Aluminum was deposited on aluminum oxide powders using a fluidized bed reactor at atmospheric pressure. The aluminum oxide powders were irregular flakes with acute angles and the average particle size was 26 . The fluidized bed was formed by flowing argon gas at the velocity of 60 cm/sec. The optimal fluidization condition was obtained with the reactor designed to be tapered so that the fluid velocity decreases as the fluidizing gas goes up along the reactor. Aluminum was deposited by flowing TiBA(Triisobutylaluminum) evaporated at through the fluidized bed reactor heated to 350~. The result from the analysis by XRD and EDAX confirmed the coating of aluminum and an SEM micrograph showed the conformality.

가공이나 저장 중 쉽게 산화하는 특성을 갖는 ascorbic acid의 안정성을 확보하기 위해 Zein-DP와 HPMC-FCC를 코팅제로 유동층 코팅을 실시하여 ascorbic acid의 저장기간을 예측하고자 하였다. 단분자층 수분함량은 BET식보다 GAB식이 높은 유의성을 나타내었으며, 등온흡습곡선은 ascorbic acid 분말을 제외한 유동층 코팅된 분말의 경우 sigmoid 형태를 나타내었다. 등온흡습곡선의 적합도는 Halsey, Caur