Custom Online CNC Machining Service
Experience precision CNC machining with our on-demand services. Get top-quality Screw, Aluminum, and Stainless Steel machining, plus rapid prototyping—all delivered in days or less.
- Parts Machined in 1 Day
- 0.01mm Tolerances
- Instant CNC Quotes, Comprehensive DFM
- Delivery Nationwide as Fast as 24 Hours
- Low-Volume Manufacturing
- Superior Quality Assurance
CNC Machining Capabilities at XMAKE
Electrical Discharge Machining (EDM)
Crafts metal with electrical sparks, suited for complex or hardened materials.
CNC Milling
3-5 axis capability for crafting a wide range of parts in aerospace, and medical industries.
CNC Turning
Generates cylindrical forms, fromstraightforward holes toelaborate profiles.
5-Axis Machining
Enables intricate shapes through comprehensive tool and workpiece movement.
CNC Machining Materials Selection
Metal Materials Series
Steel
Offers high tensile strength and malleability. Used in construction, automotive, and manufacturing for structural components and tools.
Stainless Steel
Known for corrosion resistance and durability. Employed in cutlery, medical equipment, and architectural applications.
Titanium
Provides exceptional strength with low density. Utilized in aerospace, medical implants, and high-end sports gear.
Brass
Combines strength and corrosion resistance. Commonly used in fittings, valves, and decorative items.
Bronze
Features high corrosion resistance and strength. Suitable for sculptures, bearings, and marine hardware.
Inconel
An austenitic family of superalloys with excellent heat and corrosion resistance. Used in gas turbines and chemical processing.
Tool Steel
Designed for high hardness and wear resistance. Essential for the production of cutting tools and dies.
Aluminum Alloys
Lightweight with enhanced strength and corrosion resistance. Popular in aerospace, automotive, and consumer electronics.
Maraging Steel
Known for its ultra-high strength and hardness. Used in precision instruments and high-stress mechanical parts.
Copper Alloys
Exhibit high thermal and electrical conductivity. Widely used in electrical systems, heat exchangers, and coinage.
Plastic Materials Series
PC (Polycarbonate)
Known for its exceptional impact resistance and transparency. Used in eyewear, automotive parts, and durable plastic products.
PA (Polyamide)
Strong, flexible, and resistant to chemicals. Common in fibers, automotive parts, and industrial components.
ABS
Combines strength, rigidity, and toughness. Widely used in automotive and electronics.
PVC (Polyvinyl Chloride)
Durable and cost-effective. Employed in plumbing, vinyl siding, and medical devices.
Acrylic (PMMA)
Lightweight with high clarity. Ideal for aquariums, windows, and signage.
Nylon
Resistant to wear, self-lubricating. Utilized in textiles, brushes, and mechanical parts.
PSU (Polysulfone)
High-temperature resistance and rigidity. Suitable for electrical components and cookware.
POM (Polyoxymethylene)
Stiff and resistant to abrasion. Common in gears, bearings, and automotive parts.
PTFE (Teflon)
Non-stick and heat resistant. Used in non-stick cookware and industrial coatings.
UHMWPE (ULtra-High Molecular Weight Polyethylene)
Exceptionally wear-resistant and low friction.
Employed in liners, gears, and artificial joints.
- We can source any other material on request, but quotes take up to 48 hours.
CNC Machining Surface Finishes
Surface Treatment Method
Material Type
Colors
Surface Finish Precision (Ra)
Suitable Applications
Anodizing
Aluminum
Red, Blue, Gold
0.2 – 0.8 μm
Aviation, Electronics
Polishing
Stainless Steel
Gray
0.4 – 1.6 μm
Kitchenware, Medical
Sandblasting
Titanium Alloy
Dark Gray
1.6 – 3.2 μm
Sports Equipment
Plating
Copper
Red-Brown
0.8 – 1.6 μm
Decoration, Electrical
Chemical Plating
Magnesium Alloy
Light Gray
0.8 – 1.6 μm
Auto Parts
Powder Coating
Zinc Alloy
Silver
1.6 – 3.2 μm
Furniture Accessories
CNC Machining Tolerance
Fine (f)
Medium (m)
Coarse (e)
Very Coarse (v)
Linear Size (0.5~3mm)
±0.01 mm
±0.02 mm
±0.05 mm
±0.1 mm
Radius of Fillet (0.5~3mm)
±0.01 mm
±0.02 mm
±0.05 mm
±0.1 mm
Chamfer Height (0.5~3mm)
±0.02 mm
±0.05 mm
±0.1 mm
±0.2 mm
Angular Size ≤10°
±0.5°
±1°
±1°30′
±3°
Edge Condition
Sharp corners will be removed in the form of a chamfer or radius. The size of the chamfer, or resulting radii, must be indicated on the drawing.
*Note: The table serves as a guide. For personalized advice on the ideal printing process and parameters to meet your specific requirements, please reach out to us.
CNC Machining Steps at XMAKE
Upload File
Start by uploading your CAD files securely to our platform.
Design Feedback
Receive expert feedback to optimize your designs for manufacturing.
Rapid Prototype
Quickly turn designs into prototypes with state-of-the-art technology.
Premium Quality
Guaranteed high-quality production, ISO 9001:2018 certified for excellence.
24/7 Supported Guidance
Experience continuous support and guidance throughout the manufacturing process.
Streamlined CNC Production Initiation
Achieve high-volume production with comprehensive support from our seasoned production specialists. Benefit from competitive pricing aligned with economies of scale and secure the necessary quality certifications to ensure your products are market-ready for end-users.
Precision CNC Machining for Diverse Industries
Robotics
Aerospace
Automotive
Consumer Products
Medical Devices
Why Choose XMAKE’s Custom CNC Machining Service
High Precision
Choose XMAKE for CNC machining accuracy within ±0.005mm, ensuring your parts meet the tightest tolerances.
The Perfect Finish
Elevate your CNC Machined parts with high-quality finishing processes, including anodizing, polishing, plating, powder coating, and more.
Fast Turnaround Times
Experience industry-leading turnaround with XMAKE, delivering 95% of projects up to 30% faster than the competition.
Cost-Efficiency
Save up to 20% on production costs with XMAKE’s optimized CNC machining processes and bulk order discounts.
Wide Material Compatibility
Utilize XMAKE’s CNC services for a broad range of materials, including aluminum, stainless steel, and plastics, with over 50 different materials supported.
Quality Certifications
Rest assured with XMAKE’s ISO 9001 and ISO 14001 certifications, reflecting our commitment to quality and environmental responsibility.
High-Quality CNC Machining Parts Made By XMAKE
XMAKE Customer Success: Solving Challenges Together
Streamlined Production and Unmatched Quality
Collaborating with XMAKE has been a game-changer for our product development process. Their digital manufacturing platform streamlined our production, reducing lead times and costs significantly. The precision and quality of the parts they deliver are unmatched. XMAKE’s commitment to innovation and customer service have made them an invaluable partner in bringing our cutting-edge tech products to market.
Elena Davis
Product Manager at TechInnovate Solutions
Transformed Building Design with High-Standard Materials
XMAKE’s advanced digital manufacturing services have been instrumental in our construction projects. Their ability to produce complex, customized components with speed and accuracy has transformed our approach to building design. The durability and strength of the materials they provide meet the highest industry standards. It’s a pleasure working with a team that shares our passion for excellence in construction.
Carl Jenkins
CEO of GreenBuild Construction
Precision in Medical Device Innovation
In the medical field, precision is paramount, and XMAKE has consistently exceeded our expectations. Their digital manufacturing platform offers the flexibility and control we need to create intricate medical devices that meet stringent regulatory requirements. The team at XMAKE is not just a vendor; they are a strategic partner who understands our mission to improve patient outcomes through innovation.
Dr. Erwin Zhang
R&D Director at BioMedica Inc.
CNC Machining FAQs
1. How do I prepare my design for cnc machining?
Your design should be prepared in a 3D CAD format compatible with CNC machines. It's essential to consider machining constraints and optimize the design for manufacturing (DFM) to ensure efficient production and cost-effectiveness.
2. What are the typical lead times for cnc machining projects?
Lead times for CNC machining projects can vary based on the complexity of the part, the material used, and the volume of production. Typically, it can range from a few days for simple parts to a few weeks for complex, multi-process projects.
3. How does cnc machining compare with other manufacturing processes like 3d printing or injection molding?
CNC Machining is ideal for producing precise, durable parts from a wide range of materials, especially metals. Compared to 3D printing, it is typically faster for hard materials and offers superior surface finishes. In contrast to injection molding, CNC is better suited for low-volume production and one-off prototypes, while injection molding excels in high-volume manufacturing of plastic parts.
4. Can I make design modifications after the cnc machining process has started?
Making design modifications after the CNC machining process has started can be complex and may incur additional costs and lead time. It's best to finalize the design before the process begins. However, if necessary, we can work with clients to make changes, understanding that it may affect the project timeline and cost.
5. What are the post-processing options available for cnc machined parts?
Post-processing options for CNC machined parts include heat treatment for stress relief or hardening, surface finishing such as polishing, anodizing, or powder coating for aesthetic and protective purposes, and assembly services if the part requires integration with other components.
6. How does xmake ensure the confidentiality of our designs and intellectual property?
XMAKE takes the confidentiality of client designs and intellectual property very seriously. We have strict non-disclosure agreements (NDAs) in place and follow industry best practices for data security and privacy protection.
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