High-Precision CNC Turning Services for Aerospace Applications: 4 Capabilities and Astounding Benefits

High-Precision CNC Turning Services for Aerospace Applications: 4 Capabilities and Astounding Benefits

CNC turning is a precision machining process that is used to create complex parts from a variety of materials. It is a popular choice for aerospace applications because it can produce parts with high accuracy and surface finish. 

In this post, TDB Tech will discuss the definition, use, and examples of CNC turning for aerospace parts.

Contents

About CNC Turning Aerospace Parts

About CNC Turning Aerospace Parts
About CNC Turning Aerospace Parts

When it comes to aerospace parts, they are the components that make up aircraft, spacecraft, and missiles. Aerospace parts are manufactured to exacting standards of precision, durability, and reliability since they must perform perfectly in high-stress circumstances.

Nowadays, thanks to the cutting-edge technology in CNC machining, we can produce varying parts which provide for military aircraft, civil aircraft, commercial airliners, Jumbo Passenger Jets, Cargo Airplanes, Twin Turboprops, JET aircraft, Aerobatic, Amphibious, and more.

CNC machined aircraft parts with CNC Machining Services must be processed according to standards of excellence in terms of efficiency and economics for the purpose to satisfy the demanding standards of the aviation market. Accuracy and precision are vital when manufacturing aerospace spare parts for either civil or military aviation.

TDB Precision CNC Aerospace Components & Aircraft Parts

TDB Tech has been the supplier that aircraft builders, owners, pilots, and aviation businesses have depended on since 2015. We stock a large inventory of aircraft parts, construction materials, avionics, and pilot supplies. 

We stock a large variety of avionics, pilot supplies, construction supplies, and aircraft parts. 

TDB Precision CNC Aerospace Components Aircraft Parts
TDB Precision CNC Aerospace Components Aircraft Parts

We use CNC tooling to produce our precision components. The parts are especially precise thanks to the CNC machinery and CAD-CAM technology, so we make sure that our CNC equipment is up to date with the most recent technological advancements.

We specialize in the precision machining of non-safety-critical parts for galleys, interior trim, fittings, and instrumentation.

We manufacture CNC Aerospace Parts and cheap machining parts for aerospace for your orders under the control of the ISO 9001: 2015 quality system.

Our CNC machining centers and CNC turn-mill complex lathe processing parts are widely used in the Aerospace industry, including fasteners, connector joints, screws, shafts, eccentric hollow shafts, pins, and other related parts.

Our highly qualified workforce has years of experience making precision components. Our CNC machining aircraft parts have been extensively used in markets throughout the world, including the United States, Europe, the Middle East, Southeast Asia, Japan, and other regions. We have developed business relationships with clients from many different nations and regions.

Main Types of CNC Machining Aerospace Parts – TDB Tech

Main Types of Our CNC Machining Aerospace Parts
Main Types of Our CNC Machining Aerospace Parts

There are many different types of CNC machining aerospace parts, but some of the most common include:

  • Turning: This process uses a rotating tool to create cylindrical shapes. Turning is often used to create parts such as shafts, axles, and bearings.
  • Milling: This process uses a rotating cutter to create flat, curved, or irregular shapes. Milling is often used to create parts such as brackets, housings, and gears.
  • Grinding: This process uses a rotating abrasive wheel to remove material from a workpiece. Grinding is often used to create parts with very high precision and surface finish.
  • EDM: This process uses electrical discharge to remove material from a workpiece. EDM is often used to create parts from difficult-to-machine materials, such as titanium and Inconel.

At TDB Tech, we are dedicated to making the world’s best prototypes and precision parts for a wide range of industries.

CNC Aerospace Machining Capabilities – TDB Tech

Our CNC machining services offer a wide range of capabilities, including the ability to work with a variety of materials, produce parts with tight tolerances and complex geometries, and meet the demanding requirements of the aerospace industry. 

Materials of Our Precision Aerospace Components
Materials of Our Precision Aerospace Components
  1. We provide technical expertise, rapid prototyping, and post-processing services to help our clients achieve their manufacturing goals.
  2. Ability to work with a wide range of materials, including aluminum, brass, low carbon steel, stainless steel, steel alloy, and titanium.
  3. Capability to manufacture parts with extremely tight tolerances and complex geometries.
  4. Increased precision, speed, and flexibility.
  5. We are committed to providing our clients with the highest quality CNC machining services. Our team of experienced engineers and machinists is dedicated to meeting your needs and exceeding your expectations.

We provide the following services to aid clients in the aerospace sector:

  • Deliver robust, accurate, production-grade components in a matter of days.
  • Faster production and prototyping to lower development costs.
  • Live tooling 3-axis and 5-axis high-speed milling and turning for complex components.
  • Certifications for excellence: ITAR registered Traceability for Qualified Aluminum Parts, ISO 9001:2015, AS9100.
  • Post-processing improvements like chromate plating and anodizing.

Benefits of Aerospace CNC Parts

Benefits of Our Aerospace CNC Parts
Benefits of Our Aerospace CNC Parts

CNC aerospace machining offers several advantages over traditional machining methods, including:

  • Increased precision: CNC machines can produce parts with much tighter tolerances than traditional machining methods, which is essential for the aerospace industry, where parts must be able to fit together precisely to ensure the safety of the aircraft or spacecraft.
  • Increased speed: CNC machines can produce parts much faster than traditional machining methods, which can help to reduce costs and get products to market more quickly.
  • Increased flexibility: CNC machines can be programmed to produce a wide variety of parts, which gives manufacturers more flexibility in their production processes.

FAQs about CNC Turning Aerospace Parts

What are aerospace parts made of?

Aerospace parts are made of a variety of materials, including:

Metals: Metals are the most common material used in aerospace parts, as they are strong, lightweight, and durable. Common metals used in aerospace parts include aluminum, titanium, and steel.

Plastics: Plastics are becoming increasingly popular for use in aerospace parts, as they are lightweight, strong, and corrosion-resistant. Common plastics used in aerospace parts include nylon, polyester, and fiberglass.

Ceramics: Ceramics are used in aerospace parts for their high strength, high-temperature resistance, and electrical insulation properties. Common ceramics used in aerospace parts include silicon carbide, aluminum oxide, and zirconium oxide.

Composite materials: Composite materials are made from a combination of two or more materials, such as metal, plastic, and ceramic. Composite materials are used in aerospace parts for their strength, lightweight, and corrosion resistance. Common composite materials used in aerospace parts include carbon fiber, glass fiber, and Kevlar.

What is the demand for aerospace parts?

The demand for aerospace parts is expected to grow in the coming years. This is because of a variety of factors, including:

Increasing air travel: The global air travel market is expected to grow at a CAGR of 4.7% from 2022 to 2032. This growth will lead to an increased demand for new aircraft, which will in turn require more aerospace parts.

New aircraft designs: New aircraft designs are becoming more complex, requiring more specialized aerospace parts. For example, the Boeing 787 Dreamliner uses carbon fiber composites, which require new manufacturing processes.

Increased focus on safety: The aerospace industry is increasingly focused on safety, which is leading to the use of more advanced materials and manufacturing processes. This is also increasing the demand for aerospace parts.

By 2033, the global aerospace parts manufacturing market is expected to be worth $1.297 trillion. The market is being driven by the increasing demand for commercial aircraft, rising air traffic, and the need for more fuel-efficient and environmentally friendly aircraft.

What is the key trend in the aerospace parts manufacturing market?

The following are some of the key trends in the aerospace parts manufacturing market:

  • The use of composites: Composite materials are becoming increasingly popular in aerospace applications due to their light weight and strength.
  • 3D printing: 3D printing is being used to produce complex aerospace parts that would be difficult or impossible to manufacture using traditional methods.
  • Additive manufacturing: Additive manufacturing is a process that builds parts layer by layer, which can be used to produce complex parts with intricate features.

These trends are leading to the development of new and innovative aerospace parts that are helping to make aircraft safer, more efficient, and more environmentally friendly.

Conclude

CNC turning is a versatile manufacturing process that can be used to create a wide variety of aerospace parts. The capabilities of CNC turning are constantly evolving, and new technologies are being developed all the time. 

This makes CNC turning an ideal choice for manufacturers who need to produce high-precision, complex parts for the aerospace industry.

We hope this information has made it easier for you to understand your CNC Turning knowledge. Contact TDB’s customer service department if you need any more help or have any queries about Precision Machining Services for CNC Turning Aerospace Parts & Components.

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