In aerospace manufacturing, precision isn’t optional—it’s critical. At Mazak Precision, we support the most demanding programs involving rocket propulsion systems, satellite structures, spacecraft navigation modules, deep space probes, and orbital station components.

Our advanced capabilities—such as 5-axis CNC machining, wire and sinker EDM, ultra-fine tolerance control—enable us to machine complex parts down to ±0.002 mm. We fully understand the physical and operational environments these components face, including thermal stresses, vibration fatigue, and electromagnetic constraints.

As a certified supplier for global aerospace leaders, Mazak Precision produces OEM-level components and full subsystems such as engine turbine blades, satellite heat exchangers, fuel systems, docking station mounts, and more. Our experience transforms complex, critical designs into production-ready components that meet the industry’s highest benchmarks.

Mazak Precision combines traditional CNC machining with advanced additive manufacturing (AM) and precision investment casting to produce parts with unmatched design complexity, light weight, and structural integrity.

We use metal 3D printing for parts like topology-optimized satellite frames, embedded cooling channels, and lightweight UAV lattice structures, followed by high-precision machining to meet final dimensional specs. These solutions are critical in building thrust vector assemblies, navigation arms, and internal manifold geometries found in next-gen rocket systems.

For larger production runs, we apply precision casting to complex geometries like engine casings, combustion chambers, and fluid manifolds, followed by finishing operations to ensure tolerance compliance. This hybrid approach offers cost-effective solutions without sacrificing performance or consistency.

Mazak Precision is equipped to work with a full spectrum of aerospace materials: titanium, Kovar, Inconel 625/718, stainless steel, aluminum, ceramics, copper alloys, and engineering-grade plastics.

We apply material-process pairing strategies, such as:

• High-strength aluminum with anodizing for satellite mounts

• Inconel casting and machining for high-temp propulsion nozzles

• Micro-machined hardened steels for IMU assemblies

• PEEK structures for astronaut cabin interface modules

This strategic alignment of material science and manufacturing ensures mechanical integrity, lightweight performance, and mission durability, even for the most complex applications in deep space exploration, LEO satellite constellations, or military defense satellites.

Mazak Precision offers end-to-end manufacturing services—from early DFM consultations and FAI prototype validation to full-scale production and subassembly delivery. We provide not just parts, but complete modules ready for integration into larger aerospace systems.

We deliver:

• Fully assembled rocket propulsion structural units

• Satellite frame + electrical substructure assemblies

• Navigation system modules (with IMU + motorized carriers)

• Orbital station docking component sets

• Miniature attitude control units with wire harness integration

With our advanced production assets, expert teams, and robust global supply chain, Mazak Precision empowers aerospace clients to meet timelines, exceed quality goals, and realize system-level success—from drawing board to orbit.