Product Description
High precision aircraft alloy parts are crafted for durability and performance, meeting stringent aerospace industry standards. Manufactured with advanced technology for reliable, safe operation, these parts are designed to withstand extreme conditions faced by aircraft. Each component is carefully engineered to ensure optimal strength, lightweight performance, and resistance to corrosion and wear.


Product parameters
Design | We provide customized size & follow clients idea and designs |
Materials | Stainless Steel, Copper, Aluminum, Carbon Steel, Mild Steel, Alloy Steel, Titanium Alloy, Mild Steel-ERW – Any metal |
Mfg. processes | NC Bending, CNC Bending, End Forming, Roll, Boost, Stretch/Form, Squeeze , Push, Coiling, CNC Precision Machining, CNC Milling, Swiss type sliding head |
Dimension | 9.5 Φ x 1.0 / 12.7 Φ / 19.05 Φ (Custom) |
Length/ Size | We provide customized size & follow clients idea and designs |
Surface Treatment | Chrome Plating, Buffing, Nickel (As per clients requirement) |
Thread | ANSI B16.9, ANSI B16.28, JIS B2311, DIN 2605, 2615, 2616, and 2617 |
Applications | Aircraft, Space craft, Airspace Engineering, Aerospace Industries |
Advantage | One stop shopping, |
customized products, | |
Comparative price, | |
High precision quality, | |
On time Deliver, | |
Technical support, | |
Our service | We will answer your email within 2 hours |
Custom Process

1. Customer inquiry

2.Send drawing/sample

3. Mold making

4. Machine processing

5. Quality Control

6. Packing

7. Transportation

8. After-sale support
Process Type

Die Casting

Deburring

Drilling
Material

Aluminum Alloy

Zinc Alloy

Alloy Steel

Stainless Steel
Quality Control

Quality control of high precision aircraft alloy parts ensures that every component meets the highest standards of performance, durability, and safety. Using advanced inspection technologies, each part undergoes rigorous testing, including dimensional checks, material analysis, and stress testing, to ensure it can withstand the extreme conditions of aerospace environments. The parts are evaluated for resistance to corrosion, fatigue, and wear to ensure long-lasting reliability.
Processing capability

The processing capability of high precision aircraft alloy parts includes advanced machining techniques using state-of-the-art CNC technology to achieve tight tolerances and complex geometries. We handle a wide range of aerospace-grade alloys, ensuring optimal strength, lightweight performance, and resistance to extreme conditions such as heat, corrosion, and stress. With our expertise in precision engineering, we can produce intricate components that meet rigorous industry standards for safety and reliability.
Additional processes

Additional processes for high precision aircraft alloy parts include surface treatments like anodizing, coating, and heat treatment to enhance corrosion resistance, durability, and overall performance in aerospace applications. These treatments ensure the parts can withstand extreme temperatures, pressures, and wear. Polishing and laser marking may also be applied for improved aesthetics and traceability.