High-precision mold & die technologies are essential in the manufacturing of aerospace parts, which should be made of materials that are lightweight, yet strong and resistant to harsh environments, high temperatures and high air pressures to ensure operational efficiency and the safety of passengers and cargo. In addition, all parts must pass certification standards such as NADCAP, AS9100 or ISO 9001, to prevent non-compliance and costly product recalls.
Modern Mold & Die Technologies for Aerospace Parts Manufacturing |
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CNC Manufacturing
Aerospace manufacturing employs diverse precision techniques to meet stringent industry requirements. CNC machining can execute programmed instructions to precisely remove material, achieving exact dimensions through processes like milling, turning, and drilling. |
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| Forging
Forging produces durable parts in bulk volumes using open-die and closed-die methods, creating components from turbine blades to structural elements with superior mechanical properties. |
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| Injection Molding
Injection molding forms thermoplastic into lightweight, non-structural aircraft interior components such as seats and control panels, helping reduce fuel consumption during flight.r streams, often with abrasive particles, to precisely shape lightweight materials for control surfaces, interior panels, and ventilation systems. |
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Metal Stamping
Metal stamping delivers high-precision structural components with consistent quality across multiple parts such as panels, brackets, and other structural components. |
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| Additive Manufacturing
Additive manufacturing or 3D printing techniques like selective laser melting and fused deposition modeling create complex geometries for brackets, ducting, and engine components that would be difficult to produce conventionally. |
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| Waterjet Cutting
Waterjet cutting uses high-pressure water streams, often with abrasive particles, to precisely shape lightweight materials for control surfaces, interior panels, and ventilation systems. |
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In summary, precision mold & die technologies are highly essential in the manufacturing of aerospace parts. Each technique offers unique advantages for specific aerospace applications and materials used. The criteria for selecting the processing method depends on the properties of the material, the complexity, and the volume required. Manufacturers looking to embark on the aerospace parts manufacturing should make decision based on the expertise and existing technologies or technologies planned to procure in the future. |
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| Meet these leading Exhibitors and many more that will uplift your productivity and maximize your profit at the show. They will be there; we hope you will, too! |
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MOLD MAKER AND ACCESSORIES |
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The biggest gathering of mold and die manufacturers will come together at InterMold Thailand, the annual event of the industry where they can experience the next level of productivity through the next generation of mold-making machinery and maintenance technologies from over 250 brands of tools and tooling, 3D printing providers and mold & die OEM’s. |
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| Join the next-gen of mold engineering through this exclusive PR campaign |
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- Strategic visitor invitations to the right buyers.
- Highly specific direct mail campaigns to our extensively researched customer database.
- Radio & TV spots.
- Advertising, press releases, and editorial coverage in newspapers, magazines and online channels.
- Close liaison with target media and trade associations.
- eMarketing via strategic social media.
- Searching for exhibitor information through the website
- Knowledge and many other special activities
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