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Manufacturing Insight: Lathe Cnc Machine For Sale
Precision CNC Lathe Capabilities Delivered Through Honyo Prototype’s Engineering Expertise
Honyo Prototype provides advanced CNC turning solutions engineered for complex, high-integrity components across aerospace, medical, and industrial sectors. Our fleet of state-of-the-art CNC lathes—including multi-axis live-tooling and Swiss-type machines—executes tight tolerances down to ±0.0002″ while optimizing material utilization and throughput. Unlike commodity machine sales, we integrate machine capability with deep process engineering to solve your specific manufacturability challenges, from initial design analysis to final inspection.
Our manufacturing team leverages proven methodologies in precision turning, including hard turning, micro-machining, and bar-fed production, ensuring your components meet stringent functional and regulatory requirements. Every project benefits from our AS9100-certified quality system and in-house metrology lab, eliminating supply chain risks associated with fragmented outsourcing.
Accelerate your prototyping or low-volume production with Honyo’s Online Instant Quote platform. Upload CAD files to receive a technically validated quote within hours—not days—factoring in optimal machine selection, fixturing strategy, and secondary operations. This seamless integration of transparent pricing and engineering insight transforms your procurement workflow while guaranteeing technical feasibility from the first submission.
Partner with Honyo Prototype for CNC turning where machine capability meets manufacturing intelligence.
Technical Capabilities
CNC Lathe Machine Technical Specifications – 3/4/5-Axis Milling and Turning
The following table outlines the key technical specifications for a high-precision CNC lathe machine suitable for multi-axis milling and turning operations. This machine is engineered for tight tolerance machining across a range of materials including aluminum, steel, ABS, and nylon, making it ideal for prototyping and low-to-medium volume production in aerospace, automotive, and industrial sectors.
| Specification | Detail |
|---|---|
| Machine Type | CNC Turning Center with Multi-Axis Milling Capability (3/4/5-Axis) |
| Maximum Turning Diameter | 350 mm (13.8 in) |
| Maximum Turning Length | 600 mm (23.6 in) |
| Spindle Speed | 6,000 RPM (high-speed option up to 12,000 RPM) |
| Spindle Power | 15 kW (20.1 hp) |
| Bar Capacity | 42 mm (1.65 in) – optional 51 mm (2.0 in) |
| Axis Configuration | Standard 3-axis (X, Z, C); optional Y-axis and B-axis for 4/5-axis |
| Live Tooling | Standard (up to 12 tools, 3,000 RPM, optional 8,000 RPM) |
| Positioning Accuracy | ±0.005 mm (±0.0002 in) |
| Repeatability | ±0.003 mm (±0.0001 in) |
| Tolerance Range | ±0.005 mm to ±0.01 mm (tight-tolerance capable with thermal compensation) |
| Control System | Fanuc 31i-B5, Siemens 840D, or Heidenhain TNC7xx (selectable) |
| Tool Magazine Capacity | 12–30 stations (depending on configuration) |
| Rapid Traverse (X/Z) | 30 / 36 m/min (1,180 / 1,420 ipm) |
| Coolant System | High-pressure through-spindle coolant (optional mist collection) |
| Chip Management | Integrated chip conveyor with coolant filtration |
| Work Envelope (5-Axis Milling) | B-axis: ±120°; Y-axis: ±50 mm; C-axis: 360° indexing/continuous |
| Materials Compatible | Aluminum (6061, 7075), Steel (1018, 4140, Stainless 303/316), ABS, Nylon (PA6, PA66) |
| Surface Finish Capability | Ra 0.8 µm (32 µin) typical; down to Ra 0.4 µm (16 µin) with finishing passes |
| Thermal Compensation | Standard (spindle and ambient) |
| Vibration Damping | Active damping system with adaptive control |
| Dimensions (L x W x H) | 2,800 x 2,200 x 2,000 mm (110 x 87 x 79 in) |
| Machine Weight | Approx. 5,200 kg (11,465 lbs) |
| Power Requirement | 400V, 3-phase, 60A, 50/60 Hz |
This CNC lathe supports full-axis synchronization for complex part geometries, enabling complete machining in a single setup. The machine is optimized for high repeatability and precision, particularly when working with both metallic (aluminum, steel) and engineering thermoplastics (ABS, nylon). Integrated probing systems and tool presetters are available for enhanced accuracy in tight-tolerance applications.
From CAD to Part: The Process
Honyo Prototype specializes in precision CNC machining services for custom parts and prototypes, not the sale of physical lathe CNC machines. We clarify this critical distinction upfront to ensure alignment with client expectations. Our core offering is manufacturing execution using advanced CNC lathes and milling centers to produce client-designed components. The process you referenced describes our end-to-end manufacturing workflow for client parts, which operates as follows:
CAD Upload and Initial Processing
Clients initiate the process by uploading native or neutral format CAD files (STEP, IGES, Parasolid) via our secure customer portal. Our system performs an immediate geometric validation check, confirming file integrity and basic manufacturability. This step ensures the design contains no corrupted surfaces or unsupported features before entering the quoting phase. File acceptance triggers automatic assignment of a unique project ID for traceability.
AI-Powered Quoting Engine
Honyo’s proprietary AI quoting system analyzes the validated CAD geometry against live machine capacity data, material stock availability, and current shop floor scheduling. The algorithm calculates precise machining time estimates by simulating toolpaths, considering feature complexity, tolerances, and material removal rates. Within 72 hours, clients receive a formal quote detailing unit cost, lead time, material certification options, and any preliminary notes on geometric challenges. This system reduces traditional quoting delays by 60% while maintaining engineering rigor.
Engineering-Led DFM Analysis
Following quote acceptance, our manufacturing engineering team conducts a formal Design for Manufacturability review. This is not an automated step but a collaborative human-engineered assessment where senior machinists and process engineers evaluate:
Feature accessibility and optimal chucking strategies
Tolerance stack-up analysis against ISO 2768 or client-specified standards
Material utilization efficiency and stock size recommendations
Surface finish achievability per ISO 1302
Potential for multi-tasking operations to reduce setups
We provide a detailed DFM report with actionable suggestions, often identifying 15-30% cost reduction opportunities through minor design adjustments. Client approval of the DFM package is mandatory before programming begins.
Precision Production Execution
Approved designs move to our climate-controlled machine shop featuring:
Multi-axis CNC lathes (including live tooling and Y-axis capabilities)
In-process probing for automated workpiece alignment
Real-time thermal compensation systems maintaining ±2μm stability
Statistical process control (SPC) monitoring of critical dimensions
Each operation follows documented work instructions with first-article inspection (FAI) per AS9102 standards. Complex components undergo intermediate CMM verification at defined process gates. All raw materials originate from certified mills with full traceability documentation.
Quality-Controlled Delivery
Final inspection includes full dimensional reporting against the original CAD model using calibrated CMMs or optical comparators. Critical features receive GD&T validation per ASME Y14.5. Components are packaged in anti-corrosive VCI paper with custom foam cradling for shock-sensitive geometries. Shipping documentation includes:
Certificate of Conformance with material test reports
FAI package with dimensional data
Process routings and non-conformance history (if applicable)
We coordinate freight through preferred carriers with real-time shipment tracking, providing delivery confirmation within 24 hours of dispatch.
Process Timeline Expectations
| Project Complexity | Typical Lead Time | Key Variables |
|——————-|——————-|————–|
| Standard (≤5 operations, common materials) | 5-7 business days | Material availability, queue depth |
| Complex (multi-setup, tight tolerances ±0.005mm) | 10-15 business days | DFM iteration cycles, special tooling requirements |
This integrated workflow ensures first-pass yield rates exceeding 98.5% while maintaining full digital traceability from CAD file to shipped part. We invite prospective clients to submit a test geometry for a no-obligation DFM analysis and quote, demonstrating how our process mitigates manufacturing risks specific to precision turned components. Contact our engineering team to discuss your current project requirements.
Start Your Project
Explore precision manufacturing with our high-performance CNC lathe machines for sale at Honyo Prototype. Engineered for accuracy and efficiency, our machines are ideal for prototyping and low to high-volume production across industries such as automotive, aerospace, and medical devices.
All units are manufactured and rigorously tested at our Shenzhen factory, ensuring compliance with international quality standards. We offer direct factory pricing, comprehensive technical support, and fast delivery timelines.
For inquiries and pricing, contact Susan Leo at [email protected]. Let’s discuss how our CNC lathe solutions can enhance your production capabilities.
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