Aerospace & Defense
Innovation and collaborative, synchronized program management for new programs
Ever stricter noise and emission regulations put enormous pressure on gas turbine engine makers. At the same time, energy efficiency, reliability and safety are function-critical. Overall performance, as a combination of these design criteria, depends on the interaction of an ever-increasing amount of highly specialized subsystems. Both in terms of structure and process, jet engine assemblies are very complex and require the collective knowledge of multiple domain experts.
To develop aircraft engines that have the right balance between functional performance requirements, manufacturers require an engineering platform that provides an integrated view of a large set of disciplines. At the same time, they also need the most advanced tools for individual applications. The right solution will support the decision-making process by delivering deep engineering insight on all levels, from component to full system, while also facilitating data streams between specialists.
Siemens PLM Software’s portfolio uniquely combines robust design space exploration, scalable multi-physics, dynamics and CFD capabilities, industry-leading physical testing and experienced engineering services to support aircraft engine design from concept to certification. In addition, our solutions include dedicated tools for very specific aircraft engine design applications, including combustion, rotor dynamics, thermo-mechanical structural analysis, turbine testing and more.
Learn how an integrated, end-to-end structural development process helps streamline the entire aerostructure process, allowing aircraft manufacturers to improve productivity and avoid cost overruns.
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