wire EDM:
- Machining of high-hardness materials – capability to shape hardened steels and sintered carbides
- No cutting forces – elimination of deformation and stress in the machined material
- Precise shape cutting – dimensional tolerances up to ±0.002 mm
- Excellent surface quality – surface roughness Ra below 0.5 micrometers without additional finishing
- Ability to machine thin parts – cutting without risk of breakage or deformation
- Process automation – long-term operation without operator supervision
Wire EDM provides economical production of precision components for the tooling, automotive, and electronics industries. The technology guarantees high quality and repeatability of manufactured parts.
Wire Electrical Discharge Machining WEDM Machines park
+GF+ CUT 300SP
Year: 2016
Work area: 550 x 350 x 400
+GF+ CUT 300SP
Year: 2016
Work area: 550 x 350 x 400
CNC Partner company
CNC Partner is a company based in Bydgoszcz in the Kuyavian-Pomeranian Voivodeship, formed from the merger of two firms: FPH RYBACKI and KamTechnologia. The company began operations in 1991, combining many years of experience in plastic processing with advanced CNC turning and milling technologies. The company received an innovation award at the International Gas Forum in Warsaw in 2006 and holds patents for selected products.
The scope of CNC Partner’s activities includes the production of machined parts for clients from Poland and European countries, including France, Germany, Denmark, Switzerland, and Belgium. For companies from Warsaw and the Masovian Voivodeship, the company provides comprehensive services in milling, turning, grinding, and wire EDM. The company specializes in producing small, complex metal parts with tight dimensional tolerances for industries such as aviation, railways, automotive, electronics, medical, and automation.
The company has a modern machine park and uses advanced CAM programming technologies to execute complex geometries even in difficult-to-machine materials. CNC Partner specializes in both single-piece and series production of precision components made by machining.
- Order quotations are prepared within 2 to 48 hours
- Order completion time ranges from 3 to 45 days
- Fast and secure delivery of completed orders to clients in Poland and the European Union
The company guarantees contact within 20 minutes of receiving an inquiry and ensures an individualized approach to each project. Its strategic location and developed logistics network enable efficient service for demanding clients from the Warsaw region and throughout the Masovian Voivodeship.
Fast Order Fulfillment
CNC Partner stands out in the market with a short project turnaround time while maintaining the highest quality standards. The company prepares quotes within 2 to 48 hours of receiving technical documentation. A flexible approach to production scheduling allows deadlines to be adjusted to meet customer needs.
An advanced production planning system optimizes the use of machinery and minimizes downtime. Each order receives an individual tracking number that enables real-time monitoring of progress. Automated notification systems inform customers about the next stages of production.
Fast and Secure Delivery of Completed Orders to Customers in Poland and the European Union
CNC Partner provides professional logistics services for customers throughout Poland and European Union countries. Delivery time within Poland does not exceed 48 hours from the completion of production. A strategic location in the central part of the country enables efficient access to all regions.
Larger and heavier components are delivered by specialized company transport directly to the customer’s premises. Professional packaging protects products from damage during transport. Every shipment is insured for the full value of the goods and includes a tracking number.
Quality Control and Certification
Every component produced by CNC Partner undergoes a multi-stage quality control system. Measurements are performed on the latest coordinate measuring machines and measuring devices. Quality documentation includes material certificates, measurement protocols, and inspection reports.
The company applies quality management systems compliant with international ISO standards. Regular internal audits and calibration of measuring equipment ensure result reliability. Each customer receives comprehensive documentation confirming product compliance with technical specifications.
Technical Consulting and Cost Optimization
The CNC Partner engineering team provides professional consulting during the design and production preparation stages. Analysis of construction regarding machining technology allows cost optimization and shorter turnaround times. Proposed design modifications consider technological capabilities and process economics.
Collaboration with design offices includes developing technical documentation and selecting optimal materials. Computer simulations of the machining process help eliminate potential problems before production begins. An experienced team of designers uses the latest CAD/CAM software to prepare control programs.
Regular technological reviews of ongoing projects lead to continuous process improvement and cost reduction. The company invests in research and development of new technological solutions. Cooperation with technical universities and research centers ensures access to the latest achievements in metalworking.
FAQ: Questions and Answers
Numerical control technologies enable the machining of a wide range of material groups. The most commonly processed materials include structural steels, stainless steels, aluminum, and its alloys. It is also possible to machine bronze, copper, titanium, and various special alloys.
Plastics represent another category of materials processed with CNC. These include engineering polymers such as POM, PA, PTFE, and fiber-reinforced composites. The choice of material depends on the final application of the component and the required mechanical properties.
The lead time for CNC machining orders depends on several key factors. Single components with simple geometry can be produced within 1–3 business days. Parts with complex designs require more time for programming and machining preparation.
Serial production requires additional time for tooling setup and testing of initial parts. Standard production batches are typically completed within 7 to 21 days. Urgent orders can be fulfilled in express mode with proper scheduling.
CNC milling is characterized by a stationary workpiece and a rotating multi-point cutting tool. This process allows for the creation of flat surfaces, slots, pockets, and complex 3D shapes. Multi-point cutters offer high machining efficiency at various cutting depths.
CNC turning involves rotating the workpiece while a single-point cutting tool moves along its surface. This method is used to produce cylindrical, conical, and spherical surfaces. Single-point tools provide excellent surface quality when machining rotational parts. Both processes can be performed in a single setup using modern machining centers.
CNC grinding is the most precise method for finishing metal surfaces, using rotating abrasive wheels. The process employs abrasive grains to remove microscopic layers of material. This technology enables dimensional tolerances at the micrometer level.
Grinding is primarily used for components requiring the highest dimensional accuracy and excellent surface quality. It is especially effective for machining parts after heat treatment. The process is commonly applied in the production of bearings, precision tools, and aerospace components. Computer-controlled grinders allow for automatic dimension correction during machining.
Technical documentation should include precise 2D drawings or 3D CAD models. The drawings must specify all dimensions, tolerances, and surface roughness. The material specification, along with its mechanical properties, is essential for selecting appropriate machining parameters.
CAD files should be prepared in commonly used formats such as STEP, IGES, or DWG. Additional information about the function of the part and its operational requirements supports the optimization of the manufacturing process. Complete documentation shortens the time needed to prepare a quotation and begin order fulfillment.
Wire EDM (WEDM) uses electrical discharges between the wire and the workpiece. The process exerts no mechanical force on the part, eliminating deformation. This technology allows extremely thin components to be cut without risk of damage.
Conventional machining methods rely on cutting forces, which can induce stress in the material. EDM enables the machining of materials with any hardness, including hardened steels and cemented carbides. The method is particularly suitable for producing dies, punches, and injection molds with complex shapes. Automatic wire threading ensures continuous operation with minimal operator involvement.