49 results on '"Kazuhiro Muramatsu"'
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2. Modeling of Magnetic Anisotropy Due to Compression Molding of Soft Magnetic Composite for Inductance Calculation
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Yanhui Gao, Yuji Gotoh, Kyoya Hamada, Shun Araki, Kazuhiro Muramatsu, Yukiha Takeuchi, Yasuhito Takahashi, Koji Fujiwara, Tetsuya Ogawa, Chio Ishihara, Kohei Aiba, and Seira Otsuka Otsuka
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Electrical and Electronic Engineering ,Electronic, Optical and Magnetic Materials - Published
- 2022
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3. Proposal of Core Structures for Iron Loss and Noise Reduction of Three-Phase Reactor With Anisotropic Iron Core
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Weimin Guan, Cuihua Tian, Yanhui Gao, Shuhei Ichimaru, Hiroshi Dozono, Toshihisa Miyabe, Jiaxin Yuan, Kazuhiro Muramatsu, and Baichao Chen
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three-phase reactor ,010302 applied physics ,Anisotropic core ,noise ,Materials science ,Condensed matter physics ,Finite element analysis ,Iron loss ,Magnetostriction ,Type (model theory) ,Inductor ,01 natural sciences ,Electronic, Optical and Magnetic Materials ,Magnetic field ,Core (optical fiber) ,Magnetic core ,Electromagnetism ,0103 physical sciences ,Electrical and Electronic Engineering ,Anisotropy - Abstract
To reduce the iron loss and noise of a three-phase reactor composed of grain-oriented (GO) steel plates, two types of core structures are proposed in this article. In the first type, the ordinary brick core model is improved to a hybrid one composed of GO and nonoriented steel plates, and in the second type, the T-joint part of the ordinary oblique-joint core model is improved to a straight joint. To show the effectiveness of the improved models, the iron loss and displacement distributions in the four core structures are evaluated using the 2-D magnetic field and mechanical analyses. In these analyses, the magnetic characteristics of the anisotropic cores are considered in detail. Namely, in the magnetic field analysis, the ${B}$ – ${H}$ curves in the arbitrary directions are considered. In the iron loss calculation, the rotational iron loss is calculated using the iron loss curves in the arbitrary directions. Moreover, the methods of calculating the displacements due to electromagnetism and magnetostriction considering the anisotropic ${B}$ – ${H}$ curves and magnetostriction in the arbitrary directions are proposed. It is shown that the iron losses and displacements of the two proposed core structures can be reduced compared with the ordinary ones. Moreover, the second proposed model is the most attractive one because both the iron loss and displacement are smaller than the other models.
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- 2021
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4. Modeling of Anomalous Eddy Current Losses Due to Movement of Domain Walls in Particles of a Soft Magnetic Composite
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Kazuhiro Muramatsu, Yanhui Gao, Weimin Guan, Cuihua Tian, Hiroshi Dozono, Baichao Chen, Yusuke Araki, and Jiaxin Yuan
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010302 applied physics ,Ferromagnetic particle ,Materials science ,Magnetic composite ,Magnetic domain ,Mechanics ,01 natural sciences ,Homogenization (chemistry) ,Electronic, Optical and Magnetic Materials ,Magnetic field ,law.invention ,Physics::Fluid Dynamics ,Nonlinear system ,law ,0103 physical sciences ,Eddy current ,Electrical and Electronic Engineering ,Relative permeability ,Physics::Atmospheric and Oceanic Physics - Abstract
Soft magnetic composites (SMCs) are composed of ferromagnetic particles surrounded by electrical insulation. To establish a homogenization technique for the magnetic field analysis of an electrical machine with an SMC core, we have already proposed a method to evaluate the effective permeability and iron loss of the SMC core using a cell model of one particle taking into account the nonlinear magnetic characteristics and eddy currents. However, the measured eddy current loss cannot be represented by using the proposed method. In this article, a 3-D eddy current analysis method modeling the anomalous eddy current loss due to the movement of domain walls in the cell model is developed based on the Pry and Bean magnetic domain model. The effect of the non-uniformity of the domain structure on the anomalous eddy current loss is investigated. It is shown that the measured eddy current loss can be almost represented by adding the anomalous eddy current loss to the classical one.
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- 2020
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5. Frequency Characteristics Analysis of Remote Field Eddy Current Testing on Ferromagnetic Pipes
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Kai Komatsubara, Yanhui Gao, Yuji Gotoh, Weimin Guan, and Kazuhiro Muramatsu
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Electrical and Electronic Engineering ,Electronic, Optical and Magnetic Materials - Published
- 2023
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6. Proposal of Maxwell Stress Tensor for Local Force Calculation in Magnetic Body
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Baichao Chen, Cuihua Tian, Mohendro Kumar Ghosh, Kazuhiro Muramatsu, Hiroshi Dozono, Weimin Guan, Jiaxin Yuan, and Yanhui Gao
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010302 applied physics ,Physics ,Deformation (mechanics) ,Surface force ,Maxwell stress tensor ,01 natural sciences ,Electronic, Optical and Magnetic Materials ,Magnetic field ,Stress (mechanics) ,Nonlinear system ,Magnetization ,Classical mechanics ,0103 physical sciences ,Minkowski space ,Electrical and Electronic Engineering ,010306 general physics - Abstract
To investigate the noise reduction of an electrical machine, the deformation and vibration of the cores are evaluated by using the coupled magnetic and mechanical analyses [1]. In these analyses, the local force calculated by using the flux distribution obtained from the magnetic field analysis is required in the mechanical analysis. In the local force calculation [2], the Maxwell stress tensor is usually used. The Maxwell stress tensors are often represented by the Minkowski and Chu models with linear and nonlinear energy expressions, respectively. In the nonlinear magnetic field analysis, the volume forces, which move the magnetic bodies, obtained from both models coincide with each other, whereas their local forces, which deform the magnetic bodies, are different. Therefore, more investigation is required to clarify the suitable expression of the Maxwell stress tensor. In this paper, to clarify the proper expression of the Maxwell stress tensor for the local force calculation of a nonlinear magnetic body, the Maxwell stress tensors are derived from the Fleming’s left hand rule because the volume current density can be used to determine the magnetization in the nonlinear magnetic body. As a result, a new Maxwell stress tensor is derived. The surface force obtained from the new Maxwell stress tensor is compared with those obtained from the ordinary Minkowski and Chu models, and the equivalent magnetizing current method [3] to show the effectiveness and validity of the proposed Maxwell stress tensor.
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- 2018
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7. Numerical Modeling of Iron Loss Considering Laminated Structure and Excess Loss
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Kazuhiro Muramatsu, Di Zhang, Weimin Guan, Yiyang Zhu, and Yanhui Gao
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010302 applied physics ,Materials science ,Astrophysics::High Energy Astrophysical Phenomena ,020208 electrical & electronic engineering ,Flux ,02 engineering and technology ,Mechanics ,engineering.material ,Magnetic hysteresis ,01 natural sciences ,Magnetic flux ,Electronic, Optical and Magnetic Materials ,law.invention ,Hysteresis ,Magnetic core ,law ,0103 physical sciences ,0202 electrical engineering, electronic engineering, information engineering ,engineering ,Eddy current ,Skin effect ,Electrical and Electronic Engineering ,Electrical steel - Abstract
In this paper, an excess loss modeling method of the laminated iron core is proposed. The 1-D single sheet silicon steel plate analysis is combined with the 3-D solid-core analysis to model the laminated structure. The modeling is improved by including the domain wall bowing due to pinning effect, which is considered as the main cause of excess loss. The domain wall bowing due to pinning is considered in the 1-D steel plate analysis because the excess loss generated by the flux density in the parallel direction of the stack is dominant compared with that in the perpendicular direction. In the 1-D analysis, an initial bowing flux distribution along the thickness direction of one lamination is introduced. The results of iron losses show that the hysteresis and eddy current losses vary with the flux and eddy current distribution in the laminated iron cores. Finally, the 1-D–3-D combined method is applied to a single-phase reactor; the magnetic flux and eddy current distribution are analyzed in detail. The eddy currents generated by the parallel flux are increased, hence, the skin effect of flux in the parallel direction of laminations is enhanced; thus, the hysteresis and eddy current losses are increased and the iron loss is increased by 8%.
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- 2018
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8. Topology and Performance Optimization of a Novel Hybrid Material-Based Direct Current Fault Current Limiter
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Liangliang Wei, Jiaxin Yuan, Fan Chen, Kazuhiro Muramatsu, Baichao Chen, Pengcheng Gan, Lin Cheng, Yongheng Zhong, Yanhui Gao, Hang Zhou, and Cuihua Tian
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010302 applied physics ,Computer science ,020209 energy ,Direct current ,Topology (electrical circuits) ,02 engineering and technology ,Superconducting magnet ,Fault (power engineering) ,Topology ,01 natural sciences ,Electronic, Optical and Magnetic Materials ,Magnetization ,Nonlinear system ,Magnetic core ,Magnet ,0103 physical sciences ,Limit (music) ,Fault current limiter ,0202 electrical engineering, electronic engineering, information engineering ,Electrical and Electronic Engineering ,Saturation (magnetic) - Abstract
A novel direct current system fault current limiter (DCSFCL) based on the principle of nonlinear magnetization was proposed to limit fast rising fault current of the dc system. Different materials were also tested to find the iron core material. However, the existing material is not able to obtain both two necessary indexes, namely, a large saturation point and fast demagnetization speed. Hence, the performance is not satisfactory using a single material. In order to obtain the best performance for the DCSFCL, mixed materials were applied to combine the advantages of different soft magnetic materials. Furthermore, magnetic valves were also added to the original DCSFCL topology, which is an effective method to optimize the clipping performance and reduce the usage of materials. The 2-D models were built and finite-element analyses were carried out to verify these assumptions. Compared with a traditional smoothing reactor, the proposed new model not only limits the fault current by 55.4%, but also reduces the usage of both magnetic material and permanent magnets by over 20%.
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- 2018
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9. Modeling of Magnetic Characteristics of Soft Magnetic Composite Using Magnetic Field Analysis
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Weimin Guan, Yanhui Gao, Hiroshi Dozono, Baichao Chen, Cuihua Tian, Takuya Fujiki, Kazuhiro Muramatsu, and Jiaxin Yuan
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010302 applied physics ,Materials science ,Isotropy ,02 engineering and technology ,engineering.material ,021001 nanoscience & nanotechnology ,01 natural sciences ,Homogenization (chemistry) ,Electronic, Optical and Magnetic Materials ,Magnetic field ,law.invention ,Nonlinear system ,law ,0103 physical sciences ,engineering ,Eddy current ,Particle size ,Electrical and Electronic Engineering ,Composite material ,0210 nano-technology ,Relative permeability ,Electrical steel - Abstract
Soft magnetic composite (SMC) is composed of ferromagnetic particles surrounded by electrical insulation. SMC has advantages such as isotropic magnetic characteristics, low eddy current loss, and easy to be manufactured into complex shapes compared with electrical steel sheets. In this paper, to establish the homogenization technique for the magnetic field analysis of an electrical machine using SMC, a method to evaluate the effective permeability and iron loss taking account of nonlinear magnetic characteristics and eddy currents is proposed by using a cell model composed of one particle of SMC. Then, the effects of the frequency and particle size on the effective permeability and iron loss are investigated numerically. Finally, the effective permeability and iron losses of an actual SMC are calculated, and they are compared with measured results to verify the proposed method. It is shown that theoretically proper results are obtained by using the proposed method. The calculated iron losses coincide well with the measured ones below 10 kHz, whereas the calculated effective permeability is smaller than the measured one due to different effective gap lengths.
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- 2018
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10. Development and Analysis of Bridge-Type Saturated-Core Fault Current Limiter
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Jiaxin Yuan, Yongheng Zhong, Baichao Chen, Shuhan Liao, Kazuhiro Muramatsu, Yanhui Gao, and Jiabin Jia
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010302 applied physics ,Materials science ,020209 energy ,02 engineering and technology ,01 natural sciences ,Magnetic flux ,Automotive engineering ,Electronic, Optical and Magnetic Materials ,law.invention ,Magnetic core ,law ,Magnet ,0103 physical sciences ,Fault current limiter ,Limit (music) ,0202 electrical engineering, electronic engineering, information engineering ,Eddy current ,Electrical and Electronic Engineering ,Electrical impedance ,DC bias - Abstract
The saturated-core fault current limiter (SFCL) is an effective device for limiting fault current. This paper proposes and analyzes a novel bridge-type SFCL (BSFCL) that uses a permanent magnet (PM) to reduce dc bias while improving the stability of the PM. The bridge structure in the BSFCL consists of four coils and a fault-limiting reactor which is used to limit fault current. The ac and the dc share coils to help reduce energy loss. The iron core uses air-gap branches to offer paths for ac flux, which reduces eddy current in the PMs and enhances their stability. The operating principle and characteristics of the BSFCL were analyzed using the electromagnetic coupling method. To investigate the effects of parameters on the performance of the BSFCL, various finite-element analysis simulations were performed by Maxwell. Experimental results of a 220 V prototype verify the effectiveness of the BSFCL.
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- 2017
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11. Performance and Optimization Study of a Novel Compact Permanent-Magnet-Biased Fault Current Limiter
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Xiang Li, Cuihua Tian, Baichao Chen, Kazuhiro Muramatsu, Yongheng Zhong, Jiaxin Yuan, Liangliang Wei, and Yanhui Gao
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Clipping (signal processing) ,Computer science ,020209 energy ,Biasing ,02 engineering and technology ,Fault (power engineering) ,Electronic, Optical and Magnetic Materials ,Magnetic circuit ,Control theory ,Magnet ,Limit (music) ,Fault current limiter ,0202 electrical engineering, electronic engineering, information engineering ,Electrical and Electronic Engineering ,Electrical impedance - Abstract
The permanent-magnet-biasing saturated core fault current limiter (PMFCL) is one of the most promising devices to limit the fault current. To improve the biasing ability of permanent-magnets (PMs) and reduce the cost of PMFCL, this paper proposes a novel compact permanent-magnet-biased fault current limiter (CPMFCL). The three-limb structure can reduce the size and cost; the optimal small-section structure can improve the biasing ability of PMs and reduce the usage amount of PMs. First, the principle, equivalent magnetic circuit, and small-section optimized structure are introduced. To validate the principle and performance of CPMFCL, various finite element analysis simulation and optimization study are performed in Maxwell-3D. A 220 V/10 A CPMFCL prototype is designed and tested. The simulation and experimental results demonstrate that, compared with traditional PMFCLs, the CPMFCL has the advantages of smaller size, better biasing capacity of PMs, lower possibility of demagnetization, and excellent fault clipping performance.
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- 2017
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12. A Novel Three-Phase Compact Saturated-Core Fault Current Limiter
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Liangjun Bai, Jiabin Jia, Shuhan Liao, Yanhui Gao, Kazuhiro Muramatsu, Baichao Chen, Yongheng Zhong, Liangliang Wei, and Jiaxin Yuan
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business.industry ,Computer science ,020209 energy ,Electrical engineering ,02 engineering and technology ,Fault (power engineering) ,Magnetic flux ,Electronic, Optical and Magnetic Materials ,law.invention ,Magnetic circuit ,Three-phase ,Magnetomotive force ,law ,Electrical network ,Magnet ,Fault current limiter ,0202 electrical engineering, electronic engineering, information engineering ,Electrical and Electronic Engineering ,business ,Electrical impedance - Abstract
The application of fault current limiter is an effective method to limit fault current. The saturated-core fault current limiter (SFCL) is one of the promising devices. However, its commercialization is limited by the high demands for the ferromagnetic material and the dc source generating magneto motive force. This paper proposes a novel three-phase compact SFCL (CSFCL) in which a common core and a permanent magnet are used to solve the mentioned challenges. The common core can significantly reduce the amount of required ferromagnetic material. The basic operating principle of CSFCL is introduced based on the analysis of the CSFCL’s magnetic circuit and equivalent electrical circuit. Finite-element analysis (FEA) simulations were performed by ANSOFT to validate the effectiveness of the CSFCL’s fault clipping performance.
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- 2017
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13. Modeling of Leakage Magnetic Field of Electric Machines Using Blocks With Magnetizations for Design of Magnetically Shielded Room
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Kazuhiro Muramatsu, Kazuyuki Miura, Nishino Takaaki, Hiroshi Dozono, Yusuke Moriyama, and Yanhui Gao
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010302 applied physics ,Physics ,Engineering ,Condensed matter physics ,Magnetic energy ,business.industry ,Magnetic reluctance ,Demagnetizing field ,Electrical engineering ,Magnetic flux leakage ,Magnetostatics ,01 natural sciences ,Magnetic flux ,Magnetic field ,Electronic, Optical and Magnetic Materials ,Computational physics ,Magnetic circuit ,Magnetization ,Nuclear magnetic resonance ,0103 physical sciences ,Magnetic pressure ,Electrical and Electronic Engineering ,business ,Voltage - Abstract
When a magnetically shielded room (MSR) to shield leakage fluxes of electric machines is designed by using magnetic field analysis, it is difficult to represent the leakage magnetic field of an electric machine accurately. In this paper, a method of modeling it using a simple solid model with multiple magnetization vectors is proposed. In this method, the magnetization vectors are determined by an inverse technique to represent a real leakage flux distribution. First, the proposed method is explained and verified using a simple 2-D linear magnetostatic one-phase transformer model. Then, the method is applied to a 3-D model and the effect of selected measured surface on representation of leakage flux is investigated. Finally, an experimental verification is carried out. It is shown that the proposed method can represent the leakage magnetic field with small number of magnetizations. The leakage flux only in the region behind the measured surface can be represented, and it is verified by experiment. Moreover, the shielding performance of MSR can be evaluated by using the proposed solid model with suitable permeability.
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- 2017
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14. A Novel Hybrid Saturated Core Fault Current Limiter Topology Considering Permanent Magnet Stability and Performance
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Baichao Chen, Yanhui Gao, Weimin Guan, Kazuhiro Muramatsu, Jiaxin Yuan, Yang Lei, Yongheng Zhong, and Cuihua Tian
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010302 applied physics ,Materials science ,020209 energy ,Topology (electrical circuits) ,02 engineering and technology ,Fault (power engineering) ,Topology ,01 natural sciences ,Electronic, Optical and Magnetic Materials ,law.invention ,law ,Electromagnetic coil ,Magnet ,0103 physical sciences ,Fault current limiter ,0202 electrical engineering, electronic engineering, information engineering ,Eddy current ,Electrical and Electronic Engineering ,Alternating current ,DC bias - Abstract
The saturated core fault current limiter (SFCL) is one of the most effective methods for limiting fault current. A permanent magnet (PM)-biased SFCL (PFCL) can reduce dc bias current and additional energy consumption. However, the thermal stability of NdFeB PMs in PFCL poses a major challenge. This paper proposes a novel hybrid-type SFCL (HSFCL) topology that can reduce this risk. In the HSFCL, a hybrid PM/dc coil is designed to saturate the core, and a fault-limiting reactor is used to guarantee fault-clipping performance. The new structure provides air-gap branches for the time-varying magnetic field produced by alternating current, which reduces the eddy current in the PMs and enhances their stability. Electromagnetic coupling is used to analyze the operating principles and characteristics of HSFCL. Finite-element analysis simulations were performed using Maxwell and compared with verification experiments, proving that HSFCL is efficient in fault clipping and PM reliability enhancement.
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- 2017
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15. A Coupled Method for Evaluating Eddy Current Loss of NdFeB Permanent Magnets in a Saturated Core Fault Current Limiter
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Yanhui Gao, Baichao Chen, Kazuhiro Muramatsu, Jiaxin Yuan, Yang Lei, Yongheng Zhong, Liangliang Wei, and Cuihua Tian
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010302 applied physics ,Physics ,business.industry ,020208 electrical & electronic engineering ,02 engineering and technology ,Structural engineering ,01 natural sciences ,Finite element method ,Electronic, Optical and Magnetic Materials ,law.invention ,Core (optical fiber) ,Nuclear magnetic resonance ,Neodymium magnet ,law ,Magnet ,0103 physical sciences ,Fault current limiter ,0202 electrical engineering, electronic engineering, information engineering ,Eddy current ,Transient (oscillation) ,Electrical and Electronic Engineering ,Reduction (mathematics) ,business - Abstract
Eddy-current loss of NdFeB permanent magnets (PMs) is widely analyzed in PM motors. This paper proposes a coupled 2-D transient finite-element analysis (FEA) of the saturated core fault current limiter (SCFCL) and 3-D analytical model of PMs to evaluate eddy-current loss in SCFCL. The comparison between the result from coupled method and that from 3-D FEA verifies the applicability of the coupled method in analyzing eddy current loss of PMs in SCFCL. The 3-D analytical model of PM is applied to analyze the effect of segmentation on the reduction of PM's eddy-current loss. And the results show that segmentation along width has a better performance, which is also verified by 3-D FEA.
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- 2017
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16. Effects of Stress and Magnetostriction on Loss and Vibration Characteristics of Motor
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Hassan Ebrahimi, Yanhui Gao, Kazuhiro Muramatsu, Hiroshi Dozono, Daiki Matsuhashi, and Takashi Okitsu
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010302 applied physics ,Materials science ,Stator ,Magnetostriction ,Mechanics ,01 natural sciences ,Finite element method ,Electronic, Optical and Magnetic Materials ,law.invention ,Core (optical fiber) ,Vibration ,Stress (mechanics) ,Nuclear magnetic resonance ,Compressive strength ,law ,0103 physical sciences ,Tensor ,Electrical and Electronic Engineering ,010306 general physics - Abstract
A method of 3-D finite element magnetomechanical analysis is developed to investigate the effect of magnetostriction (MS) and stress on the core loss and vibration of motors. Shrink-fit stress calculation is carried out using static structural analysis and equivalent thermal force calculated by a novel method using the thermal stress tensor. A method of core loss calculation is proposed to take account of the 3-D stress in the core loss calculation. The methods are applied to the core loss and the vibration analysis of a permanent magnet motor. Numerical results show that the stator core loss increases significantly due to the shrink-fit stress. However, the radial velocity of the housing surface slightly decreases due to the MS and further decreases due to the shrink-fit stress because the MS increases under compressive stress.
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- 2016
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17. Effect of Eddy Currents on Method for Evaluating Shielding Performance of Magnetically Shielded Rooms Using Exciting Coil
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Yuta Yoneyama, Kazuhiro Muramatsu, Kunio Kazami, T. Shinnoh, Yanhui Gao, T. Yamaguchi, Masaaki Shimada, Akihiko Sakai, Satoshi Yuuki, and Yamazaki Keita
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Physics ,Permalloy ,Acoustics ,Low frequency ,Noise (electronics) ,Electronic, Optical and Magnetic Materials ,law.invention ,Magnetic field ,Nuclear magnetic resonance ,law ,Electromagnetic coil ,Shielded cable ,Electromagnetic shielding ,Eddy current ,Electrical and Electronic Engineering - Abstract
The standard of Japan Electronics and Information Technology Industries Association EM-4502, in which the shielding factor (SFo) of magnetically shielded rooms (MSRs) for the uniform magnetic field can be estimated using coils within 10% error for the extremely low-frequency region of
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- 2014
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18. Coupled Magneto-Mechanical Analysis in Isotropic Materials Under Multiaxial Stress
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Kazuhiro Muramatsu, Hiroshi Dozono, Yanhui Gao, and Hassan Ebrahimi
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Physics ,Magnetic anisotropy ,Condensed matter physics ,Cauchy stress tensor ,Isotropy ,Magnetostriction ,Mechanics ,Electrical and Electronic Engineering ,Inverse magnetostrictive effect ,Hydrostatic stress ,Viscous stress tensor ,Anisotropy ,Electronic, Optical and Magnetic Materials - Abstract
In this paper, a model for the coupled analysis of magneto-mechanical problems with isotropic materials is proposed in which the effect of stress in transverse direction with respect to the flux density is also considered. To take into account the Villari effect in this case, magnetization data under zero stress and magnetostriction (MS) data under various levels of stress are required. The model uses stress-free magnetization curve and a set of MS curves together with the stress tensor to calculate the permeability variation due to the stress, including the stress-induced anisotropy. Unlike available methods in which an equivalent scalar stress is defined and used for the evaluation of permeability, the proposed method uses the full stress tensor. The model is then applied to a simple 2-D problem and the flux distribution in three cases of uncoupled, coupled without, and coupled with considering the transverse stress are compared.
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- 2014
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19. Loss Reduction of Reactor With Grain-Oriented Silicon Steel Plates
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Masahide Nagata, Yanhui Gao, Daiki Taura, Kazuhiro Muramatsu, Kenya Konishi, Hiroshi Dozono, and Kazunobu Kanazawa
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Materials science ,Magnetic core ,Flux concentration ,engineering ,Steel plates ,Electrical and Electronic Engineering ,Composite material ,engineering.material ,Anisotropy ,Homogenization (chemistry) ,Electronic, Optical and Magnetic Materials ,Magnetic field ,Electrical steel - Abstract
To reduce the iron loss of a reactor stacked with non-oriented steel plates, we have proposed the method of loss reduction improving the iron core configuration using the magnetic field analysis taking account of the laminated structure by the homogenization technique. In this paper, the iron loss reduction method is expanded to a reactor stacked with grain-oriented steel plates. The magnetic field analysis taking account of the laminated structure and steel plate anisotropy using homogenization technique is developed. The flux concentration due to the laminated structure, steel plate anisotropy, and joint between the leg and yoke of the reactor is analyzed and relaxed by the improvement of the core and joint configurations. It is shown that the iron loss can be about 36% reduced by the improvements.
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- 2013
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20. Homogenization Technique of Laminated Core Taking Account of Eddy Currents Under Rotational Flux Without Edge Effect
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Shinichi Sudo, Yanhui Gao, Lin Cheng, Hiroshi Dozono, and Kazuhiro Muramatsu
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Materials science ,Mechanics ,Linear analysis ,Homogenization (chemistry) ,Electronic, Optical and Magnetic Materials ,law.invention ,Physics::Fluid Dynamics ,Nuclear magnetic resonance ,Homogeneous ,law ,Eddy current ,Solid core ,Steel plates ,Electrical and Electronic Engineering ,Core model - Abstract
A homogenization technique of a laminated core taking account of the eddy currents in the steel plates by combining a three-dimensional (3-D) solid core model with a one-dimensional (1-D) steel plate model has already been proposed. In this paper, to apply the proposed technique to a motor core, in which flux rotates, the 1-D eddy current analysis of the steel plate is expanded to a 3-D analysis. The proposed method is applied to a simple laminated core model under the rotational flux in the linear analysis. Then, the eddy current loss obtained from the developed method is compared with those obtained by the homogeneous solid core model with 1-D steel plate model and the real laminated core model. It is shown that error occurs by neglecting the edge of the model but the accuracy is much improved in the eddy current loss calculated by using the proposed method.
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- 2013
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21. Evaluation of Stray Load Losses in Cores and Secondary Conductors of Induction Motor Using Magnetic Field Analysis
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Kazuaki Nagaki, Yuichi Kizaki, Tatsunori Sanmaru, Hiroshi Dozono, Yanhui Gao, Tsuyoshi Sakamoto, Genki Urabe, and Kazuhiro Muramatsu
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Physics ,Stator ,Time constant ,Skew ,Mechanics ,Electronic, Optical and Magnetic Materials ,Magnetic field ,law.invention ,Nuclear magnetic resonance ,law ,Harmonics ,Harmonic ,Electrical and Electronic Engineering ,Electrical conductor ,Induction motor - Abstract
To develop further higher efficiency induction motors, the reduction of the stray load losses, which are the increase of loss in the load condition relative to that in no-load test condition, should be investigated by using the magnetic field analysis. However, the calculation of the stray load losses using the magnetic field analysis requires high computation cost due to consideration of the slot harmonics in the flux densities, and the large time constant. In this paper, to evaluate the stray load losses in the cores and the secondary conductors of induction motors using the two-dimensional (2-D) magnetic field analysis within practical computation cost, some useful techniques, to mention a few, the nonconforming technique and the simplified time-periodic explicit error correction method, are introduced. Then, the stray load loss of an actual induction motor without skew is evaluated by the developed 2-D magnetic field analysis. It is shown that the calculated no-load losses are almost the same with the measured one, and the stray load losses in the stator core and secondary conductors due to the harmonic components in the secondary current are large.
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- 2013
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22. Coupled Magneto-Mechanical Analysis Considering Permeability Variation by Stress Due to Both Magnetostriction and Electromagnetism
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Kazuhiro Muramatsu, Hiroshi Dozono, Yanhui Gao, Akihisa Kameari, and Hassan Ebrahimi
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Vector calculus identities ,Physics ,Discretization ,Condensed matter physics ,Electromagnetism ,Cauchy stress tensor ,Mathematical analysis ,Divergence theorem ,Magnetostriction ,Electrical and Electronic Engineering ,Galerkin method ,Electronic, Optical and Magnetic Materials ,Energy functional - Abstract
A general model for the coupled analysis of magneto-mechanical systems is developed by minimizing the continuum energy functional of the system using the calculus of variation. This approach, which is in contrast with the traditional approach of minimizing after discretization, allows the use of strain and stress tensors, vector identities and the divergence theorem, and results in coupled governing equations of the system with three coupling terms; the magnetic stress tensor, the magnetostriction stress tensor, and the magnetostriction reluctivity. The model uses the information contained in the set of experimental magnetostriction curves dependent on stress to calculate the permeability variation due to stress. The governing equations are then discretized using the Galerkin method resulting in methods for the calculation of nodal magnetic and magnetostriction forces including the coupling effects. Finally the model is applied to a simple 2D problem and the flux density distributions using the proposed method and the traditional method of using experimental magnetization curves are compared.
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- 2013
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23. Investigation on Simple Numeric Modeling of Anomalous Eddy Current Loss in Steel Plate Using Modified Conductivity
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Kazuhiro Muramatsu, Yanhui Gao, and Y. Matsuo
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Electric machine ,Materials science ,business.product_category ,Magnetic domain ,Mechanics ,Conductivity ,engineering.material ,Electronic, Optical and Magnetic Materials ,law.invention ,Magnetic field ,Nuclear magnetic resonance ,law ,Electrical resistivity and conductivity ,Eddy current ,engineering ,Skin effect ,Electrical and Electronic Engineering ,business ,Electrical steel - Abstract
To calculate the iron loss in an electric machine accurately, the anomalous eddy current loss generated by domain wall motion should be considered. A simple numeric modeling of anomalous eddy current loss by modifying the conductivity of steel plates is sometimes used. However, investigation on this method in detail has not been carried out. In this paper, this method is investigated in two iron-loss models neglecting and including the skin effect and then applied to the loss calculation of various kinds of nonoriented and oriented silicon steel plates. Then, the dependence of the modified conductivity on the amplitude and frequency of the induction magnetic field for each material is obtained and the appropriate iron-loss model and method for modifying the conductivity are proposed for the nonoriented and oriented silicon steel plates. The calculated iron losses using the appropriate iron-loss model with modified conductivity are compared with the measured data. It is clarified that for nonoriented materials, the iron-loss model including the skin effect with constant modified conductivity shows good agreement. And for oriented materials, the model neglecting the skin effect with the modified conductivity depending on frequency is better.
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- 2012
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24. Magnetic Field Analysis With Nonconforming Voxel Modeling Using the Nested Geometric Multigrid Method
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Yanhui Gao, Kazuhiro Muramatsu, and Shunya Odawara
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Computer science ,Differential equation ,Magnetostatics ,computer.software_genre ,Finite element method ,Mathematics::Numerical Analysis ,Electronic, Optical and Magnetic Materials ,law.invention ,Nonlinear system ,Multigrid method ,law ,Voxel ,Scale analysis (mathematics) ,Eddy current ,Applied mathematics ,Polygon mesh ,Electrical and Electronic Engineering ,computer - Abstract
To establish a large scale magnetic field analysis, we have already proposed a magnetic field analysis using the first-order voxel modeling with nonconforming technique. The effectiveness of the nonconforming voxel modeling is shown using a simple 3-D eddy current model, a 2-D nonlinear IPM motor model, etc. In this paper, to make the proposed method more applicable for large scale analysis, the nested geometric multigrid method is introduced. First, to apply the multigrid method to the nonconforming finite element method, the treatments of the restriction and the prolongation are discussed. Then, the methods for nesting the fine mesh in the coarse mesh are discussed. Finally, the convergence characteristics of the multigrid method for the nonconforming voxel modeling are investigated using a simple 2-D magnetostatic model. It is shown that the essential convergence characteristic of the multigrid method can be obtained in the nonconforming voxel modeling when the restriction and the prolongation are treated appropriately and the geometries of models of the coarse and fine meshes are coincide with each other.
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- 2012
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25. Noise Reduction of a Three-Phase Reactor by Optimization of Gaps Between Cores Considering Electromagnetism and Magnetostriction
- Author
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Koji Fujiwara, Yanhui Gao, Shigemasa Fukuchi, Kazuhiro Muramatsu, Yoshiyuki Ishihara, and Masahide Nagata
- Subjects
Vibration ,Materials science ,Nuclear magnetic resonance ,Three-phase ,Magnetic reluctance ,Electromagnetism ,Magnetostriction ,Mechanics ,Electrical and Electronic Engineering ,Inductor ,Noise (electronics) ,Electronic, Optical and Magnetic Materials ,Magnetic field - Abstract
To reduce the noise of a reactor connected to an inverter power supply, we have already proposed an improved one-phase reactor, in which the hard materials are chosen as the insulators inserted in the gaps between the cores, and gaps are added in the yokes, using a three-dimensional (3-D) coupled magnetic field and vibration analyses taking account of both the electromagnetism and magnetostriction. The effectiveness was shown by experiment. In this paper, the design method is improved and applied to a three-phase reactor. First, the method of determining the optimal hardness of insulators inserted in gaps, so that both the displacements by electromagnetism and magnetostriction are canceled with each other, is proposed. In this method, the optimal hardness of gaps can be represented using a simple equation involving the lengths of the iron cores and the gaps, and a parameter concerned with magnetostriction. Moreover, the method of adding gaps in the yokes without changing the balance and reluctance of a three-phase reactor is also proposed. It is shown that the displacements of the reactor improved by using the proposed methods can be reduced to be 1/25 of the ordinary reactor in the 3-D coupled magnetic field and mechanical analyses taking account of both the electromagnetism and magnetostriction and laminated structure of the iron cores.
- Published
- 2011
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26. Conditions of Exciting Coils Used in Evaluation of Shielding Factor of Magnetically Shielded Rooms for Uniform Magnetic Field
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Mitsuru Sakakibara, Kazuhiro Muramatsu, S. Komori, Shunya Odawara, M. Shimokawa, K. Yamazaki, T. Shinnoh, Yanhui Gao, and T. Yamaguchi
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Physics ,Magnetometer ,Acoustics ,Low frequency ,Magnetostatics ,Electronic, Optical and Magnetic Materials ,law.invention ,Magnetic field ,Nuclear magnetic resonance ,Electromagnetic coil ,law ,Shield ,Electromagnetic shielding ,Shielded cable ,Electrical and Electronic Engineering - Abstract
To shield the environmental magnetic noises, magnetically shielded rooms (MSRs) are used for biomagnetic measurements, etc. The sources of environmental noises are far away from the MSR, in such a way that almost uniform magnetic field is applied to the MSR. To evaluate the shielding factor SFo for the uniform magnetic field in a construction site, the magnetic noises are applied by coils. However, SFs depend on the size and position of the coils, so a standardization of the method for accurately evaluating SFo using coils is being discussed in the Japan Electronics and Information Technology Industries Association (JEITA). In JEITA, we have already proposed and verified the method of estimating SFo's by smaller coils placed near MSRs in the low frequency region without eddy current effect. In this paper, the suitable size and position of coils, such that the errors of the SFo's estimated and directly evaluated are within 10%, on various shapes of MSRs are obtained using 3-D linear magnetostatic field analysis. Moreover, to correct SFs when the magnetic noises are applied to MSRs through a reinforced concrete wall, etc., the effect of wall on the applied magnetic field is also obtained from the experiment. Finally, the suitable coil conditions and the correction method are verified by the experiment using an actual double-layered MSR.
- Published
- 2011
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27. Magnetic Field Analysis Using Voxel Modeling With Nonconforming Technique
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Yanhui Gao, Kazuhiro Muramatsu, Daiki Matsuhashi, Shunya Odawara, and T. Okitsu
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Electromagnetic field ,Physics ,Condensed matter physics ,Mathematical analysis ,Solid modeling ,computer.software_genre ,Finite element method ,Magnetic flux ,Electronic, Optical and Magnetic Materials ,Magnetic field ,law.invention ,Nonlinear system ,Voxel ,law ,Eddy current ,Electrical and Electronic Engineering ,computer - Abstract
To establish a large-scale magnetic field analysis, the magnetic field analysis with the voxel modeling is investigated. To reduce the number of elements, the nonconforming technique is introduced. The accuracy of flux densities, eddy current densities, and forces obtained from the nonconforming voxel modeling is verified by comparing with those obtained from the ordinary voxel modeling in a simple 2-D model. Moreover, the proposed method is applied to a 3-D eddy current model as well as to a 2-D nonlinear IPM motor model. It is shown that the results obtained from the proposed method sometimes converge to true values slowly, whereas it provides acceptable results.
- Published
- 2011
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28. The Effect of Laminated Structure on Coupled Magnetic Field and Mechanical Analyses of Iron Core and Its Homogenization Technique
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Kazuhiro Muramatsu, Masahide Nagata, M J Hatim, and Yanhui Gao
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Electromagnetic field ,Mathematics::Dynamical Systems ,Materials science ,Condensed matter physics ,Magnetostriction ,Mechanics ,Magnetostatics ,Mathematics::Geometric Topology ,Homogenization (chemistry) ,Magnetic flux ,Electronic, Optical and Magnetic Materials ,Magnetic field ,Magnetic core ,Electromagnetism ,Electrical and Electronic Engineering - Abstract
To investigate the noise reduction for an electrical machine, coupled magnetic field and mechanical analyses should be carried out. In this paper, the method of modeling the laminated core using a homogeneous core model with equivalent anisotropic parameters considering the laminated structure in the coupled magnetic field and mechanical analyses is proposed and the effect of the laminated structure on the coupled analysis is investigated. The distributions of the flux densities, nodal forces by electromagnetism and magnetostriction, and displacements corresponding to these forces of the real laminated iron core model, the solid core model neglecting the laminated structure and the homogeneous core model considering the laminated structure are obtained and compared. It is shown that the laminated structure cannot be neglected in both the magnetic field and mechanical analyses and the displacement distribution obtained from the homogeneous model is in good agreement with the real model.
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- 2011
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29. Design Method for Realization of Open-Type Magnetically Shielded Room Composed of Magnetic Square Cylinders for MRI
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S. Hirosato, Koichiro Kobayashi, Akira Haga, K. Yamazaki, Yanhui Gao, H. Sasaki, Y. Haraguchi, K. Kamata, and Kazuhiro Muramatsu
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Materials science ,medicine.diagnostic_test ,Acoustics ,Magnetic flux leakage ,Magnetic resonance imaging ,Homogenization (chemistry) ,Magnetic flux ,Electronic, Optical and Magnetic Materials ,Magnetic field ,law.invention ,Nuclear magnetic resonance ,law ,Electromagnetic shielding ,Shielded cable ,medicine ,Electrical and Electronic Engineering ,Electrical conductor - Abstract
In order to increase amenity for hospital patients, we introduce an open-type magnetically shielded room (MSR) in tight space composed of magnetic and conductive cylinders for a magnetic resonance imaging (MRI). This paper presents a design for the MSR opening part for an actual 3T MRI that combines magnetic cylinders with magnetic mullions to decrease the leakage flux density to less than 0.5 mT, taking magnetic saturation into account. The design utilizes the homogenization technique to model the opening part which reduces the number of elements. Moreover, a newly optimized design approach is proposed for the design of openings. First, the opening part is designed while treating the magnetic property in linear analysis to obtain an ideal flux distribution without magnetic saturation. Then, the thickness of the magnetic cylinders is determined for magnetic cylinders to stay unsaturated. Finally, the open-type MSR presented in this paper is built in a hospital, and the design method is verified.
- Published
- 2011
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30. Magnetic Field Analyses of Architectural Components Using Homogenization Technique
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Kazuhiro Muramatsu, Y. Haraguchi, Shunya Odawara, Yamazaki Keita, and S. Hirosato
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Flux distribution ,Materials science ,Mechanics ,Atmospheric model ,Homogenization (chemistry) ,Magnetic flux ,Electronic, Optical and Magnetic Materials ,law.invention ,Magnetic field ,Magnetic disturbance ,Nuclear magnetic resonance ,law ,Electromagnetic shielding ,Shielded cable ,Electrical and Electronic Engineering - Abstract
When the magnetic field analyses of the architectural components, in which magnetic materials are distributed complicatedly, are carried out, great efforts toward the modellings and high computational costs are required. To overcome these problems, the homogenization technique seems to be attractive. In this paper, from the standpoint of a practical use, the effectiveness of the homogenization technique is investigated in the analyses of the magnetic disturbance due to a building and the shielding performance of an open-type magnetically shielded room with a wall made up of magnetic cylinders. First, the effect of the region, where the homogenization technique is applied, on the accuracy of the flux distribution is investigated. Then, to examine the possibility that the homogenization technique can be applied to a practical design, the accuracy of the homogenization technique to a real model is investigated. Moreover, the reproduction of the flux distribution of the real model using that obtained from the homogenization technique is also tried. It is shown that the homogenization technique should be applied to not only the region of the magnetic materials but also the air region surrounding them. Moreover, the accuracy of the flux distribution obtained from the homogenization technique is satisfactory for a practical design.
- Published
- 2010
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31. Method for Evaluating Shielding Factor of Double Layered Magnetically-Shielded Rooms for Uniform Magnetic Field Using Exciting Coils Placed on One Side
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Kiyotaka Kamata, Masao Simokawa, Takashi Meguro, Shogo Komori, T. Yamaguchi, Noboru Ishikawa, T. Shinnoh, Kazuhiro Muramatsu, Yamazaki Keita, Mitsuru Sakakibara, and Shunya Odawara
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Physics ,Acoustics ,Extrapolation ,Magnetostatics ,Magnetic flux ,Electronic, Optical and Magnetic Materials ,Magnetic field ,law.invention ,Nuclear magnetic resonance ,Electromagnetic coil ,law ,Shield ,Electromagnetic shielding ,Shielded cable ,Electrical and Electronic Engineering - Abstract
To shield the environmental magnetic noises, magnetically shielded rooms (MSRs) are used for biomagnetic measurements, etc. The sources of environmental noises are placed far away from the MSR, in such way that almost uniform magnetic fluxes are applied to the MSR. Therefore, to specify the shielding performance of MSR, the shielding factor SF? for the uniform magnetic flux density should be evaluated. To evaluate SF?, in a construction site, the magnetic noise is applied by coils. However, SF's depend on the size and position of the coil. Therefore, to accomplish a standardization of the method for evaluating SF?, accurately, by coils, the method for estimating SF?'s by smaller coil placed near MSR is being investigated in JEITA (Japan Electronics and Information Technology Industries Association). In JEITA, we have already proposed the method of estimating SF?'s by the extrapolation using simple numerical expressions representing the relations between the SF and the size, position of coil. The proposed method was verified by the actual single-layered MSR using coils placed on double sides. In this paper, the method of estimating SF? of the double-layered MSR, using coils placed only on one side of MSR and taking account of door effect, is investigated using 3D nonlinear magnetic field analysis and measurements. By using the analysis, it is shown that the single coil should be set in front of the door. Moreover, SF?'s estimated by using the measured data with the optimal coil setting can almost represent the tendencies of the true SF?.
- Published
- 2010
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32. Design of a Reactor Driven by Inverter Power Supply to Reduce the Noise Considering Electromagnetism and Magnetostriction
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Yanhui Gao, Tetsumi Takahata, Kazuhiro Muramatsu, Koji Fujiwara, Muhd Juzail Hatim, Yoshiyuki Ishihara, and Shigemasa Fukuchi
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Optimal design ,Materials science ,Noise reduction ,Mechanical engineering ,Inductor ,Electronic, Optical and Magnetic Materials ,Power (physics) ,Vibration ,Noise ,Nuclear magnetic resonance ,Electromagnetism ,Inverter ,Physics::Chemical Physics ,Electrical and Electronic Engineering - Abstract
To reduce the noise of a reactor under inverter power supply, the cause of noise should be investigated. For this purpose, we have already proposed a 3-D vibration analysis considering electromagnetism and magnetostriction, and the proposed method was applied to one phase of a reactor. It was found that the displacements in the yoke of the reactor are large and the hardness of insulators inserted in the gaps between cores affects the displacements. However, the optimal design to reduce the noise is not carried out. In this paper, first the better hardness of the gaps are determined by using the static structure analysis and a new design is proposed to reduce the noise. Moreover, the effectiveness of the improved hardness of gaps and the proposed new design of reactor is investigated by using the vibration analysis and the experiment.
- Published
- 2010
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33. Impedance Measurement Using a Resonance Circuit for Detecting Steel Bars and Cables Inside Pliable Plastic Conduit Tubes Buried in Concrete Walls and Slabs
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K. Ishikawa, Akira Haga, H. Sasaki, Koichiro Kobayashi, Kazuhiro Muramatsu, and K. Yamazaki
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Materials science ,Acoustics ,Electrical reactance ,Steel bar ,Electronic, Optical and Magnetic Materials ,law.invention ,Inductance ,law ,Electromagnetic coil ,Q factor ,Eddy current ,RLC circuit ,Electrical and Electronic Engineering ,Electrical impedance - Abstract
In order to detect steel bars and power cables inside pliable plastic conduit tubes buried in concrete walls and slabs during the renovation of old buildings, we have developed a new nondestructive inspection (NDI) system. This system, which enables high precision detection and easy handling at low cost, works by measuring the impedance due to the inductance change of a solenoid coil which exposes the test material to a magnetic field. In this system, the solenoid coil is connected to a compensating capacitor with a series-resonant circuit to reduce the impedance and multiply the impedance change by increasing the quality factor, Q, i.e., the ratio of the inductive reactance, ?L, to the coil resistance, R, which contributes to improving the signal-to-noise ratio for detection. This paper describes the validity of the design method of this NDI system. Firstly, the fractional deviation of inductance, ?, the inductance changes between with and without a steel bar and power cables were analyzed. The deviations due to the eddy currents and magnetization induced in the steel bars and power cables were computed through 3-D magnetic field analysis taking eddy currents at 5, 40 and 800 kHz into account. Secondly, the rates of change of impedance (RCIs) and phase angles were measured with the impedance meter of the newly developed NDI system. This system was designed so that the value of became roughly 200 and the resonance frequencies became about 5, 40 and 800 kHz. For steel bars, the predicted RCIs, which were calculated from the computed s multiplied by the designed Q factor, roughly matched those measured. In case of power cables, the tendency of predicted RCIs were roughly in accord with those measured. The validity of the design method's detecting system was verified. In addition, the analysis and measurement proved that this NDI system can distinguish steel bars from power cables by the polarity of the phase angle.
- Published
- 2010
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34. Reduction of Artifact of Metallic Implant in Magnetic Resonance Imaging by Coating of Diamagnetic Material
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Kazuhiro Muramatsu, Toru Yamamoto, Akihiko Chiba, Yanhui Gao, Atsumichi Kushibe, and Yamazaki Keita
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Materials science ,Condensed matter physics ,medicine.diagnostic_test ,Physics::Medical Physics ,Alloy ,Magnetic resonance imaging ,engineering.material ,Magnetic susceptibility ,Electronic, Optical and Magnetic Materials ,Magnetic field ,Magnetization ,Paramagnetism ,Nuclear magnetic resonance ,Coating ,engineering ,medicine ,Diamagnetism ,Electrical and Electronic Engineering - Abstract
Metallic implants composed of paramagnetic materials, such as stainless steel (SUS), Ti, Co-Cr-Mo alloy, etc., are widely used as artificial hip joints or aneurysm clips. When the metallic implant is placed in a uniform magnetic field of a magnetic resonance scanner, a magnetic disturbance is created due to its magnetization. This magnetic disturbance distorts the image of the metallic implant and body tissues in the magnetic resonance imaging (MRI). In order to overcome this problem, a method of coating the metallic implant with diamagnetic material has been proposed as the magnetic disturbance created by the metallic implant can be removed by the cancellation of the respective magnetizations of the paramagnetic and diamagnetic materials. But the optimal thickness of the diamagnetic coating has been obtained only for a sphere model by mathematical modeling. In this paper, the effects of a straight cylindrical hip joint model and an aneurysm clip model on the magnetic disturbance are investigated by using the magnetic field analysis of the finite element method (FEM). First, the magnetic disturbances generated by the two models made of paramagnetic material are calculated and compared with measured results. Moreover, the associations of susceptibilities chipar and chidia of the paramagnetic and diamagnetic materials and the optimal thicknesses of the diamagnetic coating when the magnetic disturbances can be reduced for the two models are shown.
- Published
- 2009
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35. Vibration Analysis of a Reactor Driven by an Inverter Power Supply Considering Electromagnetism and Magnetostriction
- Author
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Yanhui Gao, Shigemasa Fukuchi, Tetsumi Takahata, Kazuhiro Muramatsu, Yoshiyuki Ishihara, and Koji Fujiwara
- Subjects
Vibration ,Physics ,Nuclear magnetic resonance ,Electromagnetism ,Noise reduction ,Inverter ,Magnetostriction ,Insulator (electricity) ,Mechanics ,Electrical and Electronic Engineering ,Inductor ,Electronic, Optical and Magnetic Materials ,Magnetic field - Abstract
To design a new model to reduce the noise of a reactor under inverter power supply, the cause of noise should be investigated. We carry out vibration analysis of a single phase of a reactor while considering electromagnetism and magnetostriction to clarify the mechanism of noise generation in the reactor. In this analysis, magnetostriction is modeled three-dimensionally with equivalent nodal forces. First, the nodal forces in the cores of reactor due to the electromagetism and magnetostriction are calculated using the flux distribution obtained from magnetic field analysis. To determine the dominant cause of noise, the spatial distributions of displacements generated by both nodal forces are then obtained by static structure analysis and they are compared in detail. Moreover, the actual movements of the cores are calculated by vibration analysis. Finally, the effect of the hardness of the cores on noise generation is calculated and measured. It is shown that the hardness of the insulator inserted in gaps between cores affects the vibration and it seems to have an optimal value. Moreover, the analyzed results are proved by measurement.
- Published
- 2009
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36. Design and Construction Method of an Open-Type Magnetically Shielded Room for MRI Composed of Magnetic Square Cylinders
- Author
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S. Hirosato, Koichiro Kobayashi, A. Matsuura, K. Yamazaki, Akira Haga, H. Sasaki, Kazuhiro Muramatsu, Y. Haraguchi, and K. Kamata
- Subjects
magnetic field analysis ,Materials science ,Magnetic reluctance ,magnetically shielded room ,Magnetic flux leakage ,engineering.material ,Magnetic flux ,Leakage flux ,Electronic, Optical and Magnetic Materials ,Cylinder (engine) ,law.invention ,Magnetic field ,Nuclear magnetic resonance ,law ,Magnet ,Electromagnetic shielding ,engineering ,magnetic resonance imaging ,Electrical and Electronic Engineering ,Composite material ,Electrical steel - Abstract
To shield the leakage flux densities of 3 T magnetic resonance imaging (MRI) higher than 1.5 T MRI and to reduce the degradation of magnetic properties during construction, the design of an open-type magnetically shielded room (MSR) combined with square cylinders made of magnetic and conductive materials should be improved. This paper reports on an optimal design for magnetic cylinders to improve the shielding effect, while also considering ease of construction with a view to practical use. Firstly, the structure of the magnetic cylinders, such as their opening width and the slit width were optimized using a 3D linear magnetic-field analysis. Using optimal magnetic cylinders, when the relative permeability (μ_r) of the magnetic material is larger than 10 000, the reluctance of gaps between the cylinders is the main contributor to the leakage flux. So, the required (μ_r) of the magnetic material is 10 000 and oriented silicon steel is adopted instead of the non-oriented type. Secondly, as an optimal construction method, it was determined by experiment that oriented silicon steel sheets, annealed after bending, should be laminated so that the effect of gaps on butt joints between steel sheets on the magnetic property of the cylinder becomes smaller. This enables the relative permeability of 10 000 when the maximum flux density of the material in the cylinder is less than 1.7 T. Finally, the minimum thickness of oriented silicon steel sheet of cylinders depending on the distance from a 3 T MRI is obtained using linear magnetic analysis under the condition that the maximum flux density of the material of the cylinder is less than 1.7 T. In the case of the thickness of 3.8 mm, the leakage flux density of 3 T MRI is decreased to less than a guideline (0.5 mT) when the distance between the cylinders and the center of MRI is larger than 2 750 mm. This indicates that the optimal design and construction method of an open-type MSR for 3 T MRI composed of magnetic square cylinders are realized.
- Published
- 2009
37. Method for Evaluating the Eddy Current Loss of a Permanent Magnet in a PM Motor Driven by an Inverter Power Supply Using Coupled 2-D and 3-D Finite Element Analyses
- Author
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Daiki Matsuhashi, Takashi Okitsu, and Kazuhiro Muramatsu
- Subjects
Physics ,Rotor (electric) ,Magnetic reluctance ,Finite element method ,Electronic, Optical and Magnetic Materials ,Power (physics) ,law.invention ,Magnetic field ,Nuclear magnetic resonance ,law ,Control theory ,Magnet ,Eddy current ,Inverter ,Electrical and Electronic Engineering - Abstract
To evaluate eddy current losses of permanent magnets (PMs) in motors driven by inverter power supplies in less computation time, we propose the coupled 2-D analysis of the motor and 3-D eddy current analysis of only the PM. In the proposed method, we carry out 2-D nonlinear magnetostatic analysis of the PM motor by rotating the rotor. We then perform 3-D eddy current analysis of only the PM using the temporally varying flux distributions in the PM obtained from the 2-D analysis. For 3-D eddy current analysis, we investigate methods that do and do not consider the compensation field generated by eddy currents. Moreover, for the case in which the compensation field is considered, we demonstrate the method of considering the reluctance of the motor core by the equivalent gap. Finally, we verify the proposed method by comparing results obtained using the proposed method and results obtained by full 3-D analysis for an interior PM motor. We show that the eddy current loss can be estimated in 1/15 of the computation time required for full 3-D analysis when the proposed method takes both the compensation field and the reluctance of motor core into account.
- Published
- 2009
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38. Loss Calculation of Reactor Connected to Inverter Power Supply Taking Account of Eddy Currents in Laminated Steel Core
- Author
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K. Shida, Kazuhiro Muramatsu, Koji Fujiwara, Shigemasa Fukuchi, Tetsumi Takahata, and Yanhui Gao
- Subjects
Materials science ,Mechanics ,Inductor ,Magnetic flux ,Electronic, Optical and Magnetic Materials ,Magnetic field ,Power (physics) ,law.invention ,Nuclear magnetic resonance ,law ,Harmonic ,Eddy current ,Inverter ,Electrical and Electronic Engineering ,Reduction (mathematics) - Abstract
A method of magnetic field analysis which takes eddy currents into account in laminated steel core is extended into loss calculation to investigate the loss reduction of reactor connected to inverter power supply. In the proposed method, the iron loss in the laminated core can be calculated considering the flux and eddy current distributions in steel plate affected by harmonic components. The proposed method is applied to a single-phase model of reactor connected to inverter power supply and the loss distributions are demonstrated in detail. Moreover, in order to reduce the loss, the shape configurations of core and plate are improved. Finally, the experiments using three-phase reactors are carried out to verify the calculation and investigate the effectiveness of the proposed shape configuration.
- Published
- 2009
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39. Open-Type Magnetically Shielded Room Combined With Square Cylinders Made of Magnetic and Conductive Materials for MRIs
- Author
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Kazuhiro Muramatsu, Koichiro Kobayashi, S. Hirosato, K. Yamazaki, Akira Haga, and K. Kamata
- Subjects
Electromagnetic field ,multilayered magnetically shielded room ,Materials science ,business.industry ,opening ,engineering.material ,Electronic, Optical and Magnetic Materials ,Magnetic field ,law.invention ,Cylinder (engine) ,Optics ,Nuclear magnetic resonance ,law ,Magnet ,Electromagnetic shielding ,Shielded cable ,engineering ,magnetic resonance imaging ,Electrical and Electronic Engineering ,business ,leakage magnetic field ,Electrical conductor ,Electrical steel - Abstract
To improve the comfort of hospital patients, we have developed a new open-type magnetically shielded room (MSR) for magnetic resonance imaging (MRI), constructed by stacking square cylinders composed of magnetic material on the inside and a conductive material on the outside. The magnetic cylinder shields against leakage of the magnetic field from the MRI, while the conductive outer cylinder prevents intrusion of the electromagnetic field from outside by waveguide attenuation. First, the optimal design of the magnetic cylinder was determined, using 3-D magnetic field analysis with a simple cubic MSR. Second, the validity of the analysis and the practical realization of the designed MSR were investigated using a small experimental model. Finally, from a design perspective and the standpoint of saving space, the optimal combination of electromagnetically shielded glass and conductive cylinders made of aluminum was studied by measuring the electromagnetic shielding effect. As the optimal design of an open-type MSR for an MRI, we have adopted a combination of single-layered electromagnetically shielded glass together with stacked cylinders. These cylinders are made of a square cylinder, 144 x 144 mm and 300 mm long, made of silicon steel (thickness t =1 mm) and divided into three parts along the axial direction, placed inside a second square cylinder made of aluminum, 150 x 150 mm and 300 mm long (t = 3 mm). This MSR construction technique creates an open, spacious feeling inside the facility and can be easily fabricated at low cost.
- Published
- 2008
40. Analysis of eddy currents in surface layer of laminated core in magnetic bearing system using leaf edge elements
- Author
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C. Kaido, T. Shimizu, S. Tokura, I. Yanagisawa, Kazuhiro Muramatsu, A. Kameari, and O. Saito
- Subjects
Core (optical fiber) ,Nuclear magnetic resonance ,Materials science ,law ,Eddy current ,Magnetic bearing ,Surface layer ,Electrical and Electronic Engineering ,Edge (geometry) ,Composite material ,Finite element method ,Electronic, Optical and Magnetic Materials ,law.invention - Abstract
In order to calculate the eddy current losses in the thin surface layer of a laminated core, in which the insulation between steel sheets is broken by a process of a polish, the leaf element is expanded into the edge finite element method. Several treatments for the leaf element are illustrated and the effectiveness is investigated by using a simple model. Then, the effect of the surface layer on the iron losses is discussed in an actual magnetic bearing system
- Published
- 2006
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41. Investigation on demagnetization of residual magnetization in architectural components using 3-D magnetic field analysis
- Author
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Kazuhiro Muramatsu, S. Hirosato, Akira Haga, K. Kato, T. Shimizu, K. Yamazaki, Koji Fujiwara, and T. Sato
- Subjects
Materials science ,Condensed matter physics ,Magnetism ,Physics::Medical Physics ,Demagnetizing field ,Magnetic hysteresis ,Finite element method ,Electronic, Optical and Magnetic Materials ,law.invention ,Magnetic field ,Magnetization ,law ,Electromagnetic coil ,Eddy current ,Electrical and Electronic Engineering - Abstract
In order to investigate an effective method for removing the residual magnetization in the steel structure of a building by a demagnetizing coil, a method for estimating the distribution of residual magnetization by means of a three-dimensional nonlinear eddy-current analysis was proposed. The tendency of the result obtained from the proposed method was in good agreement with the experimental result. Moreover, it was found that the demagnetizing coil should be set perpendicular to the steel structure.
- Published
- 2005
- Full Text
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42. Method for analyzing 3-D magnetic field in linear actuator using nonconforming mesh with edge elements
- Author
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T. Matsuda, C. Tsukishima, T. Takeuchi, Kazuhiro Muramatsu, K. Koda, and T. Nakagawa
- Subjects
Position (vector) ,Computer science ,Magnetism ,Mathematical analysis ,Polygon mesh ,Electrical and Electronic Engineering ,Linear actuator ,Actuator ,Finite element method ,Mathematics::Numerical Analysis ,Electronic, Optical and Magnetic Materials ,Magnetic field ,Interpolation - Abstract
A method for analyzing three-dimensional (3-D) magnetic field in a model including moving parts, such as linear actuator, was developed by using a nonconforming mesh with edge elements. In this method, the meshes for moving and nonmoving parts are generated individually, and they are overlapped together at an arbitrary position. Then, the magnetic field analysis is carried out by using the nonconforming technique with interpolation. It is shown that the proposed method is useful for a dynamic analysis of a 3-D actuator model.
- Published
- 2005
- Full Text
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43. A practical method for evaluating magnetic disturbance due to buildings for the design of a magnetic testing site
- Author
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Koji Fujiwara, Kazuhiro Muramatsu, M. Miyamoto, H. Saegusa, K. Kato, H. Kaneko, K. Yamazaki, and M. Uchida
- Subjects
Flux distribution ,Brick ,Computer science ,business.industry ,Magnetism ,Structural engineering ,Finite element method ,Electronic, Optical and Magnetic Materials ,Magnetic field ,Magnetization ,Nuclear magnetic resonance ,Magnetic disturbance ,Electrical and Electronic Engineering ,Magnetic testing ,business - Abstract
A highly practical method for evaluating magnetic disturbance due to adjacent buildings for the design of a magnetic testing site with nearly zero magnetic field was proposed. A modeling technique for complicatedly distributed magnetic materials in buildings was verified by the measurement using an actually constructed building. Moreover, a convenient formula was conceived, in which a building is replaced simply into a brick magnetic body and the flux distribution due to its magnetization is calculated analytically. It was shown that the proposed formula is useful for investigating the effect of the positions of buildings for additional construction on the magnetic disturbance.
- Published
- 2005
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44. Method of Nonlinear Magnetic Field Analysis Taking Into Account Eddy Current in Laminated Core
- Author
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H. Fujitsu, F. Shimanoe, T. Okitsu, and Kazuhiro Muramatsu
- Subjects
Materials science ,Phasor ,Mechanics ,Finite element method ,Electronic, Optical and Magnetic Materials ,law.invention ,Magnetic field ,Core (optical fiber) ,Nonlinear system ,Nuclear magnetic resonance ,Simple (abstract algebra) ,law ,Eddy current ,Electrical and Electronic Engineering ,Extended finite element method - Abstract
In this paper, the method for modeling laminated core by a solid one is investigated. The method for taking into account eddy current in each steel plate used for laminating, which has already been developed in linear analysis, is expanded to nonlinear analysis by using one-dimensional finite-element analysis and the step-by-step method instead of the analytical solution and the phasor method, respectively. The effectiveness of the proposed method is shown by using a simple model.
- Published
- 2004
- Full Text
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45. 3D magnetic field analysis using nonconforming mesh with edge elements
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Y. Yokoyama, Kazuhiro Muramatsu, and N. Takahashi
- Subjects
Surface (mathematics) ,Physics ,Simple (abstract algebra) ,Mesh generation ,Mathematical analysis ,Electrical and Electronic Engineering ,Edge (geometry) ,Magnetostatics ,Finite element method ,Mathematics::Numerical Analysis ,Electronic, Optical and Magnetic Materials ,Interpolation ,Magnetic field - Abstract
Methods of analyzing three-dimensional magnetic fields using nonconforming mesh with edge elements are investigated. Two kinds of interpolation techniques at the nonconforming surface, of which the tangential components of the potential are discontinuous and continuous, are proposed. Both methods are compared with each other using a simple model from a viewpoint of the accuracy. It is shown that the tangential components of the potential should be continuous at the nonconforming surface.
- Published
- 2002
- Full Text
- View/download PDF
46. Three-dimensional steady-state eddy-current analysis of moving conductor using edge elements and moving-coordinate system
- Author
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T. Kuwahara, M. Ogawa, Norio Takahashi, Kazuhiro Muramatsu, and N. Iwao
- Subjects
Physics ,Steady state ,Coordinate system ,Mathematical analysis ,Magnetostatics ,Finite element method ,Electronic, Optical and Magnetic Materials ,Conductor ,law.invention ,Classical mechanics ,law ,Eddy current ,Cylinder ,Electrical and Electronic Engineering ,Interpolation - Abstract
A method for three-dimensional steady-state eddy-current analysis of moving conductor using nodal elements and moving-coordinate system is changed to the edge finite-element method (FEM). This method uses the interpolation of the unknown values on edges at any positions. The new method is verified using the iron cylinder rotating in the uniform magnetic field. Moreover, it is shown that more accurate results by using the new method can be obtained within shorter central processing unit time compared with the nodal FEM.
- Published
- 2002
- Full Text
- View/download PDF
47. Optimization of permanent magnet type of retarder using 3-D finite element method and direct search method
- Author
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C. Yamada, Norio Takahashi, Shin Kobayashi, M. Ogawa, T. Kuwahara, M. Natsumeda, and Kazuhiro Muramatsu
- Subjects
search problems ,Optimal design ,optimisation ,Computer science ,permanent magnets ,eddy current braking ,torque ,finite element analysis ,Eddy current brake ,Retarder ,Finite element method ,vehicles ,Electronic, Optical and Magnetic Materials ,law.invention ,electrical engineering computing ,law ,Control theory ,Magnet ,Eddy current ,Torque ,Central processing unit ,Electrical and Electronic Engineering - Abstract
3-D optimization method using the combined experimental design method and direct search method is developed to apply to the optimal design of a permanent magnet type of retarder. It is shown that the braking torque is increased by using the optimization method. The CPU time can be considerably reduced by utilizing the initial values obtained by the experimental design method
- Published
- 1998
- Full Text
- View/download PDF
48. Optimal Structure of Magnetic and Conductive Layers of a Magnetically Shielded Room
- Author
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Akira Haga, Kazuhiro Muramatsu, K. Yamazaki, F. Torita, and M. Hirayama
- Subjects
Materials science ,Condensed matter physics ,Magnetic energy ,Magnetic structure ,Electronic, Optical and Magnetic Materials ,law.invention ,Magnetic field ,Nuclear magnetic resonance ,law ,Electromagnetic shielding ,Shielded cable ,Eddy current ,Shielding effect ,Electrical and Electronic Engineering ,Magnetic reactance - Abstract
Although the method of optimal design of magnetically shielded rooms (MSRs) for dc magnetic noise seems to be well established, that for ac magnetic noise at a frequency range from 0.01 to 1 Hz is also required for measurements of extremely weak magnetic fields such as biomagnetic measurements. However, such a method cannot easily be established due to eddy current effects. In order to establish an optimal design method of an MSR for low frequency ac magnetic noise, we have investigated an optimal structure of the magnetic and conductive layers using three-dimensional (3-D) linear magnetic field analysis taking into account eddy currents. We show why a structure which sandwiches the conductive layer between double magnetic layers gives high shielding effect. Moreover, we found that the spacing between the layers does not affect the shielding effect for ac magnetic noise. This is useful knowledge from the standpoint of MSR production
- Published
- 2006
- Full Text
- View/download PDF
49. Incremental permeability of mu-metal in low magnetic fields for the design of multilayer-type magnetically shielded rooms
- Author
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Kazuhiro Muramatsu, Koji Fujiwara, K. Kato, Akira Haga, K. Kamata, Koichiro Kobayashi, K. Yamazaki, and T. Yamaguchi
- Subjects
Physics ,Mu-metal ,Condensed matter physics ,Magnetometer ,Biomagnetism ,Magnetic flux ,Physics::Geophysics ,Electronic, Optical and Magnetic Materials ,Magnetic field ,law.invention ,SQUID ,law ,Permeability (electromagnetism) ,Electromagnetic shielding ,Electrical and Electronic Engineering - Abstract
In order to improve the design efficiency of multilayer-type magnetically shielded rooms (MSRs), the magnetic property of mu-metal in low magnetic fields was investigated. The shielding effects (SEs) of multilayered cylinders composed of mu-metal were measured by using a superconducting quantum interference device (SQUID) magnetometer. Then, the incremental permeability of mu-metal was estimated by numerical analysis. It is shown that the incremental permeability becomes constant against the biasing flux density, and is a function of only the magnetic fluctuations, when the biasing flux density is under 0.1 T, which is less than that of the typical MSR set in the geomagnetism.
- Published
- 2005
- Full Text
- View/download PDF
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