Precision-Ceramic-CNC-Machining-Services
AlienMicroporeThin-walled

Ceramic CNC Machining

Custom CNC machining solutions for advanced ceramics and glass ceramics, delivering complex geometries, tight tolerances, and high-quality surface finishes for demanding applications.

CNC Machining Capabilities

Advanced ceramics are extremely hard and brittle, requiring specialized CNC machining technologies and extensive processing experience. From simple parts to complex multi-axis components, we support prototype development through volume production across a wide range of engineering ceramics and glass ceramics.

5-Axis-CNC-Machining-of-Large-Quartz-Parts
Machining Type 3-Axis, 4-Axis & 5-Axis CNC
Tolerance ±0.001mm
Micropore 0.1mm
Wall (Min) 0.1mm
Slot (Min) 0.2mm
Thread (Min) M1.2

CNC Machining Processes

FAQS

What ceramic materials can you CNC machine?

We machine a wide range of advanced ceramics and glass ceramics, including alumina (Al₂O₃), zirconia (ZrO₂), aluminum nitride (AlN), silicon carbide (SiC), silicon nitride (Si₃N₄), Macor®, and Zerodur®. Material selection depends on your application, performance requirements, and design.

Do you support prototype and low-volume production?
Yes. We support everything from prototype development and functional testing to low-volume and full-scale production. This flexibility helps customers accelerate product development while maintaining consistent quality.

Can you machine complex ceramic components?

Yes. Our multi-axis CNC machining capabilities allow us to manufacture complex ceramic parts with intricate profiles, deep cavities, precision holes, and multi-sided features for demanding applications.

How can I request a quotation?
Simply send us your drawings, material requirements, quantities, tolerance specifications, and application details. Our engineering team will review your project and provide a customized quotation with the most suitable manufacturing solution.

Macor is a machinable glass-ceramic made from fluorophlogopite mica crystals embedded in a borosilicate glass matrix. This composition gives it a rare
combination of metal-like machinability, excellent electrical insulation, low thermal conductivity, and stability up to 1000°C (no load) while maintaining very tight tolerances.