Description
At TENGXING Precision, CNC lathe machining is one of our core manufacturing capabilities. By combining advanced CNC turning technology, skilled engineers, and strict quality control systems, we deliver high-precision, reliable, and cost-effective turned components for global customers. Our CNC lathe machining services are designed to support everything from rapid prototyping to large-scale production, meeting the demanding requirements of modern industries.
CNC lathe machining is ideal for producing cylindrical and rotational parts with excellent concentricity, smooth surface finishes, and tight tolerances. With digital control and automated processes, Jiaoteng Precision ensures consistent quality, stable efficiency, and fast delivery for every project.
One of the greatest advantages of CNC lathe machining is its exceptional precision. At Jiaoteng Precision, our CNC lathes are capable of maintaining tight tolerances, ensuring every part meets exact design specifications. Automated tool paths eliminate human error and guarantee repeatability, even for high-volume production runs.
CNC lathe machining produces smooth and uniform surface finishes, reducing or eliminating the need for secondary polishing. This is especially important for functional components such as shafts, bushings, and connectors where surface quality directly affects performance.
Compared with manual turning, CNC lathe machining offers superior stability during cutting operations. Rigid machine structures and optimized cutting parameters allow stable machining of complex geometries and high-precision features.
CNC lathe machining operates with minimal manual intervention. Once the program is set, the machine can run continuously, significantly improving production efficiency. This automation shortens cycle times and reduces labor costs, making CNC lathe machining a cost-effective solution.
With CNC programming and quick tool changes, Jiaoteng Precision can rapidly switch between different product designs. This flexibility allows us to respond quickly to customer demands, reduce lead times, and support both small-batch and mass production.
CNC lathe machining offers precise material removal, minimizing waste and improving raw material utilization. This not only lowers production costs but also supports sustainable manufacturing practices.
Jiaoteng Precision specializes in CNC lathe machining with tight tolerance requirements. Through optimized tool selection, stable cutting conditions, and in-process inspection, we ensure dimensional accuracy throughout production.
Our quality control system includes precision measuring tools and coordinate measuring machines (CMM) to verify dimensions, roundness, and concentricity. Every CNC lathe machined part is inspected according to engineering drawings and customer specifications.
CNC lathe machining ensures that each part in a production batch maintains the same quality level. This consistency is critical for customers who require reliable assembly and long-term product performance.
Jiaoteng Precision offers CNC lathe machining for a variety of metal and plastic materials, including:
Aluminum alloys
Stainless steel
Carbon steel and alloy steel
Brass and copper
Engineering plastics
This material flexibility allows us to support diverse applications across multiple industries.
CNC lathe machining is widely used for automotive components such as shafts, bushings, fittings, and sensor housings. High precision and durability ensure stable performance in demanding operating environments.
For industrial equipment, CNC lathe machining produces precision components like spacers, rollers, couplings, and mechanical connectors that require reliable accuracy and strength.
CNC lathe machining is suitable for connectors, pins, terminals, and housings where dimensional accuracy and surface finish are critical.
In medical devices and precision instruments, CNC lathe machining supports the production of high-accuracy components with strict quality requirements.
To provide complete solutions, Jiaoteng Precision integrates CNC lathe machining with secondary operations such as drilling, tapping, threading, knurling, and surface finishing. This one-stop service model reduces outsourcing costs, shortens delivery time, and ensures better quality control.
Professional CNC lathe machining expertise
Advanced CNC turning equipment
Strict quality control and inspection systems
Fast response and reliable delivery
Flexible support for prototyping and mass production
With its advantages in precision, efficiency, and consistency, CNC lathe machining is a key manufacturing solution for modern industries. At Jiaoteng Precision, we are committed to delivering high-quality CNC lathe machined parts that meet the highest standards of performance and reliability. By choosing Jiaoteng Precision as your CNC lathe machining partner, you gain a trusted manufacturer focused on accuracy, efficiency, and long-term value.
Faq
Precision metal parts manufacturing refers to the process of shaping metal materials—such as steel, aluminum, copper, and stainless steel—into high-accuracy, complex components using techniques like turning, milling, grinding, stamping, and CNC machining. The core of this process lies in controlling dimensional tolerances (as tight as ±0.001mm), geometric tolerances, and surface finishes. It is widely applied in industries such as automotive, medical devices, aerospace, and telecommunications.
Common processes include: CNC Machining: Suitable for complex 3D shapes, offering high precision and flexibility. Stamping: Ideal for high-volume production of thin-walled metal parts, with high efficiency. Turning: Primarily used for rotational parts like shafts and sleeves. Milling: Used for machining planes, curves, slots, and holes. Wire EDM / EDM: For machining high-hardness materials or complex molds. Laser Cutting / Waterjet Cutting: Suitable for precision sheet metal blanking. Surface Treatment: Such as plating, anodizing, sandblasting, and passivation, for corrosion resistance or aesthetics.
Selection should consider: Functional Requirements: Strength, hardness, wear resistance, corrosion resistance, conductivity, etc. Process Suitability: Aluminum (easy to machine, lightweight), stainless steel (corrosion-resistant), copper (good conductivity), titanium alloys (high strength, biocompatible). Cost and Lead Time: Common materials (e.g., 45# steel, 6061 aluminum) are cost-effective and readily available; specialty alloys (e.g., Inconel, molybdenum) are more expensive and may require pre-ordering.
Material Cost: Raw material type, usage, and market fluctuations. Complexity of Machining: Number of processes, precision requirements, special treatments (e.g., mirror polishing). Order Quantity: High volumes can amortize mold/programming costs, reducing unit prices. Quality Certifications: Certifications like medical (ISO 13485) or automotive (IATF 16949) may increase management costs. Surface Treatment and Packaging: Special coatings, vacuum packaging, etc., add to the cost.
Standard Tolerance: ±0.1mm or above, suitable for structural parts, housings, etc. Precision Tolerance: ±0.01mm to ±0.05mm, suitable for mechanical assembly parts. High-Precision Tolerance: Within ±0.005mm, suitable for critical components in aerospace, optical instruments, etc. Recommendation: Define tolerances based on actual functional needs, as unnecessarily tight tolerances significantly increase costs.
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