The numerical simulation of magnetic field and mechanical deformation in pulsed magnets is described. ANSYS software was applied for numerical simulation. Due to construction symmetry the 3-D structure is simplified to 2-D structure and the numerical model of pulsed magnet was realized using the finite element method. The numerical model was done for two variants of multilayer reinforced pulsed magnet construction. The first one was wound with copper-niobium micro-composite wire, another - with traditional copper wire. Both magnets had similar pulsed magnetic field distribution and maximal value of magnetic flux density. Analyzing magnetic forces distribution and wire displacement it was found, that in spite of twice higher mechanical overl...
International audienceThis paper proposes to compute the electrical behavior, including electromagne...
In this article, a finite element (FE) modeling of the punching effect on the magnetic properties of...
The accurate calculation of the magnetic fields steady or rapidly varying is extremely important in ...
This thesis applies the method of finite element software to calculate pulsed high field magnets. Th...
Contains fulltext : 33327.pdf (publisher's version ) (Closed access
We discuss further developments in the application of Finite Element Analysis (FEA) to the design of...
The analysis of stress distribution in pulsed coils applicable for pulsed magnetic field generation ...
The measurements of mechanical properties of electrotechnical materials applied in pulsed magnet des...
Covers the practical numerical method for the analysis and design of magnets Extensively covers th...
The analysis of thermodynamic processes in pulsed coils applicable for pulsed magnetic field generat...
In recent years the pulse magnetic forming technology has gained an ever increasing attention, due t...
This thesis describes a portfolio of work aimed at the high field applications of superconductors an...
A formulation is presented for the problem of elastoplastic deformation of the system of electricall...
Magnetic pulse process is used in the forming and welding processes. In order to predict the welding...
Abstract: We have performed numerical simulations of the electromagnetic, thermal and mechanical pro...
International audienceThis paper proposes to compute the electrical behavior, including electromagne...
In this article, a finite element (FE) modeling of the punching effect on the magnetic properties of...
The accurate calculation of the magnetic fields steady or rapidly varying is extremely important in ...
This thesis applies the method of finite element software to calculate pulsed high field magnets. Th...
Contains fulltext : 33327.pdf (publisher's version ) (Closed access
We discuss further developments in the application of Finite Element Analysis (FEA) to the design of...
The analysis of stress distribution in pulsed coils applicable for pulsed magnetic field generation ...
The measurements of mechanical properties of electrotechnical materials applied in pulsed magnet des...
Covers the practical numerical method for the analysis and design of magnets Extensively covers th...
The analysis of thermodynamic processes in pulsed coils applicable for pulsed magnetic field generat...
In recent years the pulse magnetic forming technology has gained an ever increasing attention, due t...
This thesis describes a portfolio of work aimed at the high field applications of superconductors an...
A formulation is presented for the problem of elastoplastic deformation of the system of electricall...
Magnetic pulse process is used in the forming and welding processes. In order to predict the welding...
Abstract: We have performed numerical simulations of the electromagnetic, thermal and mechanical pro...
International audienceThis paper proposes to compute the electrical behavior, including electromagne...
In this article, a finite element (FE) modeling of the punching effect on the magnetic properties of...
The accurate calculation of the magnetic fields steady or rapidly varying is extremely important in ...