Aerospace digital thread
Aerospace MRO
Design for aerospace MRO to improve service lifecycle efficiencies. Integrate reliability requirements early to limit failure rates while enabling predictable in-service maintenance schedules. Keep fleets in service while minimizing operational downtime and creating service revenue opportunities.
Why design for aerospace MRO?
Designing for aerospace MRO involves integrating reliability criteria and failure triggers with operational and maintenance requirements at the earliest stage of product design. It helps manufacturers limit failure rates while enabling proactive in-service maintenance schedules. Predictable service processes and better knowledge of the condition of customer assets helps increase revenue opportunities.
Benefit from robust aerospace maintenance solutions
Design for serviceability and connect all data to the digital twin through the service lifecycle to optimize your aerospace maintenance processes. Solutions for optimized sustainment and availability bring strong results:
Create a comprehensive digital twin
Centralize data across the design and service lifecycle with the digital twin to reduce inefficiencies. (AERALIS)
Ensure operational readiness
Maintain and upgrade fleets with minimal disruptions. (ANTONOV)
Optimize fleet sustainment early
Integrate reliability requirements and failure triggers at the earliest design stages. (Safran Landing Systems)
Implement well-engineered aerospace MRO solutions
Streamline maintenance processes, increase availability and reduce downtime in A&D. Employ service lifecycle management solutions early in product development to achieve efficient service later, synced data across the product and service lifecycle and increased confidence in maintenance operations.
Improve service lifecycle efficiencies by considering maintainability, serviceability, testability, safety, lifecycle insights and service analysis early in the product development lifecycle. By designing for service and safety from the start, you can reduce downtime, increase availability and improve safety.
Link all field maintenance data to the digital twin so as-maintained data stays in sync with as-designed data, keeping all stakeholders up to date with current information. Creating this complete and accurate view of assets enables proactive maintenace and reduces failures.
Using in-service data, feel confident that the service plan is always up to date with engineering changes. The digital twin enables this by connecting all data across the service lifecycle. Stakeholders have access to up-to-date technical publications, manuals and configuration data, regardless of location, increasing efficiency and overall support system optimization.
Leveraging Teamcenter and NX to digitally transform the entire engineering process from concept to production
Company:AERALIS
Industry:Aerospace & defense
Location:Bristol, United Kingdom
Siemens Software:NX, Teamcenter
Working with Siemens closely has helped us build a process that is familiar to regulators and operators around the world, while capitalizing on the digital opportunities that exist by using world-class digital engineering and creating digital models from the very start.
Explore our aerospace maintenance resource library
Fleets are only valuable when in use. Take a new approach to aerospace MRO to reduce operational downtime and drive service revenue. Design for service and safety requirements early to facilitate service lifecycle effiencies. Connect as-maintained to as-designed data to keep data in sync. Finally, optimize the support system using in-service data to drive confidence that all asset data is accurate.
Aerospace MRO solutions to strengthen your program
RAMS engineering
Service engineering
Technical publication
Service execution
Industrial IoT
Application development platform
FAQs about aircraft maintenance engineering
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Resource library | Optimized sustainment and availability