arthurliao@ucanrobot.com
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No matter producing our own equipment for PCB drill bits or providing high-precision machining service or focusing on high-precision grinding of spindle parts, a heavy investment in high-end machining equipment is absolutely an initial step. Besides running a large number of middle-level machining equipment imported from Japan, Taiwan and EU, UCAN ROBOT is also running a lot of top-tier high-end machining equipment from Japan, Germany, Switzerland and Taiwan. Going along with expanding the production base, we are continuing to purchase and install more high-end machines. Another batch of DMG MORI, Mazak…machines will reach our factory in March and June 2026. Keep moving!
High-end Machining Equipment
Sodick Slow-Wire EDM Machine
o matter producing our own equipment for PCB drill bits or providing high-precision machining service or focusing on high-precision grinding of spindle parts, a heavy investment in high-end machining equipment is absolutely an initial step
Seibu Slow-Wire EDM Machine
o matter producing our own equipment for PCB drill bits or providing high-precision machining service or focusing on high-precision grinding of spindle parts, a heavy investment in high-end machining equipment is absolutely an initial step
Seibu Medium-Wire EDM Machine
o matter producing our own equipment for PCB drill bits or providing high-precision machining service or focusing on high-precision grinding of spindle parts, a heavy investment in high-end machining equipment is absolutely an initial step
High Precision Machining Services
High precision CNC Machining
Delivers micron-level accuracy for complex metal and plastic components across aerospace, medical, and automation industries
Small and Miniature Parts CNC Machining
Specializes in ultra-compact, high-tolerance parts as small as a few millimeters – ideal for medical devices and micro-electronics
CNC Lathe
Efficiently produces rotationally symmetric parts with tight tolerances and excellent surface finishes using advanced turning centers
Shaft & Disc Parts CNC Machining
Optimized for high-volume production of precision shafts and discs used in motors, transmissions, and industrial machinery
Complex Shapes CNC Machining
Handles intricate geometries with multi-axis strategies, ensuring repeatability and dimensional fidelity for challenging designs
5-axis CNC Machining
Machines complex 3D contours in a single setup, reducing errors and lead times while achieving superior surface quality
CNC Turning
Provides high-speed, high-accuracy turning for cylindrical parts – from prototypes to mass production – with minimal human intervention
CNC Milling
Offers versatile 3-, 4-, and 5-axis milling for flat, contoured, or pocketed components in a wide range of engineering materials
CNC Turn-Mill Machining
Combines turning and milling in one machine for complete part processing – reducing handling, improving accuracy, and cutting cycle time
CNC Grinding
Achieves sub-micron surface finishes and geometric precision on hardened or delicate components using automated grinding systems
Electrical Discharge Machining (EDM)
Machines hard metals and intricate cavities with zero contact, ideal for molds, dies, and fine internal features unreachable by cutters
Wire Cut
Uses a thin charged wire to cut conductive materials with extreme precision – perfect for sharp corners, tapers, and fine slots
Swiss Turning
Excels at long, slender parts with tight tolerances using sliding-headstock lathes – ensuring stability and concentricity in one operation
Precision Grinding
Guarantees dimensional stability and mirror-like finishes on critical surfaces through controlled, high-accuracy grinding processes
Cylindrical Grinding
Specializes in external surface finishing of cylindrical workpieces such as pins, rods, and bushings to exacting roundness specs
OD Grinding
Delivers consistent outer diameter accuracy and smooth finishes on shafts, rollers, and other rotational components.
ID Grinding
Machines precise internal diameters in bores and holes – even in deep or narrow cavities – with exceptional concentricity
Centerless Grinding
Enables high-throughput, high-precision grinding of small cylindrical parts without center mounting – ideal for mass production
Flat Grinding
Produces perfectly parallel, flat surfaces on blocks, plates, and tooling components with tight thickness tolerances
Surface Finishing
Enhances part functionality and appearance through deburring, polishing, anodizing, plating, and other post-machining treatments
Rapid Prototyping
Accelerates product development with fast-turn functional prototypes using CNC, 3D printing, and vacuum casting techniques
Stamping Processing
High-speed, high-precision metal stamping for sheet metal components – from simple brackets to complex automotive parts
Die Casting
Produces near-net-shape aluminum or zinc parts with excellent dimensional consistency and surface detail for high-volume runs
Vaccum Casting
Creates small batches of urethane parts with production-grade properties – ideal for pre-series validation and market testing
Injection Molding
Delivers high-quality plastic components with tight tolerances, complex textures, and consistent cycle times for end-use applications
3D Printing
Offers industrial-grade additive manufacturing (SLA, SLS, FDM, MJF) for rapid, complex, or lightweight geometries in engineering resins and polymers
High-end Inspection Instruments For Precision Machining
UK LK Coordinate Measuring Machine (CMM)
As an expert of high-precision machining, we must give strong confidence to our clients. Quality control is not an empty word or even a complete quality control system
High-precision Machining
At its core, UCAN ROBOT is not just a precision machining vendor but a vertically integrated solutions provider whose machining services form the foundational layer of a much larger intelligent manufacturing architecture. The company offers a comprehensive spectrum of 30 high-precision machining capabilities, spanning from conventional CNC turning and milling to advanced processes like 5-axis simultaneous machining, Swiss-type micro-turning, wire EDM, and superfinishing via centerless and OD/ID grinding. Critically, these services are not isolated competencies – they are interconnected nodes in a digitally orchestrated production network, designed to support everything from rapid prototyping of medical micro-components to mass production of aerospace-grade spindles and semiconductor tooling.
Provide professional pre-production suggestions on choosing proper materials
| Work Condition Requirement | Recommended Solution | Common Performance Indicators | Application Scenarios |
|---|---|---|---|
| High cost-effectiveness, general use | 45 Steel + Tempering | 230–260 HBS | General transmission shafts |
| Heavy load, high strength | 40Cr + Tempering / Quenching | 35–42 HRC | Gear shafts, heavy machinery |
| High wear resistance | 3Cr13 + Vacuum Nitriding | 42–48 HRC | Spindle housing, machine casings |
| High speed, impact, wear resistance | 20CrMnTi + Carbonitriding 38CrMoAl + Nitriding | Surface hardness: 58–63 HRC | Machine spindles, gearbox shafts, camshafts |
| Ultra-high hardness, precision | CrWMn | 50–56 HRC | Precision lead screws, measuring shafts |
| Lightweight, high-strength, fatigue-resistant | 6000/7000 series aluminum alloy + Anodizing | 140–160 HB | Aerospace components, precision 3C products |
What distinguishes UCAN ROBOT’s machining portfolio is its dual-axis specialization: extreme miniaturization and extreme precision. The ability to machine parts as small as Φ0.1 mm with micron-level tolerances – coupled with surface finishes down to Ra0.2 μm – reflects a mastery of both mechanical stability and process control. This is evident in services like Swiss Turning, Micro-CNC Machining, and Precision Cylindrical Grinding, which cater to industries where failure is not an option: implantable medical devices, optical connectors, drone propulsion systems, and high-frequency PCB drilling tools. Moreover, UCAN ROBOT extends beyond metal removal: through injection molding, die casting, vacuum casting, and industrial 3D printing, they offer hybrid manufacturing pathways that blend subtractive and additive logic – enabling clients to move seamlessly from prototype to volume production without switching partners or compromising design intent.
The true insight lies in recognizing that UCAN ROBOT’s machining services are deliberately aligned with their proprietary equipment development. For example, the same ultra-precise DTGM5210 5-axis tool grinder used internally to manufacture cutting tools also ensures that every end mill or drill bit produced for external customers meets nanometer-level geometric accuracy. Similarly, the DTMS1100 automatic measuring instrument validates raw stock before machining, while the DTVM1100 defect detector inspects finished tools – closing the loop between production and quality assurance. This vertical integration means UCAN ROBOT doesn’t just use advanced machinery; it designs, builds, and optimizes the very machines that define its competitive edge. As a result, their machining services benefit from first-hand process knowledge, real-time feedback loops, and continuous in-house innovation – a rarity among contract manufacturers.
Ultimately, UCAN ROBOT’s machining capabilities represent more than technical breadth – they embody a systems-thinking approach to modern manufacturing. By unifying material science, motion control, metrology, and automation under one roof, the company delivers not just parts, but predictable performance, traceable quality, and scalable reliability. In an era where supply chain resilience and process transparency are paramount, UCAN ROBOT’s integrated model offers global clients a rare combination: the agility of a job shop with the rigor of a Tier-1 industrial partner. Their machining services, therefore, are not merely a catalog of options – but a strategic enabler of next-generation product innovation across high-tech industries worldwide.
