Our 5-axis CNC machiningservices and engineering expertise produce all your precision components to a high degree of accuracy, however complex they may be. We use five-axis machinery from the leading suppliers, such as Mazak and Bother. All our manufacturing is subject to inbuilt quality and control processes, which start at the initial briefing and planning stages, right through to delivery. This enables us to maintain a high level of quality and fast turnaround times for all your products.
CNC Milling
We machine a wide variety of materials, including aluminum, stainless steel, brass, plastics, etc, all while maintaining strict tolerances. Our CNC milling services utilize state-of-the-art multi-axis vertical machining centers paired with decades of practical experience to consistently produce highly precise parts. Whether you require a prototype or mass production run, we tailor our approach to your project’s unique needs, ensuring every part meets exacting quality standards and is delivered on time to support your production schedule.
CNC Turning
CNC Turning, which stands for Computer Numerical Control Turning, is a machining technique that creates cylindrical components by cutting material away from a rotating workpiece with precision tools. This automated and highly accurate process is vital in manufacturing, delivering consistent quality while enabling the production of intricate shapes and detailed features.
Why Choose Our CNC Machining Services?
1. Precision & Accuracy
Our advanced CNC machines deliver tight tolerances (up to ±0.005mm) and consistent quality, ensuring your parts meet exact specifications every time.
2. Wide Material Compatibility
We machine a broad range of materials, including metals (aluminum, steel, titanium, brass) and plastics (ABS, POM, PTFE, nylon), to suit your application needs.
3. Fast Turnaround & Scalability
From rapid prototyping to high-volume production, we optimize processes to reduce lead times without compromising quality—ideal for both one-off projects and mass production.
4. Complex Geometry Capabilities
Multi-axis CNC milling and turning allow us to produce intricate shapes, undercuts, and fine details that traditional methods cannot achieve.
5. Cost-Effective Efficiency
Automated CNC processes minimize material waste and labor costs, offering competitive pricing—especially for medium to large production runs.
6. Superior Surface Finishes
Our machining services include optional post-processing (anodizing, polishing, powder coating, etc.) to enhance aesthetics and functionality.
7. Strict Quality Control
Every part undergoes rigorous inspection (CMM, micrometers, visual checks) to ensure compliance with industry standards like ISO 9001.
8. Expert Support
Our engineering team provides design-for-manufacturability (DFM) feedback to optimize your parts for performance, cost, and manufacturability.
Description Of The Processing Procedure
1.Design Stage
CAD modeling: Use computer-aided design (CAD) software to draw a 3D model of the part to determine the size, shape and tolerance. Process planning: According to material properties, machining accuracy and other requirements, formulate the machining sequence and tool selection plan.
2.Programming Stage
CAM programming: Convert the CAD model into G code (CNC instructions) through computer - aided manufacturing (CAM) software, set the tool path, cutting parameters (speed, feed rate, etc.). Program verification: Use simulation software to simulate the machining process to check whether there is a collision or path error.
3.Preparation Stage
Material preparation: Select a blank of suitable material (such as metal, plastic) and fix it on the machine tool workbench. Tool and fixture installation: Install tools (such as milling cutters, drills) and fixtures (vises, chucks, etc.) according to machining requirements to ensure that the workpiece is stable.
4.Machining Stage
Tool setting and calibration: Set the origin of the workpiece coordinate system and calibrate the tool length and radius compensation. Automatic processing: CNC machine tools execute G-code instructions and perform cutting, drilling, milling and other operations according to the program. Real-time monitoring: Observe the processing status and adjust parameters (such as coolant flow) in time to avoid overheating or tool wear.
5.Post-processing And Inspection
Deburring: Manual or mechanical removal of burrs on the edge of the workpiece. Dimension detection: Use tools such as calipers and coordinate measuring machines (CMMs) to verify whether the accuracy meets the requirements of the drawings. Surface treatment: Perform subsequent treatments such as polishing and anodizing as required.
6.Delivery And Documentation
Finished product delivery: Hand over qualified parts to the next process or customer. Record archiving: Save processing procedures, test reports and other information for easy traceability and optimization.
Surface Treatment Exhibits for Fabricated Components
No matter the manufacturing process, high-quality surface finishing services enhance both the appearance and performance of your parts. We offer premium surface treatment solutions for metal, composite, and plastic materials, helping you transform your prototype or part from design into reality. Generally, we will finish based on the client's design and requirements. We will introduce common finishing as follows:
Anodized
Forming an oxide film on the metal surface through an electrochemical process to enhance its corrosion resistance, wear resistance, hardness, and aesthetics. Usually used for non-ferrous metals such as aluminum, magnesium, and titanium, among which aluminum and aluminum alloys are the most common applications.
Electroplating
Electroplating is a method of covering a layer of metal on the surface of metal or other materials using the principle of electrolysis. Through electroplating, the corrosion resistance, wear resistance, conductivity, aesthetics, etc. of the material can be improved, and new functions can be given to the material.
Painting
Forming an oxide film on the metal surface through an electrochemical process to enhance its corrosion resistance, wear resistance, hardness, and aesthetics. Usually used for non-ferrous metals such as aluminum, magnesium, and titanium, among which aluminum and aluminum alloys are the most common applications.
Passivation
Passivation treatment refers to the process of forming a dense protective film on the metal surface through chemical methods to improve the corrosion resistance of the metal. This protective film is usually a metal oxide or other compound, which can effectively prevent the metal from directly contacting the corrosive medium, thereby delaying or preventing metal corrosion.
Electrophoresis
A coating process that uses charged particles suspended in a solvent, usually used to achieve a uniform surface effect.
Sandblasting
Forcefully directing sandblasting media at a surface to remove coatings and impurities, and hidden tool marks
Brushed
It is a metal surface treatment process that forms fine, directional lines on the metal surface to enhance the texture and beauty of the product.
Polishing
It is a surface treatment process that reduces the roughness of the workpiece surface through mechanical, chemical, or electrochemical methods, making it smooth, shiny, or even mirror-like. The main purpose of polishing is to improve the appearance, increase the gloss, and possibly extend the service life of the workpiece to prevent oxidation and corrosion.
Screen Printing
It is a printing technology that transfers ink to the surface of the substrate through the screen to form a pattern or text. Screen printing has the characteristics of wide application, fine pattern and high durability.
What Our Customers Say
Andrew
The precision and quality of your machined parts are outstanding! They fit perfectly into our assembly with zero issues. Will definitely order again!
2024.10.3
Peter
Excellent work! The parts were delivered on time and met all our specifications. Your attention to detail is impressive. Highly recommended!
2024.10.3
Gowthaman
We're very satisfied with the machining services provided. The finish and tolerances are exactly as required. Great job and smooth communication throughout!
2024.10.3
Romen
Consistently high-quality machining services. This is our third order, and as always, no complaints. Keep up the great work!
2024.10.3
CNC Machining Service Costs & Quotes
The cost of CNC machining services varies depending on several factors, including: Part complexity – Intricate designs and tight tolerances may increase machining time. Material selection – Different metals and plastics have varying machining requirements and costs. Production volume – Higher quantities often reduce the per-unit cost due to economies of scale. Additional finishing – Processes like anodizing, powder coating, or polishing add to the final price.
How to Get a Quote
To receive an accurate CNC machining quote, please provide: 1. Part design files (e.g., 2D drawings, 3D models, STEP/IGS format) 2. Material specifications (e.g., aluminum, steel, or plastic) 3. Production quantity (prototype, low-volume, or mass production) 4. Any special requirements (tolerances, surface finishes, etc.)
We’ll review your project details and provide a competitive, no-obligation quote tailored to your needs.
Submit your request via our [online contact form] or email us at Info@szzycnc.com
