This client requires that all new employees and temporary workers be fully vaccinated against COVID-19.
This client allows candidates who are not fully vaccinated at the time of hire a reasonable amount of time to obtain vaccinated status.
This position requires vaccination against COVID-19 or, if applicable, an approved accommodation for religious or medical reasons.
Position Summary: This position supports the fleet in-service repair of aircraft structures and is responsible for the justification of repair solutions from a Fatigue and Damage Tolerance point of view, on Time, to Cost, and to Quality.
Duties include performing F&DT analysis on metallic parts while working in close collaboration with design and static stress colleagues to provide repair solutions.
Methods include the use of both classical hand calculations and computer techniques to develop efficient repair solutions to satisfy airworthiness requirements and customers (Airlines/MROs).
Primary Responsibilities: Create high-quality integrated and certified engineering repair solutions for the airlines and internal customers within given time scales.
Perform F&DT analyses to assess that structural integrity requirements have been met using standard hand and computer methods.
Assignments include structural justification documentation and subsequent certification documents for in-service fleet support.
Additional Responsibilities: Liaise with Design, Static Stress, and other appropriate Airbus departments to come up with optimum design solutions for the airline customer.
Liaise with Principal and Senior F&DT Engineers in order to ensure that methods, assumptions, data, and procedures reflect ongoing developments.
Ensure, with the relevant technical signature delegation, that the final repair solution brings the aircraft back into an airworthy condition.
Identify and support local improvement initiatives to increase team efficiency through process, methods, and tools improvements.
Ensure all tasks and activities required for Repair Engineering are correctly planned, monitored, and executed to achieve customer time scales.
Provide responses for routine repair queries by giving guidance as required within Airbus Operations and Customer Services in a clear and concise manner.
Together with other Repair Design and Static Stress Engineers, be a member of an integrated engineering team, ensuring its strategy, policy, and direction are maintained.
Qualified Experience / Skills / Training: Education: Bachelor of Science (BS) Degree in Engineering (Aero, Civil, Mechanical) with a strong curriculum emphasis on structural design and analysis and mechanics of materials is required.
Experience: Minimum 6 years total analysis experience in airframe design programs.
MRO/Fleet Engineering experience is preferred.
Knowledge, Skills, Demonstrated Capabilities: Have the ability to achieve delegated signature (F&DT Approval).
The position requires in-depth knowledge of classical and numerical analysis methods.
Capable of working in a dynamic, fast-paced environment both independently and collectively.
Experience in airframe design (metallic & composites), Static, MRB, FAR/JAR/CS/ Part21, Certification, CATIA, NASTRAN, and PATRAN, is desired.
Proficiency with Microsoft Office Suite (Excel, Word, & PowerPoint) required.
Team player demonstrating a positive & collaborative attitude.
Good interpersonal skills, flexibility, and adaptability.
Working knowledge of all Airbus Structures.
Knowledge of Airbus stress/fatigue manuals and tools preferred.
Demonstrated problem-solving ability.
Communication Skills: Must be able to communicate effectively in English (verbal and written) Conversational in French and/or German is a plus, but not required.
Travel Required: Eligibility: Able to work in the US without a current or future need for visa sponsorship.
Clearance: None Nature of Contacts: Involved Communication on a daily basis with internal and external parties Physical Requirements: The candidate should be comfortable working for extending periods of time using computers and in an office environment.
Powered by JazzHR OvG2bNhhH2