【摘 要】
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Aluminum can be deposited on steel or metallic substrates by controlled thermal decomposition of aluminum organic compounds at temperatures between 250 - 370℃ under atmospheric pressure.The process is
【机 构】
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Andritz Metals,Vienna,Austria InnCoa GmbH,Neustad
论文部分内容阅读
Aluminum can be deposited on steel or metallic substrates by controlled thermal decomposition of aluminum organic compounds at temperatures between 250 - 370℃ under atmospheric pressure.The process is based on the Chemical Vapor Deposition (CVD) technique with higher deposition rates than typically achieved by conventional galvanic deposition of aluminum from aprotic solvents.The aluminization by means of Metal Organic Chemical Vapor Deposition ( MOCVD) procedures does not involve significant environmental hazard.The deposition does not involve any persistent organic or toxic chemicals.In this work we demonstrated that the MOCVD technique is suitable for coil coating lines as well as for other coating applications like coating of inner surfaces.The resulting Al-layers are closed and show a very even thickness distribution.Such layers provide a good corrosion resistance in neutral media containing chlorides.The determined corrosion rates of the Al-MOCVD coatings in these electrolytes are significantly lower compared to the widely used Zn-galvanic layers.To further improve the overall corrosion resistance,the Al-MOCVD coatings could be additional passivated either applying Cr (VI) - free or Cr-free scales.Overall corrosion resistance of the Al-MOCVD coatings can be even further enhanced by involving other elements like Zn in the generation of the coating.In this way corrosion attack at the locations where defects are present in the Al-coating can be eliminated.Such defects may come from cutting or even stone-chipping.To emphasize,as already indicated earlier,for producing such Al-Zn-coatings the temperature of deposition by the described technique is much lower compared to the hot dip deposition of the Al-Zn-Iayers,such as Galfan and Galvalume.
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