⛔ This position is no longer available.
University: Embry-Riddle Aeronautical University
Country: United States
Deadline: Not specified
Fields: Mechanical Engineering, Materials Science, Aerospace Engineering, Applied Physics, Computer Science
Topic: USA – Fully Funded PhD in Smart Metastructures at Embry-Riddle Aeronautical University
Fields: Mechanical Engineering, Materials Science, Aerospace Engineering, Applied Physics, Computer Science
Position: PhD
Country: usa
Deadline: Not specified
University: Embry-Riddle Aeronautical University
Real Country: United States
Main Category: engineering
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Are you passionate about pioneering research that bridges advanced materials, computational modeling, and artificial intelligence to revolutionize the design of next-generation structures? If you are looking to launch a career at the forefront of smart and multifunctional metastructures, this fully funded PhD opportunity at Embry-Riddle Aeronautical University could be your ideal next step.
About the University or Research Institute
Embry-Riddle Aeronautical University (ERAU) is globally recognized as a premier institution for aviation, aerospace, and engineering education. With its main campus located in Daytona Beach, Florida, ERAU offers a vibrant academic environment that fosters innovation, interdisciplinary collaboration, and hands-on research. The College of Engineering at ERAU is renowned for its state-of-the-art facilities, distinguished faculty, and a strong network of industry partnerships, making it an exceptional place for graduate studies in advanced engineering fields.
The United States, as a leading hub for scientific research and technological advancement, provides a dynamic setting for international and domestic students alike. Studying in the U.S. not only grants access to cutting-edge resources and diverse research communities but also opens doors to global career opportunities in academia and industry.
Research Topic and Significance
The focus of these PhD positions is on Smart and Multifunctional Metastructures—a rapidly evolving field with significant implications for aerospace, automotive, defense, and emerging technology sectors. Metastructures, which integrate concepts from materials science, mechanical engineering, and computational modeling, are engineered to exhibit extraordinary properties such as tunable stiffness, shape morphing, and energy absorption.
Research in this domain addresses critical challenges in designing lightweight, adaptive, and resilient structures that can respond to their environment or perform multiple functions. The integration of AI-driven modeling and advanced fabrication techniques, such as 3D printing, further accelerates the development of novel materials and devices with unprecedented capabilities. This work is pivotal for advancing sustainable transportation, smart infrastructure, and next-generation energy systems.
Project Details
The Structural Analysis of Multifunctional Metastructures (SAMM) Lab at ERAU’s Daytona Beach campus is offering three fully funded PhD positions for Fall 2026. The SAMM Lab is dedicated to advancing the science and engineering of smart metastructures through interdisciplinary research that combines optimization techniques, additive manufacturing, metamaterials design, multiphysics simulations, and artificial intelligence.
PhD students will have the opportunity to work on projects involving:
– Topology optimization and genetic algorithms for structural design
– 3D printing and fabrication of composite and metamaterial structures
– Design and analysis of auxetic, kirigami, origami, and phononic materials
– Multiphysics finite element modeling and simulation
– AI-driven modeling and machine learning applications in materials engineering
– Battery fabrication, focusing on lithium-ion and solid-state technologies
The SAMM Lab provides access to advanced computational tools, fabrication equipment, and a collaborative research environment under the guidance of experienced faculty.
Candidate Profile
Ideal applicants for these positions will possess:
– A strong academic background in mechanical engineering, materials science, aerospace engineering, applied physics, or related fields
– Demonstrated experience in at least two of the following areas: optimization techniques, 3D printing, metamaterials design, finite element simulation, AI/machine learning programming, or battery fabrication
– Proficiency with relevant software and programming languages (e.g., MATLAB, Python, COMSOL, ANSYS)
– A passion for interdisciplinary research and problem-solving
– Excellent communication skills and the ability to work both independently and in a team-oriented environment
– Motivation to contribute to cutting-edge advancements in smart materials and structures
Application Process
Interviews for these positions will begin on March 30 and will continue until all positions are filled. Interested candidates should prepare a comprehensive CV including GPA and GRE scores.
Please refer to the official advertisement for application details.
For more information, visit the original announcement on LinkedIn:
https://www.linkedin.com/posts/saman-farhangdoust-ph-d-47674153_sammabrlab-phdabrposition-samanabrfarhangdoust-activity-7439083940268830720-eAog
Conclusion
This is a rare opportunity to join a leading research group at a world-class university and contribute to transformative advances in smart and multifunctional metastructures. Prospective candidates with a passion for innovation and interdisciplinary problem-solving are strongly encouraged to apply. Stay informed about similar opportunities by following updates from ERAU and the SAMM Lab.
Questions & Answers
Question: What are metastructures and why are they important?
Metastructures are engineered materials or assemblies designed to exhibit unique mechanical, acoustic, or electromagnetic properties not found in conventional materials. They are important for developing lightweight, adaptive, and multifunctional systems in industries such as aerospace, automotive, and energy.
Question: What benefits does Embry-Riddle Aeronautical University offer to PhD students?
ERAU provides access to state-of-the-art research facilities, expert faculty, and a collaborative academic environment. Students benefit from strong industry connections and opportunities for interdisciplinary research.
Question: What is the typical duration of a PhD program at ERAU?
PhD programs in engineering fields at ERAU typically last 4-5 years, depending on the research area and student progress.
Question: Are international students eligible to apply for these positions?
Yes, international students with strong academic records and relevant research experience are encouraged to apply.
Question: What kind of research support and funding is available?
These positions are fully funded, covering tuition and providing a stipend for living expenses, allowing students to focus on their research.
Question: What are the career prospects after completing a PhD in this field?
Graduates can pursue careers in academia, research and development, advanced manufacturing, aerospace, automotive, and other high-tech industries.
Question: Is GRE required for the application?
Applicants are asked to include their GRE scores in their CV, indicating that GRE is part of the application process.
Question: Where can I find more information about the SAMM Lab and the application process?
More information is available in the official LinkedIn announcement:
https://www.linkedin.com/posts/saman-farhangdoust-ph-d-47674153_sammabrlab-phdabrposition-samanabrfarhangdoust-activity-7439083940268830720-eAog
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