Analysis of biomechanics and adaptive mechanism in plants in architecture with Finite Element Method (FEM) case study: Venus Flycatcher

"Biomechanics" is the use of mechanical principles in biological systems such as humans, animals, plants, organs, and cells. The term biomechanics was developed at the beginning of the 1970s, which describes the use of mechanical engineering in biological and medical engineering systems and is currently being used in architecture. The movements and biomechanics of plants can inspire flexible systems for architectural purposes, which can be recognized as ideal solutions with robust biological functionality with delicate natural movement. In this article, a brief overview of the different adaptive mechanisms available in techniques and in plants is presented and then described. In this research, the relationship between architecture and plant biomechanics between biologists, architects, and civil engineers, where there were aesthetic movements or patterns inspired by plants, was analyzed and used in biological technical structures for sustainable architecture. Has been taken The research method is "descriptive-analytical" and the computer simulation and analysis method of carnivorous plants, and here Venus flies. The results of the research are movement principles obtained from quantitative biomechanical and functional-morphological analyses, as well as their simulation and abstraction using the example of finite element methods, and at the end, a type of plant modeling Reference is made.