Characterisation of oxidised aluminium powder: Validation of a new anodic oxidation bench
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- 作者:Nicolas Gascoin ; Philippe Gillard ; Guillaume Baudry
- 关键词:Aluminium micrometric powder ; Anodic oxidation ; Hazard mitigation ; Explosion safety ; Design of experiments
- 刊名:Journal of Hazardous Materials
- 出版年:2009
- 出版时间:15 November 2009
- 年:2009
- 卷:171
- 期:1-3
- 页码:348-357
- 全文大小:1088 K
文摘
Aluminium powder is of major interest in many applications but it presents a risk due to its high explosibility, particularly when dispersed in air. The safety is directly linked to the particles oxidation because the Minimum Ignition Energy (MIE), which is required to initiate an Al dust explosion, increases with the oxide layer thickness. This study provides a controlled method to furnish reproducible homogeneous set of powder for such safety studies. Thanks to a new experimental bench, the influence on the oxidation rate of seven treatment parameters is investigated (current density, time of treatment, acid concentration, mass of powder, particles size, stirring, neutralisation by ammonia solution). The oxide content is plotted versus the current density, the time and the acid concentration to provide reference curves for further elaboration of oxidised powder. The particles size of sieved powder is measured before and after treatment by different methods (optical and Scanning Electron Microscopes, laser measurement). A high refinement of the powder in terms of size distribution is achieved thanks to the employed sieving. The present bench and the elaborated procedure are of great interest to provide well-calibrated oxidised powder directly available for safety studies. The time must be adjusted, depending on the wanted oxide content – from 2 to 18 wt. % – and the other treatment parameters must be kept constant: acid concentration (5 wt. % ), current density (1 A dm−2), treated powder (20 g). In these conditions, the ratio of the oxide layer thickness on the particles diameter is found to be constant for a given oxide content whatever the particles size.