SYNTHESIS OF ULTRAFINE HYDROXYAPATITE IN A Ca(OH)2-H3PO4-H2O REACTION SYSTEM USING ULTRASOUND IRRADIATION

H. Minamisawa, T. Umegaki, Y. Kojima
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引用次数: 1

Abstract

This paper reports the application of ultrasound irradiation in the synthesis of ultrafine hydroxyapatite (HAp) with a high specific surface area of 300 m/g. We examined the effects of initial temperature, horn diameter and suspension concentration on the powder properties, especially specific surface area, of ultrafine HAp. Amorphous calcium phosphate (ACP), which is a precursor of HAp, was formed in the early stage of the reaction, and then rapidly crystallized to form HAp. In the case of an initial temperature at 30oC, the largest specific surface areas of 250 m/g and 300 m/g were obtained using horn diameters of 19 mm and 6 mm, respectively. Based on particle size distribution measurements, the mode and average diameters of the HAp powders were found to be 5.0 and 6.3 nm, respectively. These values were well-agreed with the average diameter calculated from the specific surface area. (Received Sep 12, 2019; Accepted Oct 25, 2019)
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超声辐照下Ca(OH)2-H3PO4-H2O反应体系合成超细羟基磷灰石
本文报道了超声辐照在合成具有300 m/g高比表面积的超细羟基磷灰石(HAp)中的应用。我们考察了初始温度、角直径和悬浮液浓度对超细HAp粉末性能尤其是比表面积的影响。无定形磷酸钙(ACP)是HAp的前体,在反应初期形成,随后迅速结晶形成HAp。在初始温度为30℃的情况下,分别使用直径为19 mm和6 mm的喇叭获得的最大比表面积为250 m/g和300 m/g。根据粒径分布测量,HAp粉末的模态直径为5.0 nm,平均直径为6.3 nm。这些数值与由比表面积计算的平均直径一致。(2019年9月12日收稿;接受2019年10月25日)
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