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Aerospace

Aerospace Manufacturing Capabilities

Leverage our expert manufacturing services from prototyping and design validation to testing and product launch. We deliver precise, high-quality flight-ready components with fast turnaround and cost efficiency. Our robust quality control ensures parts meet your exact specifications.

CNC machining

Milling, turning and post-processing

Injection molding

Prototypes and production tooling

3D printing

FDM, SLA, SLS, MJF

Sheet metal fabrication

Laser cutting, bending, post-processing

Why Do Aerospace and Defense Companies Use GHXLD?

Aerospace Tools and Fixtures

Receive durable, production-grade tools, fixtures, and other essential aids within days, ensuring continuous progress in development and workflow efficiency.

Automated CNC Machining

Utilize advanced high-speed 3-axis and 5-axis milling, along with turning featuring live tooling, to efficiently produce complex metal and plastic components with precision.

Aerospace Materials

Select from a wide range of machined metals, including aluminum, titanium, and stainless steel 17-4 PH, as well as 3D-printed metals such as Inconel and cobalt chrome, to meet your project's specific material requirements.

Quality Certifications and Traceability

Leverage our AS9100 and ISO9001-certified machining and 3D printing processes for the production of high-precision, high-requirement parts. For qualifying projects, aluminum traceability is also available to ensure compliance and quality assurance.

What Materials Work for Aerospace Components?

Aluminum Alloys. Lightweight and strong, these corrosion-resistant alloys are commonly used in aerospace applications such as fuselage, wings, and structural components. Available through machining and metal 3D printing.
Stainless Steel. Known for its high strength and resistance to corrosion and oxidation, stainless steel is used in engine components, fasteners, and other critical aerospace parts. Available through machining and welding.
Titanium Alloys. Strong, lightweight, and highly resistant to high temperatures and corrosion, making them ideal for engine components, landing gear, and fasteners. Available through machining and metal 3D printing.
Aerospace parts Injection Processing
Inconel. This 3D-printed metal is a nickel chromium superalloy ideal for rocket engine components and other applications that require high-temperature resistance.
Nickel-Based Superalloys. These high-temperature-resistant materials are ideal for turbine blades and exhaust systems, offering excellent resistance to creep and corrosion. Available through casting and machining.
Liquid Silicone Rubber. Our elastic fluorosilicone material is specifically geared towards fuel and oil resistance while our optical silicone rubber is a great PC/PMMA alternative.



Industrial mould

Key Factors in Material Selection:

  • Lightweight: Improved fuel efficiency and performance.
  • Strength & Toughness: Resistance to mechanical stress, impact, and fatigue.
  • Temperature Resistance: Capability to withstand both high and low temperatures.
  • Corrosion Resistance: Protection against moisture, salt, and high-speed airflow.
  • Cost: Controlling manufacturing costs, especially in mass production.

Ready to Order Your Parts Online?

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