Abstract
In recent years, compliant mechanisms have been widely applied across various fields due to their unique functionalities and superior attributes, demonstrating tremendous development potential and playing critical roles in several key areas. However, the distinct motion characteristics of compliant mechanisms necessitate the consideration of numerous factors in practical applications, making foundational theoretical formulas particularly important. The theoretical derivation of compliant mechanisms forms the essential basis for advancing their development and applications. This study focuses on several typical compliant mechanisms, deriving theoretical formulas by establishing mechanical models and conducting finite element simulations. The simulation errors, all within 1.5%, validate the accuracy of these formulas, thereby providing a theoretical foundation for the further application and development of compliant mechanisms.
Published Version
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call