# DOI: 10.26706/IJAEFEA.2.6.20191101

Published online : 31 Dec 2019
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One of the methods used in the solution of partial differential equations is the finite element method. The solution region of the differential equation to be solved in finite element method is divided into sub-sections. When making finite element analysis, magnetic flux path drawing is made by making use of vector potential values of the nodes in the solution of the magnetic region. Thus, the finite element analysis gives information about the magnetic structure of the region. However, it is useful to use the moving finite element method instead of the classical finite element method when time dependent partial differential equations change and the solution network changes regionally.
In this article, drawing of magnetic flux path used in finite element analysis is mentioned. Application of a C ++ based software has been realized and the sample magnetic flux path drawings have been obtained.

Mesh Generation Methods, Finite Element Method, Moving mesh generation.
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REFERENCES
[1] Mehmet Aydın, Beno Kuryel, Gönül Gündüz, Galip Oturanç, 2001,” Diferansiyel Denklemler ve Uygulamaları”,İzmir.
[2] R. Rannacher, 2001, ”Adaptive Galerkin Finite Element  Methods for Partial Differential Equations”, Journal of Computational and Applied Mathematics, 128, 205-233.
[3] S.H. Lo., 2002, “Finite element mesh generation and adaptive meshing“, Prog. Struct. Analysis Materials, Vol:4, pp:381-399.
[4] Baker TJ. 1989, “Automatic mesh generation for complex three-dimensional regions using a constrained Delaunay triangulation”, Engineering with Computers 5: 161–175.
[5] Lee CK., 2000, “Automatic metric advancing front triangulation over curved surfaces”,  Engineering Computations 17(1): 48–74.
[6] Shephard MS & Georges MK. 1991, “Automatic three-dimensional mesh generation by the finite octree technique”, International Journal for Numerical Methods in Engineering 32: 709–749.

[7] Luiz Vello, Denis Zorin  2001, “4-8 Subdivision”, Computer Aided Geometric Design, vol:18, pp:397-427.
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