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CNC Machining Services
FastPreci delivers precision CNC milling, turning, grinding, EDM and wire EDM services with fast turnaround and tight tolerance control — all from our own factory.
Precision CNC machining is a computer-controlled manufacturing process used to produce custum parts with exceptional accuracy and repeatable quality. It’s a subtractive process, where a solid block of metal or plastic is precisely cut away by high-speed tools to achieve the desired geometry.
This method is ideal for components that demand tight tolerances, complex geometries, or both — ensuring that every part fits and functions perfectly within an assembly. Precision CNC machining delivers the consistency, surface finish, and dimensional stability required for high-performance applications.
Get factory-direct CNC machining services with rapid prototyping, tight tolerances, and responsive engineering support. Partner with FastPreci — where precision meets speed.
FastPreci delivers custom CNC milling for metals and plastics, meeting exact performance and dimensional needs across aerospace, medical, robotics, automotive, and electronics industries.
FastPreci’s CNC turning online ensure high precision and repeatability across complex geometries and production volumes using horizontal, vertical, and mill-turn centers.
FastPreci provides precision CNC grinding for ultra-high accuracy and fine surface finishes in critical components.
Our EDM and Wire EDM (WEDM) services precisely machine parts with intricate features, tight tolerances, and hard-to-machine materials.
At FastPreci, we support your CNC machining project through every stage — from early concept validation to final mass production.
Quickly turn your designs into functional prototypes for form, fit, and basic performance testing.
Verify engineering performance and material properties under real conditions.
Validate appearance, assembly, and manufacturability with production-intent parts.
Ensure consistent quality and efficiency before full-scale production.
Move seamlessly into stable, repeatable production with full traceability.
FastPreci offers a wide range of engineering-grade materials for precision CNC machining, including metals, plastics, ceramics, and composites. Our engineers can recommend the optimal option based on your design, tolerance, and end-use requirements.
Metals are the foundation of CNC machining, ideal for structural strength, heat resistance, and dimensional stability. FastPreci machines both common and high-performance alloys with micron-level precision.
Aluminum Alloy is widely used in CNC machining for its light weight, high strength and corrosion resistance. It’s ideal for precision machining and complex geometries, widely used in aerospace, automotive, electronics, and medical industries.
Stainless Steel Alloy offers excellent corrosion resistance, strength, and heat tolerance, making it ideal for CNC machining of medical devices, food equipment, automotive parts, and structural components.
Brass Alloy offers excellent corrosion resistance and conductivity, making it ideal for CNC machined parts like fittings, connectors, and decorative components. It’s easy to machine, antibacterial, and has a smooth golden finish.
Titanium Alloy offers exceptional strength-to-weight ratio, corrosion and heat resistance, and biocompatibility. It’s ideal for CNC machining of lightweight, high-performance parts in aerospace, medical, and automotive applications.
Plastic materials offer versatility, electrical insulation, and chemical resistance — ideal for lightweight, functional prototypes or end-use components.
POM (Polyoxymethylene), also known as acetal or Delrin, is a strong, low-friction plastic ideal for CNC machining precision parts like gears, bearings, and valves.
PTFE (Teflon) is a high-performance plastic known for its chemical resistance, low friction, and high-temperature stability, making it ideal for CNC machined seals, gaskets, and lab components.
PEEK (Polyether Ether Ketone) is an engineering plastic with exceptional strength, chemical resistance, and heat tolerance up to 260°C, ideal for CNC machined aerospace, medical, and automotive parts.
Technical ceramics deliver exceptional hardness, wear resistance, and thermal stability — ideal for demanding applications requiring electrical insulation or precision in harsh environments.
Zirconia (ZrO₂) offers high toughness, hardness, and wear resistance, ideal for CNC machining precision parts. Its chemical stability and thermal insulation suit medical, aerospace, and automotive uses like dental implants, seals, and cutting tools.
Aluminum oxide (Al₂O₃) offers high hardness, strength, and wear resistance, ideal for CNC machined electronic, mechanical, and medical parts. Its insulation and heat resistance to 1500°C ensure stable performance in electronics and aerospace.
Composite materials combine the best of strength, weight reduction, and vibration damping — perfect for aerospace, robotics, and performance equipment.
Carbon fiber (CFRP) is a lightweight, high-strength composite ideal for CNC machining in aerospace, automotive, and electronics. It offers excellent rigidity, corrosion and heat resistance for precision and lightweight applications.
Glass fiber (GFRP) is a lightweight, strong composite with excellent corrosion resistance and insulation. Ideal for CNC machined housings, insulators, and structural parts, it offers high impact and thermal resistance when reinforced with epoxy or phenolic resins.
FastPreci offers functional surface finishing to enhance appearance, durability, and performance of CNC machined parts — meeting functional and aesthetic needs across industries.
| Surface Finish Option | Process Description | Typical Applications / Benefits |
| Polishing | A mechanical process using abrasive compounds to achieve a high-gloss finish. | Used in applications requiring aesthetic appeal, such as medical devices and consumer products. |
| Sandblasting / Bead Blasting | A blasting process that propels fine media to produce a uniform matte or textured surface. | Ideal for uniform, non-reflective textures that improve coating adhesion or visual appeal. Common in automotive and aerospace. |
| Anodizing | An electrochemical process that increases the thickness of the natural oxide layer on the surface of aluminum. | Common in aerospace, automotive, and electronics for corrosion resistance, durability, and aesthetic appeal. |
| Electroplating | A process that uses an electric current to deposit a layer of metal (e.g., nickel, chrome) onto the part surface. | Often used for corrosion resistance, wear resistance, or appearance. Common in automotive and electronic industries. |
| Coating (Powder Coating, PVD) | Application of a thin, protective coating to enhance durability and aesthetic properties. | Used to protect parts from corrosion and wear while providing a durable finish. Common in automotive, electronics, and aerospace. |
| Heat Treatment | A process of heating and cooling metals to alter their physical properties. Can improve surface hardness. | Used for parts requiring increased hardness, strength, and wear resistance, such as gears, shafts, and cutting tools. |
| Passivation | Chemical removal of free iron from stainless steel surfaces. | Enhances corrosion resistance, especially for medical and food-grade parts. |
The table below outlines the typical dimensional tolerances achievable by common CNC machining processes under standard production conditions.
| Machining Process | Typical Tolerance | Surface Roughness | Typical Applications |
| CNC Milling | ±0.01 – ±0.02 mm | 1.6 – 3.2 μm | High geometric freedom, versatile for complex prismatic features |
| CNC Turning | ±0.005 – ±0.01 mm | 0.8 – 1.6 μm | Rotational parts with good control of roundness and concentricity |
| CNC Grinding | ±0.002 – ±0.005 mm | 0.2 – 0.8 μm | High-precision dimensions, flat surfaces and external diameters |
| EDM (Sinker EDM) | ±0.003 – ±0.005 mm | 0.8 – 1.6 μm | Complex cavities, deep features, and hardened materials |
| WEDM (Wire EDM) | ±0.001 – ±0.003 mm | 0.2 – 0.6 μm | High-precision contours, fine details, and micro features |
Note: Values shown are typical industry ranges under stable production conditions. Actual tolerances depend on part geometry, material, and machining strategy.
Every CNC machined part at FastPreci is verified through a complete metrology and inspection process — from dimensional measurement to surface and material validation — ensuring accuracy, consistency, and full compliance with your drawings.
| Category | Capabilities & Equipment |
| Dimensional Accuracy | Coordinate Measuring Machines (CMM), 2D measuring instruments, height gauges, micrometers, calipers |
| Geometric & Surface Validation | Thread gauges, pin gauges, block gauges, surface roughness testers |
| Material & Composition Analysis | XRF (X-ray Fluorescence Spectrometer) for alloy and coating verification |
| Documentation & Traceability | CMM inspection reports, material certificates (CoC / MTR), and complete dimensional data for every part |
FastPreci provides precision CNC machining services for demanding sectors such as aerospace, medical device, robotics, automotive, and electronics. With advanced multi-axis milling and turning, we produce custom parts with tight tolerances and complex geometries. Here are the key industries we serve:
FastPreci’s CNC machining supports robotics with high-precision, lightweight and strong parts that enable smooth motion, durability, and reliable performance in robotic systems.
Joint components, Servo motor shafts & housings, End-effectors, Precision gears
FastPreci machines high-precision, contamination-free medical parts using biocompatible materials and strict quality control, meeting stringent industry standards.
Orthopedic implants, Surgical instrument parts, Diagnostic device enclosures, Bone screws, Miniature components
CNC machining for aerospace delivers high-precision, lightweight, and structurally reliable components for flight-critical and mission-critical applications, supporting both prototyping and qualified production.
Structural brackets, Turbine blades, Optical mounts, Precision shafts, Interface components
CNC machining provides compact, precise, and visually refined parts for consumer and industrial electronics, ensuring tight fits, surface quality, and efficient thermal performance.
Phone housings, Laptop chassis, Camera brackets, Cooling modules
CNC machining powers automation with precision components that support motion systems, actuators, robotic interfaces and conveyor assemblies — from rapid prototyping to production.
Sensor brackets, Actuator housings, Mounting plates, Shafts, Couplings, Bearing seats
CNC machining powers the renewable energy sector with precision parts for batteries, solar, and hydrogen systems, delivering durable, corrosion-resistant components like housings, valves, and impellers for reliable performance.
Battery modules, Cooling plates, Power enclosures, Energy converter brackets, Valve bodies
Dimensionally stable parts for continuous operation
Corrosion-resistant materials for harsh environments
Efficient support from prototyping to small-batch production
Precision CNC machining for semiconductor meets ultra-tight tolerances and cleanliness needs for components used in wafer handling, alignment systems, and precision stages.
Wafer clamps, Alignment stages, Gas manifolds, Cooling plates, Shielding covers, Calibration parts
Ultra-tight tolerances (±0.005 mm) for critical alignment
Clean, burr-free surfaces for contamination-sensitive systems
Material & process guidance for vacuum and thermal stability
FastPreci CNC machining delivers robust, high-precision automotive parts with consistent quality and shorter lead times — from prototypes to production runs.
Engine components, Transmission parts, Cylinder heads, Sensor mounts, Intake manifolds
Tight tolerances for performance and reliability
High-strength materials for dynamic loads
Fast prototyping combined with scalable production
Industry: Aerospace
Material: Aluminum 7075-T6
Quantity: 1 pc
The project required a thin-profile support ring with a precise inner diameter and multiple hole positions that had to align perfectly during assembly.
FastPreci applied a rigid fixturing method and controlled milling sequences to avoid deformation in the thin-wall regions. All hole diameters and positions were machined to ISO 2768-f tolerance levels, and CMM inspection verified concentricity, bolt-circle accuracy, and overall flatness.
“Great communication throughout, fast service, quality product and a great price.”
— Michael, United Kingdom
We are committed to upholding the highest industry standards. To ensure quality and excellence, we have proactively obtained renowned certifications from trusted organizations.
Lead time as fast as 3 days, accelerating your R&D and production progress, easily meet tight deadlines.
Tolerances as tight as 0.005mm, rich experience with advanced 5-axis CNC machines, mill-turn machines, and precision grinding machines, meets a variety of tolerance requirements.
According to your functionality and quantity requirements, develop the optimal manufacturing process, combined with efficient self-owned factories to achieve optimal performance and cost.
From CNC machining to aluminum extrusion and heat treatment to surface finishing, from prototyping to mass production, easily and efficiently customize various parts.
ISO 9001 quality management system certification, equipped with various quality inspection instruments including Zeiss coordinate, process and results can be controlled.
Our engineers collaborate from the start — optimizing designs for manufacturability, improving strength-to-weight ratios, and reducing cost through smarter machining strategies.