Aerospace Engineer researches and develops structural engineering specifications for aerospace products, parts, or associated operations to improve the efficiency and reliability of aerospace systems. Analyzes results of stress tests on various craft and missile parts to determine material durability and tolerances. Being an Aerospace Engineer oversees flight tests of prototypes and analyzes resulting data to validate flight characteristics and identify necessary improvements. Conducts calculations and utilizes simulations to evaluate aerodynamics, structural integrity, propulsion efficiency, and the effect on fuel consumption of new or existing materials. Additionally, Aerospace Engineer utilizes CAE, 3-D, and digital modeling to create detailed plans and specifications to support production. Assists quality assurance and purchasing teams with the evaluation of new or existing suppliers, products and materials, or technologies. Understands and complies with all federal regulatory requirements and specifications. Requires a bachelor's degree. Typically reports to a manager. The Aerospace Engineer work is closely managed. Works on projects/matters of limited complexity in a support role. To be an Aerospace Engineer typically requires 0-2 years of related experience. (Copyright 2024 Salary.com)
The Xray L3/CA engineer will be responsible for ensuring business wide quality Xray processes, including Xray Computed Tomography. You will work with materials and design engineers, value stream engineers and shops, external vendors and research teams to develop and validate new material/part inspections. You will work directly with internal and external customers to ensure part procedures and practices are being carried out to specifications. As new product introduction ramps up, you will have the opportunity to develop the inspection methods and transition said inspections to a production environment. You will be tasked with staying connected with state-of-the-art technologies including artificial intelligence and automation and identifying uses for those technologies to increase component safety and reduce manufacturing cost. The job allows modification of procedures and practices covering work as long as the end results meet standards of acceptability (quality, volume, timeliness etc.).
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