Additive manufacturing helps aerospace manufacturers innovate faster, test more thoroughly and maximise resources.
Over the last decade, aerospace innovators have pushed 3D printing beyond the realm of prototyping into advanced tooling and production applications. Objective 3D has partnered with leaders within aerospace, like you, to revolutionise the manufacturing process, developing materials & processes that make 3D printed parts a commonplace on aircrafts.
Gain the freedom to fabricate topologically-optimised components to subtract weight without adding cost in manufacturing.
Gain the freedom to fabricate topologically-optimised components to subtract weight without adding cost in manufacturing.
Gain the freedom to fabricate topologically-optimised components to subtract weight without adding cost in manufacturing.
Avoid high machining costs for custom tooling or spare parts that need to be produced for individual repairs or restoration. (Learn more)
Soften the impact of late design changes with durable, flight-worthy components that can be 3D printed in-house in certified, traceable material. (Learn more)
Create complex geometries such as air ducts, lightweight engine parts, structural housing and more, using certified materials that deliver maximum design performance. (Learn more)
Solve design challenges before you commit to expensive and time-consuming tooling and production using high-performance thermoplastics. (Learn more)
Rigid, opaque, multi-colour, transparent, and flexible materials for realistic material models. (Learn more)
Create complex geometries such as air ducts, lightweight engine parts, structural housing and more, using certified materials that deliver maximum design performance. (Learn more)
Gain the freedom to fabricate topologically-optimised components to subtract weight without adding cost in manufacturing.
Gain the freedom to fabricate topologically-optimised components to subtract weight without adding cost in manufacturing.
Gain the freedom to fabricate topologically-optimised components to subtract weight without adding cost in manufacturing.
Avoid high machining costs for custom tooling or spare parts that need to be produced for individual repairs or restoration. (Learn more)
Soften the impact of late design changes with durable, flight-worthy components that can be 3D printed in-house in certified, traceable material. (Learn more)
Create complex geometries such as air ducts, lightweight engine parts, structural housing and more, using certified materials that deliver maximum design performance. (Learn more)
Solve design challenges before you commit to expensive and time-consuming tooling and production using high-performance thermoplastics. (Learn more)
Rigid, opaque, multi-colour, transparent, and flexible materials for realistic material models. (Learn more)
Create complex geometries such as air ducts, lightweight engine parts, structural housing and more, using certified materials that deliver maximum design performance. (Learn more)
BAE Systems reduces costs and lead times for prototyping, aircraft tooling and part producing with FDM additive manufacturing.
Read Case Study
Learn how Boom Supersonic utilises Stratasys 3D printing FDM technology to redefine commercial air travel.
Read Case StudiesAdditive manufacturing is disrupting the aerospace industries, accelerating production, whilst reducing lead times, cost, and material waste. Designers & engineers can now embrace additive manufacturing within the design process to produce flight-worthy aircraft parts for the most demanding environments.
Benchmark our different technologies to find the one that best suits your application.
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