Challenges and opportunities of vitrimers for aerospace applications: a roadmap for industrial adoption

Authors

• Bernard Mahoney, Southern University and A&M College
• Kingsley Yeboah Gyabaah, Southern University and A&M College
• Patrick Mensah, Southern University and A&M College
• Anthony Kwasi Martey, Kwame Nkrumah University of Science & Technology
• Guoqiang Li, Southern University and A&M College

Document Type

Article

Publication Date

12-1-2025

Abstract

Vitrimer, a class of dynamically crosslinked polymers, exhibits a unique combination of processability and mechanical robustness, positioning them as a compelling alternative to conventional thermosets. By facilitating network rearrangement through exchangeable covalent bonds, these materials maintain their structural integrity while enabling reshaping, reprocessing, recycling, and damage self-healing. This capability addresses key limitations in aerospace composites, where heal-ability, recyclability, and thermal stability are critical design requirements. Despite these advantages, several challenges must be overcome before vitrimer can be fully integrated into aerospace applications. Mechanical strength, stiffness, and toughness, long-term durability under extreme operating conditions, and compatibility with automated composite manufacturing processes such as Automated Fiber Placement remain areas of active research. Recent studies indicate that vitrimer-based carbon fiber composites demonstrate improved performance metrics, particularly in impact resistance and damage tolerance, suggesting their viability for structural applications. However, further investigations are required to optimize resin formulations, refine processing parameters, incorporate multifunctionalities, and establish industry-standard testing protocols. Addressing these factors could enable the broader adoption of vitrimer, advancing the development of sustainable, high-performance aerospace materials. Artificial intelligence (AI) and machine learning (ML) could be a powerful tool to help design and discover new multifunctional vitrimer for aerospace applications. The use of vitrimer in aerospace applications offers significant potential for reducing material waste, enhancing recyclability, and lowering lifecycle energy consumption, which aligns with the principles of cleaner materials and cleaner production and sustainable material engineering. This work bridges the knowledge gap between cleaner material design and system-level sustainability.

Publication Source (Journal or Book title)

Cleaner Materials

Recommended Citation

Mahoney, B., Gyabaah, K., Mensah, P., Martey, A., & Li, G. (2025). Challenges and opportunities of vitrimers for aerospace applications: a roadmap for industrial adoption. Cleaner Materials, 18 https://doi.org/10.1016/j.clema.2025.100353