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Electromagnetic forming—A review
Journal of Materials Processing Technology, 2011Abstract Electromagnetic forming is an impulse or high-speed forming technology using pulsed magnetic field to apply Lorentz’ forces to workpieces preferably made of a highly electrically conductive material without mechanical contact and without a working medium.
Psyk, V. +4 more
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Front form of electromagnetism
Physical Review A, 1989Presentation de la forme avancee de l'electromagnetisme avec des donnees aux limites sur l'hyperplan Z-ct =0. On discute 2 sujets: une generalisation des solutions des modes d'onde d'eclaboussement et la definition du vecteur de flux de ...
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The electrodynamics of electromagnetic forming
International Journal of Mechanical Sciences, 1968Abstract A theoretical analysis of the process of tube expanding by electromagnetic forces indicates that time-varying tube inductance, circuit resistance and the irreversible plastic work done on the tube are significant parameters of the performance of the electromagnetic forming machine.
G.K. Lal, M.J. Hillier
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Proceedings of the Institution of Mechanical Engineers, 1965
Some results of an experimental and theoretical investigation of the dynamic forming of thin-walled tubes and flat circular diaphragms by the electromagnetic metal forming process are given. The paper is divided into two parts. Part 1—The magnetic forming process is described and its use as a production technique is discussed.
J. L. Duncan, W. Johnson, K. Baines
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Some results of an experimental and theoretical investigation of the dynamic forming of thin-walled tubes and flat circular diaphragms by the electromagnetic metal forming process are given. The paper is divided into two parts. Part 1—The magnetic forming process is described and its use as a production technique is discussed.
J. L. Duncan, W. Johnson, K. Baines
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Analysis of the electromagnetic forming process
International Journal of Mechanical Sciences, 1978Abstract As a result of the mathematical analysis of the electromagnetic forming process, an approximate solution and a more exact numerical solution of a set of differential equations are presented. Both methods permit the investigation of the influence of a variety of parameters of the discharge unit, the forming coil, and of the workpiece on the ...
J. Jablonski, R. Winkler
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The electromagnetic form factor of the neutrino
Physics Letters, 1964The electromagnetic form factor of the neutrino was considered assuming that the weak interactions are mediated by charged vector bosons with no anomalous magnetic moment. (R.E.U.)
Ph. Meyer, D. Schiff
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Tritium Electromagnetic Form Factors
Physical Review Letters, 1985We have measured the charge and magnetic form factors of tritium for values of the momentum transfer up to 31.3 ${\mathrm{fm}}^{\ensuremath{-}2}$. The data are compared with calculations for the three-body system including meson-exchange-current contributions.
Y. Mizuno +13 more
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IEEE Transactions on Industry Applications, 1972
An analysis of the process of tube expansion by electromagnetic forces has been suggested for an approximate evaluation of pressure, velocity, and radius. Reasonable agreement is obtained with experimental results.
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An analysis of the process of tube expansion by electromagnetic forces has been suggested for an approximate evaluation of pressure, velocity, and radius. Reasonable agreement is obtained with experimental results.
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Electromagnetic Form Factor of the Neutrino
Physical Review, 1964Bernstein and Lee and, independently, Meyer and Schiff have recently published calculations of the neutrino electromagnetic form factor, obtaining results differing by a finite constant term. This difference can be traced back to how the W-meson contribution is regularized: The Bernstein-Lee calculation is gauge-invariant at every step, while Meyer and
Sidney A. Bludman, Wen-Kwei Cheng
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Electromagnetics and differential forms
Proceedings of the IEEE, 1981Differential forms of various degrees go hand in hand with multiple integrals. They obviously constitute an essential tool in expressing the laws of physics. Some of their structures, however (exterior algebra, exterior differential operators, and others), are not widely known or used.
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