Conference on the Computation of Electromagnetic Fields: September 3 - 7, 1989, Tokyo, Japan
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| Format: | Tagungsbericht Buch |
| Sprache: | English |
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New York, NY
IEEE
1990
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| Schriftenreihe: | IEEE transactions on magnetics
26,2 |
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| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | Literaturangaben. - Einzelaufnahme eines Zs.-Bandes |
| Beschreibung: | S. 333 - 1135 Ill., graph. Darst. |
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| 245 | 1 | 0 | |a Conference on the Computation of Electromagnetic Fields |b September 3 - 7, 1989, Tokyo, Japan |
| 264 | 1 | |a New York, NY |b IEEE |c 1990 | |
| 300 | |a S. 333 - 1135 |b Ill., graph. Darst. | ||
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| 490 | 0 | |a IEEE transactions on magnetics |v 26,2 | |
| 500 | |a Literaturangaben. - Einzelaufnahme eines Zs.-Bandes | ||
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| adam_text | TRANSACTIONS ON
ELT
ZB
283/MAG
MAGNETICS
MARCH
1990
VOLUME
26
NUMBER
2 (ISSN 0018-9464]
A PUBLICATION OF THE IEEE MAGNETICS SOCIETY
Regtlar Contributions begin on page
1066
CONFERENCE ON THE COMPUTATION OF ELECTROMAGNETIC FIELDS (COMPUMAG
-
Tokyo)
September
3-7,1989
Tokyo, Japan
Commttees
.......................................................................................... 340
Remarb from the Organizers
........................................................................... 343
List of Participants
.................................................................................... 345
!·
STATIC FIELDS
3D
Finite element solution of complex magnetostatic problem involving axial and radial excitation—Using a single
scalar potential —Ke-qin Wang Zhong-wei Jiang, and Yu-shiSun
........................................ 356
hree-dimensional magnetic field analysis method using scalar potential formulated by boundary element method
~M. Koizumi, M. Onisawa, andM. Utamura
......................................................... 360
3D
non-linear magnetostatic analysis of a double-walled cylindrical shield
—
M.
Fauri
and P.
Sonato
.............. 364
D
open boundary magnetic field analysis using
infinite
element based on hybrid finite element method
—
T,
Nakata, N.
Takahashi, K. Fujiwara, andM.
Sakagßchi................................................. 368
Ute
element computation of
3-D
nonlinear magnetic field in claw-pole electric machine using two scalar potentials,
hybrid elements
&
automatic mesh generation
—Langu
Li and YouqingXiang
..........,................. 371
Some improvements in nonlinear
3D
magnetostatics
-
C.
A. Magete,
К
Preis,
and
W.
Renhart
.................... 375
333
Magnetic field perturbation and magnetic stress analysis due to a ferromagnetic first wall
—
T. Ohira, T. Takagi, K.
Ща,
T.Horie, andY. Seki
......................................................................... 379
Finite element solution of permanent magnetic field
—
R. Gupta, T. Yoshino, and Y.
Saito
....................... 383
Efficient computation of electric field in high voltage equipment —B. L. Qin, G. Z. Chen, Q. Qiao, and/.
N.
Sheng
.. 387
A new coordinate transform for the finite element solution of axisymmetric problems in magnetostatics
— ƒ.
В. М.
Melissen
and
J.
Simian
............................................................................ 391
Finite element approximation in axisymmetrical domains
—
A. Boqlietti, M. Chiampi, D. Chiarabaglio, and M.
Tartaglia
........................................................................................ 395
Optimal magnet design for NMR
—Aleš Gottvald
.......................................................... 399
An evaluation of the computational error near the boundary with magnetostatic field calculation by B.E.M.
—
K.
Sawa
and T. Hirano
.............................................................................. 403
Mapetically anisotropic slot wedges for rotating machines
—
M. Watanabe,
K Ide,
M.
Takahashi, and
N.
Takahashi
407
Further discussion on magnetic vector potential finite-element formulation for three-dimensional magnetostatic field
analysis
—
Y. Kanai, T.Abe, M. Sengoku, T. Iijima, M. Iizuka, and
K Mukasa
............................. 411
Hybrid method for computing demagnetizing fields
—
D. R. Fredkin and
T. R.
Koehler
.......................... 415
2.
TIME DEPENDENT FIELDS
Finite element analysis of
3-D
eddy currents
—
O.
Bíró
and
К
Preis.......................................... 418
Methods for magnetically nonlinear problems involving significant hysteresis and eddy currents
—
A. G. Jack andB.
C. Mecrow
...................................................................................... 424
A comparison of
Lorentz
gauge formulations in eddy current computations
—
C. F. Bryant, C.
2?. /.
Emson, and
C. W.
Trowbridge
...................................................................................... 430
Comparison of different finite elements for
3-D
eddy current analysis
—
T.
Nakata, N.
Takahashi, K. Fujiwara, and Y.
Shiraki
......................................................................................... 434
Performance of different vector potential formulations in solving multiply connected
3-D
eddy current problems
-O. Biro, K.
Preis,
W.
Renhart,
К Я
Richter,
and G. Vrisk
.............................................. 438
Investigation
of effectiveness of various methods with different unknown variables for
3-D
eddy current analysis
—
T.
Nakata, N.
Takahashi,
К
Fujiwara, andK. Muramatsu
............................................ 442
Boundary element analysis for the three-dimensional eddy current problem
—
M. Enokizono and T. Todaka
........ 446
Improved finite element formulation for dielectric loaded waveguides
—István Bárdi
and
Oszkár
Biro
-----......... 450
Tbree-dimensional eddy current analysis by the boundary element method using vector potential
—
H. Tsuboi and
M. Tanaka
...................................................................................... 454
Eddy current analysis by the boundary integral equation method —Kazuhisa Ishibashi
.......................... 458
ABEM
code for
3-D
eddy current calculations
—W.U. Ruckerand
K R.
Richter .............................. 462
Calculation of transient
3D
eddy current using edge-elements —AJdhisa Kameari
.............................. 466
A new hybrid model using electric field formulation for
3-D
eddy current problems
—
Z. Ren, F.
Bouiłlault,
A. Razek,
ABossavit, andJ.
C. Vérité........................................................................
470
Experimental verification of
3D
eddy current analysis code using
Г
-method
—
Toshiyuki Takagi, Mitsuo Hashimoto,
SeijiArita, SoNorimatsu, ToshihikoSugiura, andKenzoMiya
........................................... 474
Calculation of
3D
eddy current problems by an hybrid
Т
-Ω
method
-
F. Bouillault, Z. Ren, and A. Razek
.......... 478
Eddy currents in bodies with sharp edges by the MMP-method
—
S.
Шепег
.............................,...... 482
The solution of general three dimensional eddy current problems using the package CARMEN
—
C. R.
I. Emson
and]. Simkin
.................................................................................... 486
Calculation of AC losses in current forced conductors using
3D
finite elements and the A^V method
—
P. J.
Leonard, D. Rodger, and
Я
J.
Hill-Cotüngham........................................................ 490
Computation of eddy current losses by heavy current leads and windings in large transformers using IEM coupled
with improved
jR
-Ψ
method
-
Renyuan Tang, Junyou Yang, Zhouxiong Wu, FengLin, ChunrongLiu, and Zihong
Xu
............................................................................................. 493
Calculation of end region magnetic field and circulation losses for turbo-generators using a coupled field and circuit
equations method -Renyuan Tang Guangren Xu, Lijian
Tian,
Danqun Zhao, and YiXu
................... 497
334
Investigation of a model to verify softwares for
3-D
nonlinear eddy current analysis
-
T.
Nakata, N.
Takahashi, and
K. Fujiwara
...................................................................................... 501
Eddy current methods for evaluation of the transformed fraction of metals by voltage source
-
Han-
Soo
Kim,
Il-HanPark, Sang-BongWee, Song-Yop Hahn,
and Min-Koo Han
........................................ 505
Transient analysis of electromagnetic fields in a magnetic medium with hysteresis in a three-dimensional space
—
T.
Monta,
N.
Yoshida, and I. Fukai
.................................................................... 509
A new approach to the transient analysis of magnetic field with variable transformation based on eigenvalues
—
H.
Tsuboi, M. Tanaka, and T. Naito
................................................................... 513
3.
MATERIALS
Effects of magnetic properties of steel on flux response
-У.
Ohdachi, Y. Inaguma,
N.
Iwama, A. Watarai, H.
Fuß,
and Y. Honkura
.................................................................................. 517
A technique of homogenization applied to the modelling of transformers
—A. De
Rochebrune, J. M. Dedulle, and J.
C. Sabonnadiere
................................................................................. 520
Magnetic fields in nonlinear anisotropic grain-oriented iron-sheet —J. M. Dedulle,
G. Meunier,
A. Foggia,
J. C
Sabonnadiere, andD. Shen
........................................................................ 524
A numerical verification of the Clausius-Mossotti relation
—
J. Steffan and
К
R.
Richter......................... 528
Numerical field calculation of additional non-linear effects and additional non-linear components in permanent
excited machines —H.-J. Gutt andR. Lust
........................................................... 532
4.
COUPLED PROBLEMS
A modeling approach of a coupled problem between electrical current and its thermal effects
—
J. P.
Assumpção
Bastos,
N.
Sadowski, andR.
Cansón ................................................................
536
Analysis of a coupled problem: The FELIX cantilevered beam — Toshiya
Morirne
.............................. 540
Dynamic behavior of thin plates under impulsive magnetic field —J.
Tani,
M.
Minagawa,
К
Ohtomo, and M. Saigo
.. 544
Coupled elements for problems involving movement
—
D. Rodger,
H.
С
Lai, and P. J. Leonard
................... 548
Finite element analysis of cage induction motors fed by static frequency converters
—
A. Arkkio
.................. 551
An analysis of ion beam trajectories by using boundary element method —Shinji Shirakawa, Hajime Igarashi, and
Toshihisa Honma
................................................................................ 555
Comparison of different strategies for the analysis of nonlinear coupled thermo-magnetic problems under pulsed
conditions
—
P. Motfino andM.
Repetto
............................................................ 559
A study of the cantilever beam in time varying magnetic field
—
T. Kabashima, Y. Ueda, Y. Nose, and M. Ohio
...... 563
Two-dimensional finite-boxes analysis of
monopolar
corona fields including ion diffusion
—
Giovanni Ghione and
Roberto D. Graglia
............................................................................... 567
Boundary element analysis of free boundary field-reversed configurations —Shinichi Sawai, Masanori Tsuchimoto,
Hajime Igarashi, and Toshihisa Honma
.............................................................. 571
Axisymmetric electromagnetic fields coupled to lossy media
— Min Eig
Lee and Nathan Ida
...................... 575
Finite element analysis for eddy current in D.C. electromagnet during its closing process
—
Qingjdn Yang and Weili
Yan
..................................... ..... 579
5.
NUMERICAL METHODS
Hybrid finite element and boundary element method applied to electromagnetic problems
—
T. Onuki
............
582
Fmite element modeling of open boundary problems
-/
F. Imhoff,
G. Meunier,
and!.
С
Sabonnadiere
........... 588
The boundary element method combined with an electromagnetic source simulation method for calculating
3D
eddy
current distributions —Xinshan Ma and Ping Wang
................................................... 592
Boundary element method with high order time element for transient eddy current problems
—
Qionghua Zhan and
JiapingChen
..............................,............ .............. 595
335
Unified boundary integral equation and unified boundary element equation
—
Jiansheng Yuan, XiXie, andHanguang
Shoo
........................................................................................... 599
High precision numerical integration methods for
3-D
boundary element analysis
—
Ken Hayami
................. 603
Treatment of singularities in the computation of magnetic fields with periodic boundary conditions by the boundary
element method
—A. Kost
and
J. X. Shen
............................................................ 607
Robustness of the boundary integral equation method for potential problems —Tatsumi Watanabe, YujiKuno, and
Yoshiki Uchikawa
................................................................................ 610
Adaptively meshed boundary integral equation method for nonlinear magnetostatics —MengH. Lean
............. 614
Numerical approach to inverse problem of crack shape recognition based on the electrical potential method
—
Y.
Iwamura and
К
Miya
............................................................................. 618
A methodological analysis of different formulations for solving inverse electromagnetic problems
—
M. Guamieri, A.
Stella, andF. Trevisan
............................................................................. 622
Inversion of eddy-current data and the reconstruction of three-dimensional flaws
—
H. A. Sabbagh,
D. J. Radecki, S.
Barkeshli, B. Shamee, J.
С
Treece, and S. A. Jenkins
................................................... 626
An algorithm and simulation of the inverse problem of a low-frequency current field
—
Yin Liu,
Lian Gong,
Ping Liu,
andKeqian Zhang
................................................................................ 630
Electromagnetic imaging of 2-D inhomogeneous dielectric objects by an improved spectral inverse technique
—
Se-Yun Kim, Hyun-Chul Choi, Jung-WoongRa, and Soo-Young Lee
...................................... 634
Mathematical optimization techniques for the design of permanent magnet synchronous machines based on numerical
field calculation
—
S. Russenschuck
................................................................. 638
Optimization methods used for determining the geometry of shielding electrodes —WalmirM.
Caminhas,
Rodney
R.
Saldanha,
and
Geraldo
Robson
Mateus
.............................................................. 642
Optimum
design of iron-core electromagnets
—
P.
Di Barba,
P.
Navarra,
A. Savini, and
R.
Sikora
................. 646
Treatment of multiply connected regions in two-component electric vector potential formulations
—
R.
Albanese
andG. Rubinacci
................................................................................. 650
3D
finite element calculation of harmonic electromagnetic fields —Jian-She Wang and Nathan Ida
................ 654
On the coupling of the
gener
alized multipole technique with the finite element method
—
J.
Sroka,
H.
Baggenstos,
and
R.
Ballisti ...................................................................................
658
Ад
upwind Galerkin finite element analysis of linear induction motors
—
T. Furukawa,
К
Komiya, and I.
Muta
..... 662
A dynamic programming—finite element procedure for the design of nonlinear magnetic devices —Osama A.
Mohammed and W. Kinzy Jones
.................................................................... 666
Mutual finite-element universal matrices in skin effect problems
—
G. Aiello, S. Alfonzetti, and S. Coco
............ 670
A mixed finite element method for computing three-dimensional time-domain electromagnetic fields in strongly
inhomogeneous media —GerritMur
................................................................ 674
Nodal elements for three-dimensional magnetic field computation in inhomogeneous media
—
Françoise
Rioux-Damidau
.................................................................................. 678
Three-dimensional magnetostatic analysis using Nedelec s elements
—
H. Kanayama, H. Motoyama,
К
Endo, and F.
fSkuchi
......................................................................................... 682
Calculation of vector potentials from scalar potentials for
3D
finite difference solutions
—
W.
Muller
and G.
Szymanski
....................................................................................... 686
A model reduction technique for high order eddy current problems
—
E. Coccorese, S. Coco, and R.
Mortone
....... 690
Computing constrained
triangulation
and Delaunay
triangulation:
A new algorithm —Jian-mingZhou, Ke-ran Shoo,
Ke-ding Zhou, and Qiong-hua Zhan
................................................................. 694
Effects of permeability of magnetic materials on errors of the
Т
-Ω
method
—
T.
Nakata, N.
Takahashi, K. Fujiwara,
andT.Imai
..................................................................................... 698
Solving Maxwell equations in a closed cavity, and the question of Spurious modes
—
A. Bossavit
................. 702
A łł
^etrov-Calerkin type method for
юЫщАх
=
b, where A is symmetric complex
—
H. A. van
der Vorst
and!.
B. M
Melissen
........................................................................................ 706
Aa
accelerated Newton-Raphson method associated with the ICCG algorithm
-
G.
Henneberger,
J. C.
Sabonnadiere, P.
К
Sattler,
and
D.
Shen
............................................................. 709
mace impedance near edges and corners in three-dimensional media
-
E. M.
Deeley
.......................... 712
infinitely many formulations using the magnetic vector potential with the coulomb gauge for
3D
field calculations
-
Toshiya
Morirne
.........,..................................................................... 715
336
An error estimation of a solution using the integral equation method
—
T. Takeda, T. Kuwahara, T. Miyata, and M.
Igarashi
......................................................................................... 719
B-spline finite element method for eddy current field analysis
-
Guangzheng
Ni,
XiaomingXu, and Baidun
Jian
----- 723
Skin effect analysis in axisymmetric stratified conductors —P. Molfino, M.
Repetto,
A. Rossani, and
A. Sestero
...... 727
Effect of gauge fixing term in three dimensional stationary magnetic fields problem —Shigeru Hemmi, Kenji
Fujimoto, and Hiroshi Rikukawa
.................................................................... 731
Rigorous analysis of coupling in dielectric resonators
—
T.
BhattachaĄee
andXuan
Tu
.......................... 735
High accuracy display of magnetic flux density distribution
—
H. Yamashita, T. Johkoh, and E. Nakamae
........... 739
Impedance calculation with Urmel-I using multigrid methods
—
Ursula van Rienen and Thomas
Weiland
.......... 743
Use of a multigrid solver in the MAFIA module
S3
for electro-and magnetostatic problems
—
F. Krawczyk, T.
Weiland,
and B.
Steffen............................................................................ 747
Status and future of the
3D
MAFIA group of codes
-
M.
Dehler,
M.
Dohlus, A. Fischerauer, G. Fischerauer, P.
Hahne,
R.
Шаїх,
F. Krawczyk,
T.
Proppen
Ρ·
Schutt,
Τ.
Weiland, F. Ebeling,
M.
Marx,
S. G.
Wipf,
В.
Steffen,
T.
Barts,
J.
Browman,
R.
К
Cooper,
G.
Rođenz,
and D.
Rusthoi
................................................... 751
б.
SOFTWARE AND HARDWARE METHODOLOGY
Display of distributed
scalare
and vectors —Eihachiro Nakamae
............................................. 755
Trends in computer hardware and software for computer aided design applications
—Paola
Girdinio, Giorgio
MolinaĄ
and
Sandro
Riaella....................................................................... 761
3D
automatic mesh generation for boundary integral method
—
A. Nicolas andL. Nicolas
....................... 767
Automatic
3D
mesh generation with prescribed meshed boundaries
—
P. L. George,
F. Hecht,
and E.
Saltei
........ 771
Tetrahedral elements generation using topological mapping and space dividing for
3-D
magnetic field
FEM
—
Υ·
Tanizume,
Η.
Yamashita, and
E.
Nakamae
........................................................... 775
Problem-oriented adaptive mesh-generation for accurate finite-element calculation
—
T. Tämhuvud, K.
Reichert,
and
J.
Skoczyłaś
...................................................................................... 779
Adaptive mesh refinement for boundary element method and its application to stripline analysis —Dong
-кик
Park,
Chang-Hoi
Ahn,
Soo-YoungLee, and Jung-Wong Ra
................................................... 783
Sensitivity analysis of the nodal position in the adaptive refinement of finite element meshes
—
G.
Henneberger,
G.
Meunier,
J. C.
Sabonnadière, P.
К
Sattler,
and D. Shen
................................................. 787
Eigen
value and
eigen
vector perturbation and adaptive mesh generation in the analysis of waveguides
—
S.
Ratnajeevan H. Hoole
............................................................................. 791
A comparison of adaptive strategies for mesh refinement based on a posteriori local error estimation procedures
-P.
Fernandes,
P. Girdinio, P. Molfino, G.
Molinoti,
and
M.
Repetto.....................................
795
Triangular mesh generation using knowledge base for three-dimensional boundary element method
—
H. Tsuboi, T.
Shimotsukasa, and
К
Kato ........................................................................
799
Interval mathematics for knowledge-based computer aided design in magnetics
—
C. S.
Brett,
C. M.
Saldanha, and D.
A. Lowther
...................................................................................... 803
A data base method for
3D
open boundary field computation
-
Y. S. Sun, G. S. Zhang, and W. Chen
..............
807
A unified database for data exchange in electromagnetic field computation
—
Β. Τ.
Chia,
J. JU
Coulomb,
J. C.
Sabonnadière,
J.
С.
Vérité, and A.
Nicolas
............................................................
811
Optimization of electrotechnical devices using a numerical laboratory -M.
Schäfer-Jotter
and W.
Müller...........
8l5
Implementing a boundary integral method on a transputer system
-
C. F. Bryant, M. H. Roberts, and
С
W. Trowbridge
819
Computations of electromagnetic fields on transputers by the MMP method
—
C.
Hafner........................
823
Distributed processing of
FEM
in a local area network -K PreL·, G. Vrisk, A. Ziegler, O. Biro,
С
Magele,
W.
Renhart,
and
К. Я
Richter..........................................................................
...... 827
Experience in the use of vector processors for
3D
static analysis -N. J.
Diserens
and A. R Mayhook
..............
831
Three-dimensional magnetic field computation on a distributed memory parallel processor
-M. L.
Barton
........
834
Finite element electromagnetic field computation on the sequent symmetry
81
parallel computer
—
S. Ratnajeevan
KHoole
.............................. ..... 837
337
7.
APPLICATIONS
Design
optimization of main, gradient and RF field coils for MR imaging
—
H. Siebold
.......................... 841
Electromagnetic computations for fusion devices
—
Larry R. Turner
.......................................... 847
Analysis of vertical instabilities in air core
tokamaks
in the presence of three-dimensional conducting structures
—
R.
Albanese,
E.
Coccorese,
R,
Mortone,
and G. Rubinacci
............................................. 853
Evaluation of the electromagnetic consequences of a plasma disruption on the magnetic fusion device in-vessel system
-
Y. R. Crutzen, S.
Rigo,
and
E.
Castillo
............................................................. 857
Electromagnetic transients induced in the
tokárnak
first wall by a plasma disruption using Trifou
—
P.
Chamsecourte, A. Bossavit, J.
С
Vérité,
and
Y.
Crutzen
................................................. 861
A computer program system for transient electromagnetic analysis on a tokamak device
— 5.
Nishio and T. Hone
... 865
Experiments and numerical analysis of eddy currents in the first wall of a fusion reactor
—
M. Hashimoto, H.
Hashizume, T. Sugiura, T. Takagi,
К
Miya, andM. SeM
................................................ 869
The treatment of cracks in NDT problems using
FEM
—W.
Renhart
and
С.
A. Magele ..........................
873
Simulation analysis of magnetic sensor for nondestructive testing by boundary element method —M. Enokizono and
S. Nagata
....................................................................................... 877
Application of zoom-in technique in
3D
remote field eddy current effect computation
—
He-yun Lin and Yu-shiSun
881
Energy flow in remote field eddy current nondestructive testing
—
H. Hoshikawa, H. Saitou, J. Koido, andY. Ishibashi
885
Eddy-current probe impedance due to a surface slot in a conductor
—J. R
Bowler,
L. D.
Sabbagh, andH. A. Sabbagh
889
Numerical analysis of eddy current problems involving
Z
gradient coils in superconducting
MRI
magnets
—
T.
Takahashi
....................................................................................... 893
Gradient field coils for MR imaging with high spectral purity
-H. Siébold
.................................... 897
Design of the RF antenna for
MRI
-
M.
Fujita,
M.
Higuchi,
H.
Tsuboi,
К Тапака,
and
T.
Misaki
................. 901
Numerical analysis of antenna by a surface patch modeling
—
M. Analoui, H. Tsuboi, and T.
Nakata............... 905
Accuracy check of
TOSCA
using a sectoral magnet with saturated iron poles
—
M. Kitamura, H. Tomeoku, T.
Kobayashi,
N.
Moki, ondi.
Nakata.................................................................. 909
Three-dimensional magnetic field analysis of superconducting
180°
bending magnets —J.
Nakata,
M.
Nakajima,
T.
Hosokawa, and T. Kitayama
....................................................................... 913
Finite element analysis of transient phenomena in four-wound type of superconducting power transformer
—
I,
Muta, T.
Furukawa, andH.
Koga
................................................................... 917
Calculation of eddy current in the damper of a superconducting generator
—
T. Takuma, S.Akita, T. Kawamoto, and
H. Yasuda
.................................................
ч
..................................... 921
2-D finite element calculation of shell losses in power transformers, taking the
3rd
dimension into account by means
of a correction factor
—
Triomphant
Ngnegueu,
Gérard Meunier,
Jean Claude Sabonnadiere, Michel Mailhot, and
Jean Pierre Arthaud
.......................................................·.......·............... 925
A FEM approach to shielding effectiveness in braided-shield cables
—
M. Feliziani
............................. 929
Analysis of magnetic flux in
stator
end windings of large turbine generators using Fourier expansion
—
Tatsuei
Nomura and Susumu Maeda
....................................................................... 933
End-region design of a convertor-fed high speed synchronous motor -G.K.M. Khan and Lixin Li
............... 937
Transient analysis of cage-induction motors using finite-elements
—
S. Williamson, L. H.
Lim,
and A. C. Smith
...... 941
Numerical calculation of nonlinear sinusoidal electromagnetic field and operational impedances of turbogenerator
-Yun-Qiu Tang and Li-Wei Guo
................................................................... 945
Computation of magnetic field in D.C. brushless linear motors built with NdFeB magnets —Amitava Basak and G.
H.Shirkoohi
........................................................
V
............................ 948
Calculation of the characteristics of a claw pole generator
—
R. Belmans, G. Swaenen, W. Geysen, and R. V.
Steenbergen
..................................................................................... 952
Quantitative study on harmonic flux densities of squirrel-cage induction motors —A. Ishizaki, G. Liang, and K.
Saitoh
.......................................................................................... 956
Rnite element analysis of electromagnets and contact systems in low voltage current limiting circuit breakers
—
A.
Abri,
R.
Nordgrens. Kjellnäs, L. Bånghammar, and
S.
Lindgren
......................................... 960
finite element simulation of an alternator connected to a nonlinear external circuit
— F. Hecht
and A. Marrocco
... 964
338
Finite element analysis of induced currents in axisymmetric multi-conductors connected in parallel to voltage sources
-
T.
Nakata, N.
Takahashi,
К
Fuflwara, H. Niinobe, and
К
Misawa .....................................
968
A simplified approach to calculating current distribution in paralleled power busses
—
F. P. Dawson, M.
Cao,
and P.
KJain
.......................................................................................... 971
Analysis of the magnetic fields in
magnetostrictive
rare earth-iron transducers -F. Claeyssen, D.Boucher,
A. Foggia,
and
E. Sabonnadiere
.............................................................................. 975
Numerical calculation of the dynamic behaviour of electromagnetic actuators
—
G.
Asche
and P.
К
Sattler......... 979
Alternative reciprocity relations for the read flux in magnetic recording theory
— Dirk Quak..................... 983
Finite element simulation of magnetic recording-reproduction process with special attention to AC-biased recording
mechanism
—
Yukio Kagawa and Tadakuni
Murai
.................................................... 987
A new transient analysis method of the electrical circuit containing with skin effect element
—
Katsushige Sato,
Noribumi Shinohara, and TadashiNaito
............................................................. 991
Time-periodic magnetic field analysis with saturation and hysteresis characteristics by harmonic balance finite element
method
—
J.
Lu, S.
Yantada,
and
К.
Bessho
........................................................... 995
Transient analysis of magnetostatic waves in
a ferrite
loaded rectangular waveguide by the spatial network method
-N. Kukutsu,
N.
Yoshida,
ondi.
Fukai
.............................................................. 999
Dynamic error field analysis for compact synchrotron
—
M. Uesaka, M. Takahashi, M. Ida, M. Marushita, S.
Mandai,
and Y. Hoshi
................................................................................... 1003
Three dimensional flow of eddy currents in flux concentration apparatus
—
T. Yoshimoto, K. Bessho, and S. Yamada
1007
Computation of hyperthermia-SAR distributions in
3-D
—S. Ratnajeevan H. Hoole, Vythilingham Sathiaseelan, and
Ampere Tseng
..................................................................................
ЮН
An analysis of axisymmetric modified Helmholtz equation by using boundary element method —Atsuhiko Yoneta,
Masanori Tsuchimoto, and Toshihisa Honma
........................................................ 1015
Field computation techniques in electron optics —E. Munro, X. Zhu,
M. R.
Smith,
S. R.
Desbruslais, andJ. A. Rouse
1019
Optimization of electron lens shape giving minimum spherical aberration coefficient
—
M.
Kato
and
К
Tsuno
..... 1023
The grounding resistance of a circular conducting plate
-
Edward Kai-Ning Yung and Wai-Yip
Tam
..............
Ю27
8.
FORCE EVALUATION
An adaptive finite element method for magnetostatic force computations
—
Yong-Gyu Park, Hyeong-Seok Kim, and
Song-yopHahn
................................................................................. 1031
Evaluation offeree calculating methods
—
M.
Ito,
F.
Tajimo,
and
H.
Kanazawa
................................
Ю35
Numerical calculation of short circuit electromagnetic forces on the transformer winding
—
Yun-Qiu Tang, Jing-Qiu
Qiao, and Zi-Hong Xu
........................................................................... 1039
Computation of transient electromagnetic torque in a turbogenerator under the cases of different sudden short circuits
-Renyuan Tang, Yan
Ни,
ZhanhongLu, Shiyou Yang, and
Miao
Lijie
...................................
1°42
Analysis of attractive force of pull-type single phase
A.C.
electromagnets
—
Y. Kawase and S.
Ito
................
Ю46
Force calculation in axisymmetric induction devices using a hybrid F.E.M.-B.E.M technique
—
L.
Pichón
and A.
Razek
......................................................................................... 1050
Transient force calculations on a permanent magnet powder metallurgical cored machine
—
S. Gair and S. J. Yang
.
Ю54
Comparison of different methods of force calculation
—
W.
Müller ..........................................
Ю58
CONFERENCE AUTHOR INDEX
........... . 1062
REGULAR ISSUE PAPERS
Magnetic projjerties of
a smteredSm(Cott75Feö2oMnftöíCrao2k2
permanent magnet ~R. A. McCurrie and S.
Jackson
.........................
^
.1066
339
Magnetization of a biaxial single-domain ferromagnetic particle
—
D. R. Fredkin and T. R. Koehler
............... 1071
A magnetic force in dry-reed relays
—/.
Kaczrnarek
....................................................... 1074
A heat fluxmeter based on the Nernst effect
—
F.
Gallin
................................................... 1080
Detection of magnetic anomaly signal by applying adjustable weight functions
—
K. Mori
....................... 1083
Simulation of magnetic switching action in high-power systems
—
H. E. Rhinehart, R. A. Dougal, and W. C. Nunnally
1088
A model for coupled magnetic-electric circuits in electric machines with skewed slots
—
F.
Pinou
and A. Razek
___ 1096
Thrust expressions for induction motors with thin conducting secondaries
—
R. P. Bhatia andD. R. Snider
........ 1101
Dynamic model of solenoids under impact excitation
,
including motion and eddy currents
—
B. Lequesne
........ 1107
The least squares boundary residual method in electrostatic and eddy current problems —S. Jovicevic and L.
Stankovic
................................................................................ ...... 1117
Gradiometer head pulse shapes
—
J. C
Maliimon .......................................................
1123
Spectral null codes —K.A.S, Immirik
................................................................... 1130
|
| any_adam_object | 1 |
| author_corporate | COMPUMAG Tokio |
| author_corporate_role | aut |
| author_facet | COMPUMAG Tokio |
| author_sort | COMPUMAG Tokio |
| building | Verbundindex |
| bvnumber | BV004658102 |
| classification_tum | ELT 044f |
| ctrlnum | (OCoLC)631730024 (DE-599)BVBBV004658102 |
| discipline | Elektrotechnik |
| format | Conference Proceeding Book |
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| genre | (DE-588)1071861417 Konferenzschrift 1989 Tokio gnd-content |
| genre_facet | Konferenzschrift 1989 Tokio |
| id | DE-604.BV004658102 |
| illustrated | Illustrated |
| indexdate | 2024-07-09T16:15:41Z |
| institution | BVB |
| institution_GND | (DE-588)3004698-1 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-002861461 |
| oclc_num | 631730024 |
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| owner_facet | DE-91 DE-BY-TUM DE-706 |
| physical | S. 333 - 1135 Ill., graph. Darst. |
| publishDate | 1990 |
| publishDateSearch | 1990 |
| publishDateSort | 1990 |
| publisher | IEEE |
| record_format | marc |
| series2 | IEEE transactions on magnetics |
| spelling | COMPUMAG 7 1989 Tokio Verfasser (DE-588)3004698-1 aut Conference on the Computation of Electromagnetic Fields September 3 - 7, 1989, Tokyo, Japan New York, NY IEEE 1990 S. 333 - 1135 Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier IEEE transactions on magnetics 26,2 Literaturangaben. - Einzelaufnahme eines Zs.-Bandes Elektromagnetisches Feld (DE-588)4014305-3 gnd rswk-swf Berechnung (DE-588)4120997-7 gnd rswk-swf (DE-588)1071861417 Konferenzschrift 1989 Tokio gnd-content Elektromagnetisches Feld (DE-588)4014305-3 s Berechnung (DE-588)4120997-7 s DE-604 Digitalisierung TU Muenchen application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=002861461&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Conference on the Computation of Electromagnetic Fields September 3 - 7, 1989, Tokyo, Japan Elektromagnetisches Feld (DE-588)4014305-3 gnd Berechnung (DE-588)4120997-7 gnd |
| subject_GND | (DE-588)4014305-3 (DE-588)4120997-7 (DE-588)1071861417 |
| title | Conference on the Computation of Electromagnetic Fields September 3 - 7, 1989, Tokyo, Japan |
| title_auth | Conference on the Computation of Electromagnetic Fields September 3 - 7, 1989, Tokyo, Japan |
| title_exact_search | Conference on the Computation of Electromagnetic Fields September 3 - 7, 1989, Tokyo, Japan |
| title_full | Conference on the Computation of Electromagnetic Fields September 3 - 7, 1989, Tokyo, Japan |
| title_fullStr | Conference on the Computation of Electromagnetic Fields September 3 - 7, 1989, Tokyo, Japan |
| title_full_unstemmed | Conference on the Computation of Electromagnetic Fields September 3 - 7, 1989, Tokyo, Japan |
| title_short | Conference on the Computation of Electromagnetic Fields |
| title_sort | conference on the computation of electromagnetic fields september 3 7 1989 tokyo japan |
| title_sub | September 3 - 7, 1989, Tokyo, Japan |
| topic | Elektromagnetisches Feld (DE-588)4014305-3 gnd Berechnung (DE-588)4120997-7 gnd |
| topic_facet | Elektromagnetisches Feld Berechnung Konferenzschrift 1989 Tokio |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=002861461&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT compumagtokio conferenceonthecomputationofelectromagneticfieldsseptember371989tokyojapan |