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$43K

$103.5K

$192.5K

How much do internship aerospace structural engineer jobs pay per year?

As of Jun 16, 2026, the average yearly pay for internship aerospace structural engineer in the United States is $103,463.00, according to ZipRecruiter salary data. Most workers in this role earn between $81,000.00 and $122,500.00 per year, depending on experience, location, and employer.

What does a structural engineer intern do?

A structural engineer intern assists in analyzing, designing, and testing aircraft structural components under the supervision of experienced engineers. They may use CAD software and perform stress analysis to ensure structural integrity, gaining practical experience in aerospace engineering environments.

Can I make 200k as an aerospace engineer?

Senior aerospace structural engineers with extensive experience, advanced skills, and working in high-paying industries or companies can potentially earn salaries around or above $200,000 annually. Entry-level or mid-career aerospace structural engineers typically earn less, with salaries varying based on location, certifications, and employer size. Achieving this level often requires specialized expertise, advanced degrees, and a strong professional track record.

What are the key skills and qualifications needed to thrive as an Internship Aerospace Structural Engineer, and why are they important?

To thrive as an Internship Aerospace Structural Engineer, you need a solid background in engineering principles, structural analysis, and materials science, typically supported by progress toward a relevant engineering degree. Familiarity with CAD software (like CATIA or SolidWorks), finite element analysis (FEA) tools, and knowledge of industry standards are commonly expected. Strong problem-solving abilities, effective teamwork, and clear communication are essential soft skills for this role. These competencies ensure interns can contribute to designing safe, efficient structures and collaborate successfully within multidisciplinary aerospace teams.

What types of projects and tasks can I expect to work on during an internship as an Aerospace Structural Engineer?

As an Aerospace Structural Engineering intern, you can expect to be involved in a variety of hands-on and analytical tasks such as assisting with structural analysis, supporting the design and testing of aircraft or spacecraft components, and preparing technical documentation. You'll likely collaborate closely with experienced engineers, participate in team meetings, and use industry-standard tools like CAD software and finite element analysis programs. Interns often contribute to real projects, gaining exposure to problem-solving, prototyping, and quality assurance processes, all while learning how structural teams interact with other disciplines like aerodynamics and systems engineering.

Is a 3.0 GPA good for internships?

For an aerospace structural engineering internship, a 3.0 GPA is generally considered acceptable, especially if complemented by relevant coursework, projects, or skills like CAD or FEA. However, competitive internships often prefer higher GPAs, so maintaining strong academic performance along with practical experience can improve your chances.

Can a structural engineer work in aerospace?

A structural engineer can work in aerospace by designing and analyzing aircraft and spacecraft structures to ensure safety and performance. This role often requires knowledge of materials, aerodynamics, and specialized tools like finite element analysis software, along with relevant certifications. Aerospace structural engineers typically work in design, testing, and manufacturing environments within the industry.

What is the difference between Internship Aerospace Structural Engineer vs Aerospace Structural Engineer?

AspectInternship Aerospace Structural EngineerAerospace Structural Engineer
QualificationsEnrolled in or recent graduate of aerospace or mechanical engineeringBachelor's or master's in aerospace or mechanical engineering, professional experience preferred
Work EnvironmentInternship programs, entry-level projects, supervised tasksFull-time engineering roles, independent project work, team collaboration
ResponsibilitiesAssisting with design, analysis, and testing under supervisionDesigning, analyzing, and testing aerospace structures independently
Industry UsageUsed mainly during educational or early career stagesFull professional roles within aerospace companies and agencies

In summary, an Internship Aerospace Structural Engineer is a temporary, entry-level position aimed at gaining experience, while an Aerospace Structural Engineer is a full-time professional responsible for designing and analyzing aerospace structures independently.

What does an Internship Aerospace Structural Engineer do?

An Internship Aerospace Structural Engineer assists in the design, analysis, and testing of aircraft and spacecraft structures under the guidance of senior engineers. Interns often use computer-aided design (CAD) tools and perform simulations to ensure the safety and performance of aerospace components. They may also help prepare technical reports, participate in team meetings, and contribute to problem-solving activities related to structural integrity. This role provides hands-on experience and exposure to real-world engineering challenges in the aerospace industry.
What cities are hiring for Internship Aerospace Structural Engineer jobs? Cities with the most Internship Aerospace Structural Engineer job openings:
What are the most commonly searched types of Aerospace Structural Engineer jobs? The most popular types of Aerospace Structural Engineer jobs are:
What states have the most Internship Aerospace Structural Engineer jobs? States with the most job openings for Internship Aerospace Structural Engineer jobs include:
Internship Aerospace Structural Engineer jobs near you
Aerospace Structural Engineer

Aerospace Structural Engineer

Collier Aerospace

Raleigh, NC • On-site

Full-time

Medical, Life, Retirement, PTO

Posted 20 days ago

Job description

Our Why
At Collier Aerospace, our mission is to help our customers reach their unique structural analysis and design goals with more accurate results in less time. We are a team of passionate employees who want to contribute to each customer's goal in the best way possible across space launch, reusable rocket, commercial airframe, business jet, eVTOL, bike frame, and speed boat applications. We accomplish this with our leading software, HyperX, through software development and engineering support. As you join our team, you join our company mission and become an integral partner in increasing efficiency and innovation throughout the world.
Our Culture
We foster a highly supportive and collaborative environment where our meetings are a mix of brainstorming, analysis, and humor. When you're stuck, our employees are always eager to lend a helping hand. We offer a relaxed and casual dress code to promote a comfortable atmosphere. Our passion and drive fuel us as we strive to make a lasting impact on our company, customers, and industry.
Requirements
  • Candidates should have comprehensive experience in performing aerospace structural stress analysis and design. The candidates should have many of the following capabilities:
  • Bachelor's Required; Master's Preferred
  • (0-2) years' experience - entry level
  • Following aerospace industry practices, capability to perform structural analysis and design with composite materials. Additionally experience with metals a plus.
  • Understanding of overall load paths and an intuitive feel for the efficient use of structural concepts and materials. Experience performing classical hand stress analysis and finite element analysis (FEA) with either Nastran/Abaqus/Optistruct; FEM meshers Hyperworks/FEMAP/Ansa; and a plus to have CAD competence with Catia/3DX/NX.
  • Proficiency in applying appropriate failure theories, preparing structural analysis reports, and identifying critical load conditions and margins-of-safety.
  • Knowledge of panel buckling, local buckling, crippling, and material strength as well as classical in-plane laminate stress analysis. Experience with both ply based (max strain, Tsai-Wu) and laminate based (AML, polynomial) strength prediction approaches and associated material allowables, including damage.
  • Experience with analysis of composite fasteners for bearing and bypass, and bonded joints for out-of-plane interlaminar shear and peel stress analysis, or residual strength energy solutions.
  • Experience sizing structures for minimum weight and practical design experience of composite laminates, including ply drop ratios and layup patterns on complicated surfaces, such as padups around cutouts and bolted joints.
  • Strong documentation, communication, and presentation skills.
  • US Citizen.

Roles and Responsibilities
  • Ability to learn and use HyperX for preliminary and detail analysis/design sizing optimization of full airframe and space vehicles. Candidates must be adept at using engineering software tools, learning new software and analysis methods, and working in a Windows OS environment.
  • Use HyperX and other software tools to analyze and design customer airframes and space launch vehicles.
  • Perform trade studies for weight savings and part producibility. Perform both preliminary and detail design and analysis. Document design and analyses results.
  • Candidates will be reporting directly to NASA and industry OEM customers and must be able to verify and describe the application of external loadings and their resolution into critical internal mechanical and thermal load paths, and to the resulting optimum design and their margins of safety.
  • Ensure project issues are resolved in a timely fashion with your related experience and competence and an ability to create workaround procedures when needed. Escalate urgent problems requiring more in-depth knowledge to appropriate engineering leads.
  • Participate in overall HyperX software testing and provide your suggestions to development and modification of the software.

Benefits
  • Competitive salary and benefits (PTO, 401(k), health insurance, HSA/HRA eligibility, life and disability insurances)
  • Exposure and involvement with many companies and their current aircraft designs (commercial transports/UAM eVTOLS/military planes) and space launch designs (commercial rockets/space tourism vehicles/demonstrator X planes)
  • Occasional travel to customer facilities
  • Small company, large impact
  • Passionate coworkers
  • Company events and conferences

Apply