Place of Origin:
Suzhou, Jiangsu, China
Brand Name:
FCE
Certification:
ISO13485:2016/IATF16949:2016/GB/T19001-2016/IS09001:2015
Model Number:
Custom CNC Machining: Precision Engineering for Industrial Applications
Attribute Category |
Detailed Description |
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Service Features |
- Free Design for Manufacturability (DFM) feedback and instant quotations |
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- Wide range of machinable materials, including metals and plastics |
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- Fast prototyping capabilities, with prototypes completed in as little as one day |
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- High-volume production capacity, delivering over 1,000 pieces within a few days |
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- Comprehensive order management service, with every stage from design to production handled by a professional team |
Machinable Materials |
Metal Materials: |
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- Aluminum (6061, 7075, 2024): Lightweight, strong, corrosion-resistant, and easy to machine |
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- Stainless Steel (304, 316, 17-4 PH): Corrosion-resistant, high strength, and heat-resistant |
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- Carbon Steel (1018, 1045): High strength, wear-resistant, and cost-effective |
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- Brass (C360): Excellent mechanical properties, corrosion-resistant, and easy to machine |
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- Copper: High electrical and thermal conductivity, with good ductility |
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- Titanium (Ti-6Al-4V): High strength, lightweight, corrosion-resistant, and biocompatible, ideal for medical applications |
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Plastic Materials: |
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- ABS: High strength, good impact resistance, and easy to machine |
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- Polycarbonate (PC): High strength, transparency, and heat resistance |
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- Nylon (PA): High strength, wear-resistant, and good self-lubrication |
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- Delrin (POM): High rigidity, wear-resistant, and low friction coefficient |
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- Polyethylene (PE): Good chemical resistance and low friction coefficient |
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- Polypropylene (PP): Good chemical resistance and higher melting point |
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- PEEK: High strength, excellent heat resistance, and chemical resistance |
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Composite Materials: |
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- Carbon Fiber: High strength, lightweight, and excellent rigidity |
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- Glass Fiber: High strength, corrosion-resistant, and more cost-effective compared to carbon fiber |
Machining Processes |
- Milling: Utilizes a rotating tool to remove material, ideal for creating planes, grooves, holes, gears, and intricate shapes |
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- Turning: The workpiece rotates while a tool removes material, primarily used for cylindrical parts like shafts and discs |
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- Drilling: A drill bit creates circular holes, extendable to boring and tapping for threaded holes |
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- Grinding: Employs a high-speed rotating abrasive wheel to achieve high-precision surfaces on hard materials |
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- Boring: Expands or refines existing holes, ensuring high precision |
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- Tapping: Cuts internal threads, essential for manufacturing threaded components |
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- Wire EDM: Uses a thin, charged wire to cut materials with high precision, ideal for complex and hard materials |
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- EDM: Removes material through electrical discharge, suitable for intricate shapes and hard materials |
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- Laser Cutting: Melts and cuts materials using a high-energy laser, perfect for precise and complex cuts |
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- Waterjet Cutting: Cuts materials using high-pressure water and abrasives, avoiding heat-affected zones |
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- Engraving: Uses precision tools to etch text or patterns on surfaces, commonly for identification and decoration |
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- Heat Treatment: Alters material properties through heating and cooling to enhance hardness and strength |
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- Surface Treatment: Includes processes like anodizing, painting, and electroplating to improve appearance, corrosion resistance, and durability |
Applications |
- Automotive Industry: Engine components, chassis and suspension systems, interior parts |
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- Aerospace: Aircraft structural parts, engine components, satellite and spacecraft components |
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- Medical Devices: Surgical instruments, implants, housings and internal components for medical devices |
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- Electronics and Electrical: Enclosures and frames, heatsinks, precision connectors |
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- Consumer Goods: Household appliance parts, sporting goods, electronic products |
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- Energy Sector: Oil and gas equipment, renewable energy equipment, nuclear industry parts |
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- Industrial Equipment: Machinery components, conveyor systems, automation equipment |
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- Mold Making: Injection molds, stamping dies, casting molds |
Service Summary |
FCE's CNC Machining Service is dedicated to providing high-precision, efficient, and versatile solutions across industries, meeting the demand for high-quality parts and ensuring the successful completion of your project.FCE CNC Machining Service: Precision and Speed for Diverse Industry Needs |
FCE is proud to offer a comprehensive CNC Machining Service designed to provide high-quality and efficient solutions tailored to meet the specific requirements of our clients. Our service is recognized for several distinctive features:
Free DFM Analysis and Instant Quotes
At FCE, our skilled team delivers free Design for Manufacturability (DFM) analysis alongside instant quotes. This ensures that your CNC Machining project starts promptly, with a clear understanding of manufacturability and costs from the outset.
Extensive Material Options
Our CNC Machining Service covers an extensive range of materials, including metals and plastics. This broad selection allows us to address a wide array of machining needs across different industries, ensuring the perfect match for your project.
Rapid Prototyping
With our advanced CNC machining capabilities, we can produce prototypes in as little as one day. This rapid turnaround allows you to quickly test and validate your designs, shortening the product development cycle.
High-Volume Production
Our CNC Machining Service is equipped to handle large-scale production runs, capable of producing thousands of parts within a few days. This ensures that even the most demanding production schedules are met with speed and efficiency.
End-to-End Project Management
At FCE, we offer a seamless order management process that covers every stage of your project, from initial design through to final production. Our dedicated team ensures that each phase is handled with precision, ensuring the timely and successful completion of your project.
Diverse CNC Machining Materials
Metals:
Aluminum (6061, 7075, 2024): A lightweight, strong, and corrosion-resistant metal that is also highly machinable.
Stainless Steel (304, 316, 17-4 PH): Known for its excellent corrosion resistance, high strength, and ability to withstand high temperatures.
Carbon Steel (1018, 1045): Offers a balance of strength, wear resistance, and cost-effectiveness.
Brass (C360): Renowned for its excellent mechanical properties, ease of machining, and resistance to corrosion.
Copper: Valued for its high electrical and thermal conductivity, coupled with good ductility.
Titanium (Ti-6Al-4V): This lightweight, strong, and biocompatible material is ideal for medical and aerospace applications.
Plastics:
ABS: A strong plastic with good impact resistance, ideal for a variety of applications.
Polycarbonate (PC): Noted for its high strength, optical clarity, and heat resistance.
Nylon (PA): Durable and wear-resistant, with excellent self-lubricating properties.
Delrin (POM): A plastic known for its high rigidity, wear resistance, and low friction.
Polyethylene (PE): Features excellent chemical resistance and low friction.
Polypropylene (PP): Known for its chemical resistance and higher melting point.
PEEK: Offers exceptional strength, heat resistance, and chemical resistance, suitable for demanding applications.
Composites:
Carbon Fiber: Highly valued for its strength-to-weight ratio and rigidity.
Glass Fiber: Offers a cost-effective alternative to carbon fiber with good strength and corrosion resistance.
CNC Machining Processes
Milling: A process that uses rotating tools to remove material, perfect for creating intricate shapes, planes, and grooves.
Turning: Ideal for producing cylindrical parts such as shafts and discs, where the workpiece rotates against a cutting tool.
Drilling: A process for creating round holes, which can be expanded or threaded through boring and tapping.
Grinding: Utilizes a high-speed rotating abrasive wheel to achieve precise surfaces, particularly on hard materials.
Boring: Increases the diameter and precision of pre-existing holes, crucial for achieving tight tolerances.
Tapping: Cuts internal threads, essential for creating components that require threaded connections.
Wire EDM: A highly precise method that uses a charged wire to cut complex shapes, especially in hard materials.
EDM: Uses electrical discharge to remove material, ideal for creating detailed and complex shapes.
Laser Cutting: Employs a high-energy laser beam to melt and cut materials, perfect for intricate and precise cuts.
Waterjet Cutting: Uses a high-pressure water stream, often with abrasive particles, to cut materials without causing thermal distortion.
Engraving: Involves carving text or patterns onto surfaces, often used for decorative or identification purposes.
Heat Treatment: Enhances material properties such as hardness and strength through controlled heating and cooling processes.
Surface Treatment: Includes anodizing, painting, and electroplating to improve appearance, durability, and corrosion resistance.
Applications of CNC Machining
CNC Machining is essential across various industries, providing high precision and versatility to meet the complex demands of modern manufacturing.
Automotive:
Engine Components: Including cylinder heads, pistons, and crankshafts.
Chassis & Suspension Systems: Such as control arms and structural components.
Interior Parts: Dashboards, buttons, and ventilation outlets.
Aerospace:
Aircraft Structures: Components like wing spars and fuselage frames.
Engine Parts: Such as turbine blades and combustion chambers.
Spacecraft Components: Including satellite shells and antenna brackets.
Medical Devices:
Surgical Instruments: Such as scalpels and forceps.
Implants: Including artificial joints, dental implants, and bone screws.
Diagnostic Equipment: Precision components for medical devices, including housings and internal parts.
Electronics:
Enclosures & Frames: For computers, servers, and electronic devices.
Cooling Systems: Such as heatsinks and liquid cooling components.
Connectors: High-precision connectors for electronic devices and circuit boards.
Consumer Goods:
Appliance Parts: Internal components for household appliances like refrigerators and washing machines.
Sporting Goods: Such as bicycle parts and golf club heads.
Electronics Accessories: Including smartphone cases and headphone components.
Energy Industry:
Oil & Gas Equipment: Drill bits, valves, and pump housings.
Renewable Energy: Components for wind turbines and solar panels.
Nuclear Equipment: High-precision parts for reactor systems.
Industrial Equipment:
Machinery Parts: Tool components, jigs, and precision fixtures.
Conveyor Systems: Rollers, chains, and other key components.
Automation Equipment: Parts for robotic systems and sensors.
Mold Making:
Injetion Molds: For plastic product manufacturing.
Stamping Dies: For shaping metal sheets.
Casting Molds: For producing metal cast components.
Conclusion
FCE’s CNC Machining Service is essential for industries that demand precision, speed, and reliability. Our service meets the diverse needs of various sectors, providing high-quality parts and ensuring that your projects are completed with utmost accuracy and efficiency.
Send your inquiry directly to us