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Are you look for an opportunity to perform summer research or an internship at a government laboratory? Want help funding your education? The Ohio Aerospace Institute can help connect you to the right programs!

Discover Summer Faculty Opportunities

As a faculty member, you know how vital funded research is to advance your career and experience. Contact us about summer faculty programs!


Find Scholarships for your education

When you are a student, finding funding for your education is critical. The Ohio Aerospace Institute can connect you to federal programs to help! We manage the Ohio Space Grant Consortium (OSGC). This program provides scholarships to dozens of undergraduate and graduate students to twenty-three Ohio institutions. 


Find Scholarships for your education

When you are a student, finding funding for your education is critical. The Ohio Aerospace Institute can connect you to federal programs to help! We manage the Ohio Space Grant Consortium (OSGC). This program provides scholarships to dozens of undergraduate and graduate students to twenty-three Ohio institutions. 



Internships are critical to developing skills and making connections to securing a job when you graduate. We can assist you in getting an internship through the Ohio Means Internship Program and the Air Force Research Laboratory Capstone Program. Contact us to find out about these and other programs.


Network with members to gain experience for the future.

Experience in the field before you graduate provides and edge when looking for that first job. Networking while you are in school earns that experience for you while opening doors into the industry. Many of our member companies offer internships and contract opportunities to students, giving you insight into the field and adding to your resume.


The Ohio Aerospace Institute has researchers with expertise that can help you grow.

Systems Sensing & Safety

Non-destructive evaluation (NDE) and health monitoring
  • Utilize health monitoring data from smart sensors distributed throughout structure
  • Specimen scale, sub-component level, and full scale damage characterization tests of advanced materials
High Temperature Electronics
  • SiC based sensors for 500°C aerospace and harsh environment applications
  • Conventional materials fail beyond 225°C
  • Expertise in packaging technologies
Laser Diagnostics for Combustion Research
  • Measure flame temperatures, gas composition, and chemical species using Raman Spectroscopy
  • Optimize fuel/air mix
  • Subsonic/supersonic and pressure controlled cruise conditions
Aircraft Icing Research
Computational tools
  • Develop validated tools for predicting ice growth, ice protection system behavior, and the effects of ice contamination for design, analysis, and certification
  • Expertise in thermo-mechanical characterization and modeling of basic ice behavior
  • Improve current ice accretion and ice protection system prediction methods to allow use of codes for design and certification over a broad range of icing conditions, aircraft geometries, and flow conditions. This approach also ensures that codes are accurate, robust, fast, and easy to use
Ice Adhesion Behavior
  • Characterize impact ice properties and adhesion strength
    • Develop new test techniques and employ various in-situ monitoring tools
    • Fabricate statistically significant amount of specimens under various icing conditions
Research Team Manager: Andrew Gyekenyesi | 216-433-8155


Light-weight, High-performance Polymers and Structures
  • Develop molecularly engineered advanced polymeric materials and composites from design to end-use applications—including synthesis, characterization, process optimization, component design and prototyping, and manufacturing optimization
  • Research performance – durability evaluation and prediction for various applications; aeronautics, space, marine, auto, medical, durable goods.
  • Current activities: High voltage insulations for hybrid electric aircraft, high temperature organics for Stirling convertors, Curved PMCs for automotive, nanocomposites, high temperature polymer aerogels for aerospace applications
Ceramics and Metallics
  • Advance materials technology for aerospace as well as other applications
  • Integration technologies
  • Develop a wide range of approaches to join dissimilar materials for a wide range of thermo-structural conditions
  • Shape memory alloys
  • Develop stable, high-work-output, shape memory alloys for a range of application temperatures & stress levels for use in adaptive structures and actuators through a fundamental understanding & control of material properties
Research Team Manager: Eugene Shin | 216-433-8155


  • Develop testing methodologies for high temperature structural materials, sub-elements, and components
  • Thermal, dynamic, and stress analyses of aerospace structural elements (ex: sandwich structures and protective coatings on metallic alloys and ceramic matrix composites) with finite element methods
  • Simulation of lightning strike effects on delamination of CFRP panels with cohesive layers between plies to capture delaminations
  • Durability estimation of aerospace components with creep life models, fatigue crack initiation models, and fracture mechanics
Research Team Manager: Sreeramesh Kalluri | 216.433.6727

Computational Modeling

Support technology development for air/space vehicle propulsion systems
  • Develop theoretical and computational models for system components
  • Advance knowledge and understanding
    • Reduce cost of access to space by improved performance and efficiency
    • Reduce environmental impact (noise and emissions)
    • Investigate new pulse detonation rocket-based combined-cycle (PDRBCC) engine concept
    • Develop models and prediction codes for propulsion system (jet) noise
    • Develop turbulence-chemistry interaction models for reacting multi-phase flow simulations
Basic Research
  • Multi-disciplinary physics
  • Uncertainty Quantification/Sensitivity Analysis
  • High-speed flows
  • CFD support of projects/experiments
  • Software/Hardware optimization for high performance computing
Research Team Manager: Stewart Leib | 216.433.8639

Space Science

Knowledge and technology to advance space exploration
  • Develop space propulsion, power, and communications technologies
  • Examine aspects of space science:  environmental interactions
    • Exploration technology
    • Advanced propulsion – high power Hall effect thrusters
    • Plasma propulsion – advanced concepts such as MPD, plasma wave acceleration
    • NIAC advanced concepts
    • Advanced solar power – advanced cells, support to DARPA FAST array testing
    • Advanced test sets for exploration communications
    • Solar and nuclear electric propulsion systems studies
    • Space sciences
    • Solar cell lifetime and arcing in space
    • Environmental monitoring instrumentation
Research Team Manager: James Gilland | 440.962.3000


  • Laminated Object Manufacturing of ceramic matrix composites
  • Binder jet printing technologies (with RP+M)
    • Study processing constituents (e.g., SiC powders, infiltrants, fiber reinforcements)
    • Assess microstructure (optical and SEM) and properties (densities and bend tests)
  • Develop and characterize feed materials for 3-D printing of silicon carbide (SiC)-based ceramics
  • 3-D printing of multi-functional materials

Thermal Management

  • Utilize new advanced materials, such as high conductivity porous graphite foams, for solving thermal management challenges (e.g., aerospace, electronics, directed energy weapons, energy production)
    • Low density, large surface area, and engineered, open pore structure
    • High ligament thermal conductivity (>1700 W/m•K) and bulk conductivity (up to 245 W/m•K)
    • Potential for high temperature and chemically aggressive environments
  • Use as a heat exchanger and replacement for metallic finned structures
  • Employ as conductivity enhancer for phase change materials within thermal energy storage systems
  • Ohio Aerospace Institute projects address large scale production, improved foam durability via coatings, joining procedures, and basic design methodologies as well as test techniques for producing thermal, flow, and mechanical characterization data

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Educating Future Leaders in the Industry

Our membership, and our board, come from some of the top schools in the country. Connect with talent through internships and Ohio Aerospace Institute events to meet the next generation of aerospace engineers, developers and thought leaders.

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