8 results
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2. Modeling of Temperature Effects on Magnetic Property of Nonoriented Silicon Steel Lamination.
- Author
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Chen, Junquan, Wang, Dong, Cheng, Siwei, Wang, Yu, Zhu, Yonghong, and Liu, Quan
- Subjects
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SILICON steel , *TEMPERATURE effect , *MATHEMATICAL models , *MAGNETIC properties of metals , *HYSTERESIS , *IRON - Abstract
This paper proposed a temperature-dependent iron loss model and corresponding dynamic hysteresis model, where temperature coefficient k is introduced to consider the thermal effect on eddy-current loss. The iron loss model is validated by massive experimental measurement of test samples, 1174 combinations of various temperatures, magnetic inductions, and frequencies for nonoriented silicon steel specimen. The relative error of the model is $\sim 11$ % in a wide range of 50–400 Hz, 26 °C–200 °C, and 0–2 T. The proposed method can be applicable to other types of magnetic materials as long as whose resistivity rate exhibits approximately linear thermal dependence within a temperature range of 26 °C–200 °C. [ABSTRACT FROM AUTHOR]
- Published
- 2015
- Full Text
- View/download PDF
3. Establishing a Relation between Preisach and Jiles–Atherton Models.
- Author
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Hussain, Sajid and Lowther, David A.
- Subjects
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MATHEMATICAL models , *COMPUTATIONAL complexity , *MAGNETIC hysteresis , *FERROMAGNETIC materials , *FINITE element method - Abstract
Hysteresis models can incorporate the effects of operating conditions (frequency, stress, and temperature) on iron losses incurred in ferromagnetic materials. Among such models, the Jiles–Atherton (JA) and Preisach models are the most popular and various modifications of these have been proposed in the literature to model the effect of frequency, stress, and temperature on iron losses. Both of these representations produce accurate results compared with the curve fitting models and can be directly implemented in finite element simulations. Unfortunately, it is very difficult to incorporate all these effects into a single iron loss model that is computationally efficient and can predict iron losses with reasonable accuracy for a given range of these parameters. In this paper, an effort has been made to establish a relationship between JA and Preisach models and an interpolation-based approach is presented to predict iron losses that utilizes the Preisach model on top of the JA model and incorporates all of the above factors. It is shown that iron loss can be predicted accurately for any value of frequency, stress, and temperature. [ABSTRACT FROM PUBLISHER]
- Published
- 2015
- Full Text
- View/download PDF
4. Analysis of Excess Loss in SiFe Laminations Considering Eddy-Current Dominated Domain Wall Motion.
- Author
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Guan, Weimin, Kong, Haiyang, Jin, Miao, Lan, Lei, Du, Zhiye, Zhang, Yadong, Ruan, Jiangjun, and Zhang, Hailong
- Subjects
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NUMERICAL calculations , *SILICON steel , *MATHEMATICAL models , *EDDY currents (Electric) , *ELECTRIC flux - Abstract
To develop efficient silicon steel plates and electric machines using silicon steel laminations, the evaluation of excess loss in silicon steel plates is important. In this paper, investigation on excess loss calculation using the finite element method is carried out. The excess loss, which is mainly due to two factors, lack of flux penetration and domain wall pinning, is considered by the proposed approach using the domain wall bowing degree (DWBD), which depends on the above two factors. The DWBD is obtained using nonlinear eddy-current analysis. The correlation between the excess loss and the DWBD can be expressed as an exponential equation. Using the equation, the excess loss can be predicted under harmonic frequency in the range of 50–2000 Hz. These results can be applied to iron loss estimation, especially, when there are harmonics in the power supply. [ABSTRACT FROM PUBLISHER]
- Published
- 2015
- Full Text
- View/download PDF
5. Application of Extended Jiles–Atherton Model for Modeling the Magnetic Characteristics of Fe41.5Co41.5Nb3Cu1B13 Alloy in As-Quenched and Nanocrystalline State.
- Author
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Szewczyk, Roman, Salach, Jacek, Bienkowski, Adam, Frydrych, Piotr, and Kolano-Burian, Aleksandra
- Subjects
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NANOCRYSTALS , *MAGNETIC properties of metals , *IRON-copper alloys , *MATHEMATICAL models , *HYSTERESIS , *MAGNETIC materials - Abstract
This paper presents the result of modeling the magnetic characteristics of ring-shaped cores made of Fe41.5Co41.5Nb3Cu1B13 alloy in both as-quenched and nanocrystalline state. For the modeling, the extended Jiles–Atherton model was used. Extension of Jiles–Atherton model is focused on taking into account the changes of parameter k caused by changes of the average energy required to break pinning site. Determination of model's parameters was made on the base of optimization process. This optimization covered both evolutionary strategies and simulated annealing. Finally, good agreement between experimental characteristics and the results of modeling was achieved. This agreement is confirmed by the high value of R^2 determination coefficient, which exceeds 99% for both as-quenched and annealed cores. As a result, it was confirmed that the presented method of modeling the magnetic characteristics of Fe41.5Co41.5Nb3Cu1B13 alloy in both as-quenched and nanocrystalline state is suitable for technical applications. [ABSTRACT FROM PUBLISHER]
- Published
- 2012
- Full Text
- View/download PDF
6. Design and Optimization of Soft Magnetic Composite Machines With Finite Element Methods.
- Author
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Cros, Jérôme, Viarouge, Philippe, and Kakhki, Mehdi Taghizadeh
- Subjects
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ELECTROMAGNETIC devices , *MATHEMATICAL models , *HYSTERESIS , *MATHEMATICAL optimization , *MAGNETIC flux , *OPTIMAL designs (Statistics) , *MAGNETIC materials , *FINITE element method - Abstract
In this paper, a synthesis of design methodologies for electromagnetic devices made with soft magnetic composite (SMC) material is presented. To realize efficient and low-cost SMC devices, it is necessary to benefit from interesting isotropic SMC material properties such as 3-D flux circulation path. In this case, the best approach is to carry out a topological structure research and perform a global optimization using physical models. However, the iterative optimization process can be computationally intensive and some compromises should be found between accuracy and computation time. One way is to use coarse models with important simplifying hypotheses but the optimal solution is often not valid. In this case, one can perform a limited number of finite element (FE) simulations to compute some correction coefficients and improve optimization convergence to a valid optimal solution. Another way is to perform the device optimization by using directly FE models with low mesh density and several simplifications of the device geometry. Such design approaches are illustrated by three concrete realizations with SMC material. [ABSTRACT FROM AUTHOR]
- Published
- 2011
- Full Text
- View/download PDF
7. Efficient Algorithms for the Inclusion of the Preisach Hysteresis Model in Nonlinear Finite-Element Methods.
- Author
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Dlala, Emad
- Subjects
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HYSTERESIS , *FINITE element method , *COMPUTER software , *STOCHASTIC convergence , *SIMULATION methods & models , *MATHEMATICAL models , *INVERSE problems - Abstract
This paper deals with key problems that have been commonly encountered in the implementation of the Preisach model into finite-element (FE) programs. Such problems include the inverse problem imposed by certain FE formulations, the abundance use of experimental data needed for identification, and the complex hysteretic nonlinearity inherited in electromagnetic problems. The aim is to alleviate these problems using new efficient algorithms to facilitate the inclusion of the Preisach model in FE equations. The inversion of the model is evaded by systematically creating an inverted Everett function identified from a few parameters usually provided by the makers of electrical steel. The Everett function and its derivatives are ensured to be smooth and continuous by using cubic spline interpolation, which is important for producing stable iterative solutions in the FE computations. Thorough investigations and FE simulations supported by experiments show that the proposed algorithms are capable of successfully accomplishing good accuracy, fast computation, and numerical convergence. [ABSTRACT FROM AUTHOR]
- Published
- 2011
- Full Text
- View/download PDF
8. Computation and measurement of iron losses under PWM supply conditions.
- Author
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Boglieni, A., Bottauscio, O., Chiampi, M., Pastorelli, M., and Repetto, M.
- Subjects
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MAGNETIC measurements , *IRON , *ELECTRONIC modulation , *MAGNETIC flux , *FERROMAGNETIC materials , *MATHEMATICAL models - Abstract
The paper presents a method for the estimation of the iron losses under PWM (Pulse Width Modulation) flux supply conditions. The computational results are validated versus measurements on Epstein's yoke. The proposed model is based on Finite Element method formulated in the harmonic domain and takes into account ferromagnetic hysteresis and eddy currents. A classical Preisach model is used for hysteresis modelling neglecting the effects of excess losses in field analysis. Different PWM supply conditions are measured and simulated with satisfactory agreement. [ABSTRACT FROM PUBLISHER]
- Published
- 1996
- Full Text
- View/download PDF
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