Details

Title

Boundary-integral model of permanent magnet of a tube segment as shape

Journal title

Archives of Electrical Engineering

Yearbook

2011

Volume

vol. 60

Numer

No 4 December

Authors

Keywords

permanent magnets ; boundary integral method ; elliptic integrals

Divisions of PAS

Nauki Techniczne

Coverage

413-432

Publisher

Polish Academy of Sciences

Date

2011

Type

Artykuły / Articles

Identifier

eISSN: 2300-2506 ; ISSN: 1427-4221

References

Byrd P. (1971), Handbook of elliptic integrals for engineers and students, doi.org/10.1007/978-3-642-65138-0 ; Craik D. (null), Magnetism, principles and applications, doi.org/10.1063/1.2807507 ; Pawluk K. (1990), Scalar boundary-integral model of the 3-dimentional magnetic field, Proceedings of Electrotechnical Institute, 158, 5. ; Pawluk K. (1993), 3-D magnetic field of coils with an open magnetic core in boundary-integral approach, in Boundary element technology VIII, 147. ; Pawluk K. (2006), Permanent magnet within a ferromagnetic structure - boundary-integral model and its experimental verification, Archives of Electrical Engineering, 3-4, 273. ; Pawluk K. (2001), Algorithms based on integrals of Lipschitz-Hankel type for modelling permanent magnet fields, 567. ; Pawluk K. (2003), Integrals of Lipschitz-Hankel type in analysis of magneto-static fields, Journal of Technical Physics, 44, 2, 133. ; Pawluk K. (2008), Permanent magnet field calculated by the boundary-integral approach, Archives of Electrical Engineering, 3-4, 257. ; Pawluk K. (2009), Exact solutions of integrals to be used in computing the magnetic field by boundary-integral technique, Proceedings of Electrotechnical Institute, 241, 9. ; Press W. (1968), The art of scientific computing. ; Ryshik I. (1957), Tables of series, products and integrals. ; Tozoni O. (1975), Method of secondary sources in electric technology.

DOI

10.2478/v10171-011-0035-2

×