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Interpretation of Evaporation Behavior of Lead from Molten Copper by Mass-Transfer Model in Fluid Flow
Recently, an increasing tendency to eliminate the lead in alloy design has been found because of its harmfulness in health. The lead is required to be removed from copper scrap for recycling. In order to get fundamental knowledge on the use of cheap copper scrap in the manufacturing of lead-free cop...
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| Published in: | Metals and materials international 2005, 11(3), , pp.233-240 |
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| Main Authors: | , |
| Format: | Article |
| Language: | Korean |
| Subjects: | |
| Online Access: | Get full text |
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| Summary: | Recently, an increasing tendency to eliminate the lead in alloy design has been found because of its harmfulness
in health. The lead is required to be removed from copper scrap for recycling. In order to get fundamental
knowledge on the use of cheap copper scrap in the manufacturing of lead-free copper alloy, the possibility of
removal of lead by gas bubbling from the molten copper alloy has been investigated. The influence of Ar gas
flow rate was investigated based on the reaction kinetics and mass transport model. The removal rate of lead
was increased with an increase of flow rate of Ar and temperature. The overall removal rate of lead from the
molten copper alloy has been calculated from experimental results, and the mass transport of lead in the gas
phase (the absolute molar flux of lead) was calculated from the one-dimensional steady state diffusion model.
The calculated mass flux of lead in the model is found to be quite similar to the overall removal rate of lead
obtained from experimental results. The mass transport of lead vapor in the gas phase seems to be a major
part of the rate-controlling steps under the present experimental condition. KCI Citation Count: 3 |
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| ISSN: | 1598-9623 2005-4149 |