Elite CNC Machining
Aerospace Parts
Precision aircraft components manufacturing with AS9100 certification. Specializing in engine parts, structural components, and critical aerospace systems using advanced titanium and aluminum machining technologies.
Get Instant QuoteAerospace CNC Machining Excellence
Our state-of-the-art CNC machining capabilities deliver precision aerospace components that meet the most demanding industry standards. From prototype development to high-volume production, we ensure every part meets critical safety and performance requirements.
Engine Components
Precision manufacturing of turbine blades, compressor discs, fuel nozzles, and other critical engine parts using advanced 5-axis CNC technology.
- Turbine and compressor blades
- Engine casings and housings
- Fuel injection systems
Structural Components
Manufacturing aircraft frames, wing spars, bulkheads, and brackets with exceptional precision and reliability for optimal structural integrity.
- Wing spars and ribs
- Fuselage components
- Mounting brackets
Landing Gear Systems
Complex landing gear components requiring ultra-precise tolerances and superior strength for critical aircraft safety operations.
- Landing gear struts
- Hydraulic components
- Actuator housings
Advanced Manufacturing Capabilities
Our aerospace CNC machining facility is equipped with the latest multi-axis CNC machines, capable of handling the most complex geometries and tightest tolerances required in aerospace applications. We specialize in both prototyping and high-volume production runs.
Critical Aerospace Applications
Our precision CNC machining serves every critical system in modern aircraft, from propulsion to navigation, ensuring the highest standards of safety and performance.
Propulsion Systems
Manufacturing critical engine components including turbine blades, compressor discs, and combustion chamber parts with exceptional precision and heat resistance.
Structural Systems
Precision machining of airframe components, wing structures, and fuselage parts that provide the backbone of aircraft structural integrity.
Avionics & Controls
Manufacturing precision housings, connectors, and mechanical components for navigation, communication, and flight control systems.
Mission-Critical Performance
Every aerospace component we manufacture undergoes rigorous quality control processes to ensure it meets the extreme demands of flight operations. Our parts are designed to perform flawlessly in the harshest environments, from sub-zero high altitudes to intense engine heat.
Advanced Aerospace Materials
We work with the most advanced materials in aerospace manufacturing, each selected for specific properties that ensure optimal performance in demanding flight environments.
Titanium Alloys
Titanium represents the pinnacle of aerospace materials, offering an exceptional strength-to-weight ratio and outstanding corrosion resistance. Our expertise in machining titanium alloys, particularly Ti-6Al-4V and Ti-6Al-2Sn-4Zr-2Mo, enables us to create components that perform reliably in the most demanding aerospace applications.
Ti-6Al-4V (Grade 5)
The most widely used titanium alloy in aerospace, offering excellent fatigue resistance and high strength.
High-Temperature Performance
Maintains strength and stability at temperatures up to 1000°F, ideal for engine applications.
Corrosion Resistance
Exceptional resistance to atmospheric and marine corrosion, perfect for aircraft exteriors.
Aluminum Alloys
Aluminum alloys provide the perfect balance of strength, weight, and machinability for aerospace applications. We specialize in precision machining of 7075, 6061, and 2024 aluminum alloys, creating components that meet stringent aerospace requirements while maintaining cost-effectiveness.
7075-T6 Aluminum
High-strength alloy with excellent fatigue resistance, commonly used in aircraft structures.
Excellent Machinability
Superior machining characteristics allow for complex geometries and fine surface finishes.
Cost-Effective Solution
Optimal balance of performance and cost for high-volume aerospace applications.
Material Certification
All materials come with full traceability and certification to aerospace standards including AMS, ASTM, and AS specifications.
Quality Testing
Comprehensive material testing including tensile strength, hardness, and chemical composition verification for every batch.
Full Traceability
Complete material traceability from mill source through final part delivery, ensuring compliance with aerospace regulations.
AS9100 Quality Excellence
Our commitment to aerospace quality is demonstrated through our AS9100 certification and rigorous quality management systems that exceed industry standards.
Certified Quality Management
Our AS9100D certification demonstrates our commitment to the highest standards of quality management in aerospace manufacturing. This certification ensures that every aspect of our operation, from supplier management to final inspection, meets the stringent requirements of the aerospace industry.
First Article Inspection
Complete dimensional and functional verification of first production parts using advanced CMM and optical measurement systems.
- 100% dimensional verification
- Material certification review
- Process capability studies
Statistical Process Control
Real-time monitoring and control of manufacturing processes using advanced SPC techniques to ensure consistent quality.
- Cpk values ≥ 1.67
- Real-time process monitoring
- Continuous improvement
Complete Documentation
Comprehensive documentation and traceability for every part, ensuring full compliance with aerospace regulations.
- Certificate of Conformance
- Material test reports
- Process documentation
Quality Metrics That Matter
Advanced Manufacturing Processes
Our state-of-the-art manufacturing facility employs the latest CNC machining technologies and processes to deliver aerospace components with unmatched precision and reliability.
Multi-Axis CNC Machining
Our advanced 5-axis CNC machining centers enable us to manufacture the most complex aerospace components in a single setup, reducing handling, improving accuracy, and ensuring consistent quality. These machines can handle the intricate geometries required for modern aircraft design.
5-Axis Simultaneous Machining
Complex contours and undercuts in a single operation
Micron-Level Precision
Tolerances as tight as ±0.0001" (±2.5 μm)
24/7 Automated Operation
Continuous production with robotic part handling
Swiss Turning
Ultra-precise machining of small, complex parts with exceptional surface finishes and tight tolerances.
- • Diameter tolerance: ±0.0001"
- • Surface finish: Ra 8 μin
- • Length-to-diameter ratios up to 40:1
EDM Processing
Electrical discharge machining for complex internal geometries and hard-to-machine materials.
- • Wire EDM for intricate contours
- • Ram EDM for deep cavities
- • Surface finish: Ra 4 μin
Surface Finishing
Advanced surface treatments to meet aerospace performance and aesthetic requirements.
- • Anodizing and hard coating
- • Passivation and chemical etching
- • Polishing and deburring
Quality Inspection Technology
Our quality assurance process employs the most advanced inspection technologies available, including coordinate measuring machines (CMM), optical comparators, and surface profilers to ensure every part meets exact specifications.
Why Choose Our Aerospace CNC Services
With decades of aerospace manufacturing experience, we deliver the precision, quality, and reliability that aircraft manufacturers demand.
AS9100 Certified
Full compliance with aerospace quality management standards and continuous improvement processes.
Expert Team
Aerospace engineers and machinists with decades of experience in critical component manufacturing.
Advanced Technology
State-of-the-art 5-axis CNC machines, Swiss lathes, and inspection equipment for ultimate precision.
Fast Delivery
Rapid prototyping and production capabilities with 24/7 automated manufacturing operations.
Frequently Asked Questions
Get answers to common questions about our aerospace CNC machining services, quality standards, and manufacturing capabilities.
What aerospace certifications do you maintain?
We maintain AS9100D certification, the aerospace industry's most stringent quality management standard. We are also ITAR registered and ISO 9001:2015 certified. Our facility undergoes regular audits to ensure continuous compliance with aerospace regulations and maintains full traceability for all materials and processes.
What tolerances can you achieve for aerospace parts?
Our precision CNC machining capabilities can achieve tolerances as tight as ±0.0001" (±2.5 μm) for critical aerospace components. Standard tolerances range from ±0.001" to ±0.005" depending on part geometry and material. All tolerances are verified using advanced coordinate measuring machines (CMM) and optical measurement systems.
Which aerospace materials do you specialize in machining?
We specialize in machining titanium alloys (Ti-6Al-4V, Ti-6Al-2Sn-4Zr-2Mo), aluminum alloys (7075, 6061, 2024), stainless steels (15-5PH, 17-4PH, 316L), superalloys (Inconel 718, Hastelloy), and composite materials. All materials come with full certification and traceability to aerospace specifications (AMS, ASTM, AS).
How do you ensure quality for critical aerospace components?
Our quality assurance process includes First Article Inspection (FAI), Statistical Process Control (SPC), and 100% dimensional inspection using advanced CMM technology. Every part undergoes rigorous testing including dimensional verification, material certification review, and functional testing. We maintain Cpk values ≥ 1.67 for all critical dimensions.
What types of aerospace components do you manufacture?
We manufacture a wide range of aerospace components including engine parts (turbine blades, compressor discs, fuel nozzles), structural components (wing spars, bulkheads, brackets), landing gear components, avionics housings, hydraulic system parts, and flight control components. We serve both commercial and military aerospace applications.
What is your typical lead time for aerospace parts?
Lead times vary based on part complexity and quantity. Prototype parts typically require 2-3 weeks, while production runs may take 4-8 weeks depending on volume and complexity. We offer expedited services for urgent requirements and maintain inventory programs for high-volume customers to reduce lead times.
Do you provide design for manufacturability (DFM) services?
Yes, our experienced aerospace engineers provide comprehensive DFM analysis to optimize part designs for manufacturing efficiency, cost reduction, and quality improvement. We review designs for machinability, suggest alternative approaches, and provide recommendations for material selection and tolerancing to ensure optimal performance and manufacturability.
Can you handle both prototype and production volumes?
Absolutely. We handle everything from single prototype parts to high-volume production runs of 10,000+ pieces. Our flexible manufacturing approach includes rapid prototyping capabilities, pilot production runs, and scalable manufacturing processes. We maintain dedicated production lines for different volume requirements to ensure optimal efficiency.
What surface treatments and finishes do you offer?
We provide a comprehensive range of surface treatments including anodizing (Type II and Type III), passivation, chemical etching, hard coating, plating (chromium, nickel), powder coating, and specialized aerospace coatings. All surface treatments are performed in accordance with aerospace specifications and include proper documentation and certification.
How do you maintain material traceability for aerospace parts?
We maintain complete material traceability from mill source through final part delivery. This includes heat lot tracking, chemical composition verification, mechanical property testing, and Certificate of Conformance (CoC) for every shipment. Our ERP system tracks all materials and processes, ensuring full compliance with aerospace traceability requirements and enabling rapid response to any quality issues.