Loads and Dynamics Engineer, Early Career; Level 2

Basic Qualifications

• Bachelor's degree in Aerospace, Structural, or Mechanical Engineering or similar technical field
• Experience performing structural dynamics analyses, loads, or environments development
• Experience in finite element modeling and analysis using NX Simcenter, NASTRAN, LS-Dyna, Wave6, or equivalent
• Experience in programming and use of MATLAB (or equivalent) for analysis and data manipulation
• Ability to obtain and maintain a Secret security clearance, US citizenship is required

Space is a critical domain, connecting our technologies, our security and our humanity. While others view space as a destination, we see it as a realm of possibilities, where we can do more — we can innovate, invest, inspire and integrate our capabilities to transform the future. At Lockheed Martin Space, we aim to harness the full potential of space to cultivate innovation, reduce costs, and push the boundaries of what technology can achieve.

We’re creating future-ready solutions, focusing on resiliency and urgency through our 21st Century Security® vision. We’re erasing boundaries and forming partnerships across industries and around the world. We’re advancing spacecraft and the workforce to fuel the next generation. And we’re reimagining how space can connect us, ensuring security and prosperity.

Space is entering a new era—and Lockheed Martin Space is helping lead it. Our engineers, scientists, and innovators are solving some of the world’s most complex technical challenges while building the spacecraft and technologies that protect nations, advance discovery, and expand what’s possible beyond Earth. At Lockheed Martin, your work has real impact. Every day our teams design and deliver satellites and spacecraft that:

• Provide early warning for severe weather and global threats
• Connect troops and critical missions across the globe
• Enable GPS navigation for billions of people
• Support exploration and scientific discovery beyond our planet

But going to space is just the beginning. What matters most is what happens once we get there. We’re developing the next generation of intelligent satellites—spacecraft that operate like “smartphones in orbit,” with software that can be updated in flight to adapt to changing mission needs. These innovations are redefining what’s possible in space.

As a Early Career Loads & Dynamics Engineer supporting the Next Generation Interceptor (NGI) program, you will play a critical role in ensuring spacecraft and flight hardware can withstand the extreme environments of launch and spaceflight.

• Perform structural dynamics analysis for spacecraft flight hardware operating in demanding launch and space environments
• Develop and maintain analytical models using in-house and commercial software to simulate vibration, shock, and mechanical loading conditions
• Conduct loads development at the component, subsystem, and system level
• Evaluate dynamic environments including shock, vibration, and mechanism motion
• Support component and system-level testing, including vibration, modal, static, separation dynamics, and shock tests
• Analyze test data and document results in clear technical reports and presentations
• Define and integrate structural and dynamic requirements into the system baseline
• Present technical findings at design reviews, technical interchange meetings, engineering review boards, and test readiness reviews

• This position is full-time onsite at our Huntsville, AL campus
• The ability to obtain and maintain a Secret security clearance, thus US Citizenship is required.

• Master’s degree in Aerospace, Structural, or Mechanical Engineering with structural dynamics and loads/environments development experience
• Expertise in vibroacoustic and shock analyses on spacecraft/launch vehicles using Wave6
• Experience in the planning and execution of static, vibration, acoustic, modal, and shock testing for aerospace flight hardware
• Experience with structural dynamics rigid body and flexible body analyses of composite structures, metallic structures, and mechanisms
• Experience in Finite Element Modeling, modal analysis, Coupled Loads Analysis (CLA), and model correlation/verification
• Excellent communication skills—both written and verbal, self-motivated, and able and willing to support multiple projects

Onsite Full-time:
The work associated with this position will be performed onsite at a designated Lockheed Martin facility.