dorsal/arxiv
View SchemaDo we need to recourse to Ampere-Neumann electrodynamics to explain wire fragmentation in the solid state?
| Authors | A. Lukyanov, S. Molokov |
|---|---|
| Categories | |
| ArXiv ID | physics/0012029 |
| URL | https://arxiv.org/abs/physics/0012029 |
Abstract
Exploding wires are widely used in many experimental setups and pulsed power systems. However, many aspects of the process of wire fragmentation still remain unclear. If the current density is not too high, the wire may break up in the solid state. In a series of papers, see references therein, Graneau argued that neither mechanical vibrations induced by the electromagnetic pinch force nor thermal expansion could have been responsible for the wire disintegration because they were too weak. To explain the phenomenon he appealed to the obsolete Ampere force law as opposed to the conventional Biot-Savart force law. Graneau argued that the Ampere force law would lead to a longitudinal tension in the wire, although his calculations may have been in error on this point. Therefore, Graneau's explanations induced a controversy in electrodynamics with a number of authors arguing pro and con. In this investigation, we use a simplified magneto-thermo-elastic model to study flexural vibrations induced by high pulsed currents in wires with clumped ends on account of their role in the disintegration process. It is shown that the induced flexural vibrations are strong enough to lead to the breaking of the wire in a wide range of parameters.
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"abstract": "Exploding wires are widely used in many experimental setups and pulsed power\nsystems. However, many aspects of the process of wire fragmentation still\nremain unclear. If the current density is not too high, the wire may break up\nin the solid state.\n In a series of papers, see references therein, Graneau argued that neither\nmechanical vibrations induced by the electromagnetic pinch force nor thermal\nexpansion could have been responsible for the wire disintegration because they\nwere too weak. To explain the phenomenon he appealed to the obsolete Ampere\nforce law as opposed to the conventional Biot-Savart force law. Graneau argued\nthat the Ampere force law would lead to a longitudinal tension in the wire,\nalthough his calculations may have been in error on this point. Therefore,\nGraneau\u0027s explanations induced a controversy in electrodynamics with a number\nof authors arguing pro and con.\n In this investigation, we use a simplified magneto-thermo-elastic model to\nstudy flexural vibrations induced by high pulsed currents in wires with clumped\nends on account of their role in the disintegration process. It is shown that\nthe induced flexural vibrations are strong enough to lead to the breaking of\nthe wire in a wide range of parameters.",
"arxiv_id": "physics/0012029",
"authors": [
"A. Lukyanov",
"S. Molokov"
],
"categories": [
"physics.class-ph",
"physics.gen-ph"
],
"title": "Do we need to recourse to Ampere-Neumann electrodynamics to explain wire fragmentation in the solid state?",
"url": "https://arxiv.org/abs/physics/0012029"
},
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