Leidos Aircraft Structural Engineer in Khamis Mushayt, Saudi Arabia
Leidos is a FORTUNE 500 company bringing a mix of innovative technology and sector expertise to customers in the national security, engineering, and the health industries.
Leidos is seeking an Aircraft Structural Engineer to support engineering design to support the Royal Saudi Air Force (RSAF) in the Kingdom of Saudi Arabia.The Aircraft Structural Engineer will be part of the Contractor Engineering and Technical Support team in support of a US Air Force Foreign Military Sales (FMS) program to the Kingdom of Saudi Arabia. This is a one-year assignment with option to renew. Assignment location may be one of seven locations in the Kingdom of Saudi Arabia per the Performance Work Statement. We are expecting award in July 2023.
Provide advice and prepare guidelines on engineering matters
Create engineering drawing using 3-D and 2D design software. Produce design data as required for the manufacture and assembly of aircraft structures and systems. Research and review engineering data (drawings, reports, manuals, etc.) defining aircraft structure or systems in support of design work.
Support other Engineering groups as workload requirements dictate. Develop expertise on aircraft design concepts, industry design standards, regulations and drafting techniques consistent with workload environment.
Review and recommend RSAF authorizations of engineering modifications. Progress approval of improvement initiatives through external deign organizations and technical authorities.
Evaluate and perform cost benefit analysis of improvement initiatives.
Create original designs and supervise embodiment of modifications to existing systems (aircraft and ground equipment)
Design repairs for damaged aircraft structure consistent with Military Specifications (MILSPEC) and industry standards. Produce detailed drawings and identify skillset, tools, equipment and materials to accomplish those repairs.
Provide training to RSAF counterparts and instruct technicians in the correct techniques to be adopted in carrying out repairs. Play an active part in the RSAF self sufficiency program by participating in the establishment of a training program for SRSAF personnel, including on-the-job training and the preparation and teaching of classroom courses in engineering functions.
Perform stress analysis (e.g. to substantiate integrity of repaired structure) and provide advice on matters relating to aircraft stressing.
Perform integration, test and instructional tasks.
Investigate aircraft systems related problems affecting fleet performance and devise innovative solution. Monitor test programs and evaluate test data to identify problems and/or to verify performance.
Participate in accident investigations. Conduct damage assessments on aircraft following incidents and produce reports on the findings. Evaluate and provide recommendations on major defect and aircraft incident reports.
Design support equipment for local manufacture e.g. transport dollies, stands, racks.
Perform evaluation and studies. Participate in research, development and implementation of programs to improve safety, reliability and maintainability.
Develop system testing procedures and documentation to verify performance or specification requirements. Participate in acceptance testing of aircraft & equipment.
Prepare staff correspondence to organizations internal and external to the RSAF
Support RSAF officers at meetings and participate in design and program management reviews.
Undertake other tasks within the jobholders experience and capabilities, as directed by the AES Commander.
Provide independent advice directly to the RSAF without any consultation with his/her Line Manager.
Point of contact for all RSAF aircraft structural engineering issues.
Project manage engineering modification projects. Consequently, a large proportion of time will be spent proactively planning and organizing resources within the RSAF to ensure tasks are completed to meet project timescales, which often are dependencies for other projects.
Plan for the involvement of other agencies from within the RSAF and its' associated programs. Responsive to RSAF inputs and requirements, both immediate and long term is essential with the RSAF demanding the highest quality in all cases. Rationalize all inputs and coordinate outputs to achieve maximum co- operation and support.
Act as an independent advisor to the RSAF and directly lead teams of engineers and specialists as required by the task.
Produce engineering drawings, engineering reports, test plans and Time Compliance Technical Orders in detail from data which he will be responsible for defining and collecting. Verbal briefings and presentations on the above will be given to the AES Commander on a daily basis.
Comply with all RSAF safety directives and instructions.
Established relationships with customers and use initiative, engineering, and management skills to satisfy RSAF requirements. Diplomacy, tact, flexibility and adaptability are required along with a flair for rapid and accurate appraisal of problems. Remain aware of the varied cultural and political nuances when dealing with customers from many nations.
Create original designs for engineering solutions that demand imaginative innovation and extensive planning.
Must be flexible to deal with a wide range of problems with rapidly changing priorities emanating from a number of different sources. Act under his/her own initiative, developing a sound understanding of RSAF requirements, which are often not fully defined.
Must have excellent organizational qualities.
Provide advice on procurement and policy at a senior level the individual is responsible for ensuring the RSAF receives the most cost effective support and 'value for money'.
Awareness of the different Government to Government (Foreign Military Sales) and Direct Funding mechanisms for RSAF projects
- Bachelors Degree in Structural Engineering or related discipline e.g. Mechanical/Aeronautical Engineering and 12 years' experience; or a Master's Degree and 10 years' experienceChartered Engineer status is desirable. (additional directly relevant experience and certifications may be considered in lieu of degree)
Excellent knowledge of standard aircraft component, materials, composites, metals, fabrication practices, aviation hardware, integration and proper applications in design with a thorough understanding of the use and application of aircraft technical data.
Possess knowledge of engineering principles used in stress analysis, 3D computer modelling and other analytical substantiation techniques. Experience utilizing CAD software and /or 3D modelling software with obvious and demonstratable proficiency.
Experience in senior engineering management with a thorough knowledge of engineering authority processes.
A working knowledge of international regulation and policy for military and civil aviation as well as International Trade .in Arms Regulations (ITAR).
Practical knowledge of workshop practices and procedures. ·
A basic understanding of aircraft systems, their function and operation.
A broad appreciation of military aircraft design with specific experience in the design and development of aircraft structural engineering projects. The aircraft structural applications will be the focus of knowledge for fatigue index analysis, structural integrity inspections modifications and updates, and engineering analysis of aircraft platforms.
Able to develop and integrate concepts that involve requirements, design, prototyping, production, testing, training and logistics support in all phases of the weapon system life cycle, including all aspects of technical program that involve trade-off of performance, life-cycle cost, risk, producibility, supportability, testability and other engineering requirements. Possess knowledge of engineering principles used in stress analysis, 3D computer modelling and other analytical substantiation techniques.
Good written and verbal communication skills in the English language. Strong leadership qualities with proven interpersonal and team working skills.
Computer literate and an experienced user of AutoCAD and the Microsoft Office suite of programs (Word, Excel, PowerPoint, Access, Project).
Knowledge of aviation quality systems airworthiness airframe engineering aircraft control systems aircraft avionic systems design engineering manufacturing project/program management, systems engineering, test engineering and aircraft systems integration.
A good awareness of RSAF programs, processes, procedures, Suppliers, OEM, Government to Government Standard Agencies, International Standards Agencies and Academic/Research establishments.
User of Computer Aided Design (CAD) programs such as CATIA, SolidWorks, etc.
Pay Range:Pay Range $118,300.00 - $182,000.00 - $245,700.00
The Leidos pay range for this job level is a general guideline onlyand not a guarantee of compensation or salary. Additional factors considered in extending an offer include (but are not limited to) responsibilities of the job, education, experience, knowledge, skills, and abilities, as well as internal equity, alignment with market data, applicable bargaining agreement (if any), or other law.
All qualified applicants will receive consideration for employment without regard to race, color, religion, sex, sexual orientation, gender identity, national origin, disability or veteran status. Leidos will consider qualified applicants with criminal histories for employment in accordance with relevant Laws. Leidos is an equal opportunity employer/disability/vet.