PCB Prototype the Easy Way

Full feature custom PCB prototype service.

Aerospace & Aviation

We Support Aerospace Science and Technology

Online instant pricing & Free DFM
Rapid prototype as far as 2 days
Tight tolerance control into +/- 0.01mm
Bosch HP tesla foxconn

We provide unmatched speed and efficiency for aerospace industry prototyping and production.

Powerful Capabilities

Powerful Capabilities

Our powerful manufacturing capabilities are the cornerstone of our success.

Instant Quotation

Instant Quotation

Get accurate and timely quotes with our innovative instant quotation system.

High Precision Parts

High Precision Parts

Our advanced manufacturing techniques and cutting-edge technology allow us to produce intricate.

Fast Cycle Time

Fast Cycle Time

At PCBWay, we pride ourselves on delivering fast cycle times that keep you ahead of the competition.

Prototype
Production Verification Test
Mass production

Prototype

Accelerate early design turnaround with a variety of 3D printing and vacuum casting options.

Rapid Pototype
Aerospace Parts Application

Aerospace & Aviation Parts Applications

Rapid prototyping
3D printing, CNC machining, to verify the feasibility of new designs.
Supply of production accessories
Volume manufacturing support

Cooperation With the Top Aerospace & Aviation Companies Worldwide

From custom designs to unique color and material options, PCBWay’s innovative manufacturing model gives you an advanced competitive edge.

  • Drone
  • Rocket
  • Satellite
  • Astronaut accessories
  • Booster
  • Educational rocket
  • Space launch system
  • Launcher
  • Navigation System
  • Energy recovery
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Aerospace Companies

Unleashing Our
Company's Strengths

  • Technologies
    52 & 4

    Partner Network & Industrial Base

  • EMS
    1,682,560 +

    Parts & Prototypes Produced

  • Passionate Employees
    100 +

    Materials and Finishings

PCBWay is a one-stop solution platform from prototyping, R&D to mass production. Utilizing our instant quoting platform and comprehensive supplier network, you can quickly obtain design validation and accelerate your product launch.

Production capacity

Industry certifications including ISO 9001, IATF16949

Strict quality control

Provide professional quality inspection report

  • Standard Inspection with Formal Report
  • CMM Inspection with Formal Report
  • Source Material Certification

Instant quote online

The online order page provides different parameters and processes to get a quote quickly

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Recognized by Many Large Enterprises

  • Consumer electronics companies
  • Personal and household products manufacturers
  • Automobile OEMs
  • Automotive Part Companies
  • Aircraft OEMs
  • Commercial aviation companies
  • Healthcare providers
  • Diagnostics equipment manufacturers
  • Industrial robot manufacturers
  • Heavy Machinery Manufacturers

Gallery of Aerospace & Aviation Parts

FAQ's

What are the applications of CNC machining in the aerospace industry?

CNC machining is widely used in the aerospace industry. It can be used to manufacture aircraft parts, such as engine parts, structural parts, cabin equipment, etc. CNC machining provides the manufacture of components with high precision, complex shapes and premium surface quality, meeting the precision and reliability requirements of the aerospace industry.

What are the advantages of titanium alloy over other metal materials?

High Strength-to-Weight Ratio: Titanium alloys have an excellent strength-to-weight ratio and are one of the strongest materials among metals. Compared with steel and aluminum, titanium alloys have a lower density, so the use of titanium alloys in the aerospace field can achieve lighter designs, reduce the weight of aircraft, and improve fuel efficiency and carrying capacity.


Good corrosion resistance: titanium alloy has good corrosion resistance, and has high corrosion resistance to most common corrosive media. This makes titanium alloys particularly suitable for components in the aerospace sector that face corrosive environments, such as spacecraft casings, engine components and fuel systems.


Excellent high temperature strength: titanium alloy has good strength and stability in high temperature environment. This allows titanium alloys to withstand high temperature stress and extreme temperature requirements in aerospace, such as the high temperature environment faced by engine components and spacecraft entering the atmosphere.


Good biocompatibility: Titanium alloy has good biocompatibility and excellent compatibility with human tissue. This has led to the widespread use of titanium alloys in medical applications such as medical devices and artificial joints. In the field of aerospace, this feature also helps to reduce the adverse effects on the human body of parts that come into contact with astronauts.


Good machinability: Although titanium alloy has certain processing difficulties, it has better machinability compared with other high-strength metals. Titanium alloys can be formed by various processing methods, such as forging, casting, machining, etc., to meet the manufacturing needs of complex parts.

In the aerospace industry, which metal or plastic materials are generally used?

In the aerospace industry, commonly used materials include metals such as aluminum alloys, stainless steel, titanium alloys, and high-temperature alloys, as well as plastics such as polyimides, polyamides, polytetrafluoroethylene (PTFE), and polycarbonates. These materials are chosen for their specific properties such as high strength-to-weight ratio, corrosion resistance, high-temperature stability, electrical insulation, and durability. They are utilized in the manufacturing of aircraft structures, engine components, spacecraft outer shells, insulation parts, electronic components, seals, and transparent panels, among others.

Automotive

Automotive

Consumer Electronics

Consumer Electronics

Medical and Dental

Medical and Dental

Industrial Machinery

Industrial Machinery

Robotics

Robotics