Finite Element Methods (FEMs) have been widely accepted for scrutiny of diffusion of militaries and pressure in biological systems. The problem of showcasing of navies and strains on teeth and surrounding tissue is intricate; as there are inhomogeneous characters of the structure of which they are constructed and irregularity of silhouette are calculated. Each tooth consists of several tissues including: surface, dentile, tissue, cement, and periodontal ligament connected to surrounding bone. Each of these tissues have different characteristics hence; there is an urgent requirement of a method that can measure FEA simulation of different characteristics and properties.
But still there is inadequate information of enormousness, route, and dissemination of forces applied in orthodontic therapy. This can also have significant effect on the tooth and the adjacent reassuring structures. An experiment was conducted to adjudge the powers of orthodontology. In this experiment; an upper canine was used as an arrangement for mathematical calculations. After the tooth has been eviscerated it is placed in translucent acrylic. Layers of 0.5 mm thickness were laid off. Then each section of the tooth was recorded using a video camera. The photographs were then developed using digitalization. This way 60 cross-sections of tooth were read in the CAD program where the three-dimensional geometry was demarcated from the curve of the cross-section of the tooth.
After this, the drawings were converted into standard IGES format through which drawings can be read using CAD model. Calculation of teeth was done through finite element method (FEM). This made sure that a three-dimensional mathematical model is prepared for upper canine using the length of the whole root.
It should be noted that finite element method (FEM) does not provide any guarantee for exact results and there are various assumptions that need to be made in order to make this method work. This was one of the attempts to approach the problem in a different way.
But still there is inadequate information of enormousness, route, and dissemination of forces applied in orthodontic therapy. This can also have significant effect on the tooth and the adjacent reassuring structures. An experiment was conducted to adjudge the powers of orthodontology. In this experiment; an upper canine was used as an arrangement for mathematical calculations. After the tooth has been eviscerated it is placed in translucent acrylic. Layers of 0.5 mm thickness were laid off. Then each section of the tooth was recorded using a video camera. The photographs were then developed using digitalization. This way 60 cross-sections of tooth were read in the CAD program where the three-dimensional geometry was demarcated from the curve of the cross-section of the tooth.
After this, the drawings were converted into standard IGES format through which drawings can be read using CAD model. Calculation of teeth was done through finite element method (FEM). This made sure that a three-dimensional mathematical model is prepared for upper canine using the length of the whole root.
It should be noted that finite element method (FEM) does not provide any guarantee for exact results and there are various assumptions that need to be made in order to make this method work. This was one of the attempts to approach the problem in a different way.