Journal
CHEMICAL GEOLOGY
Volume 451, Issue -, Pages 183-188Publisher
ELSEVIER SCIENCE BV
DOI: 10.1016/j.chemgeo.2017.01.014
Keywords
Heating; Hydroxylapatite; Fluorapatite; Bioapatite; Dissolution
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Funding
- National Program on Key Basic Research Project [2015CB150504]
- Natural Science Foundation of Jiangsu Province of China [BK20150683]
- Fundamental Research Funds for the Central Universities [KYTZ201404]
- Double Innovation Talent Program of Jiangsu Province
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Solubility of apatite is highly addressed in mineralogical and material studies. Heating is one of the major processes in apatite industry. In this study, synthesized hydroxylapatite (HAp), geological fluorapatite (FAp), and bone bioapatite (BAp) were heated at various temperatures (100-900 degrees C) for analyses. The mineralogy and solubility of the three apatites were analyzed by XRD, ATR-IR, and ICP. Release of Ca and Pin water for BAp reaches the maximum when heated at 200 degrees C, i.e., 0.215 mmol/L for Ca and 0.106 mmol/L for P. The value is higher than the maximum values (heated at 900 degrees C) of the solubility for HAp and FAp. The heating temperature at 600 degrees C is a re-crystallization point for all the three types of apatites. Especially, the crystallinity of BAp is significantly elevated at >600 degrees C Phase of geological FAp is relatively stable during heating up to 900 degrees C. Phase ofS-TCP is present when heating HAp at 800 to 900 degrees C. In addition, BAp is transformed to the resemblance of HAp. However, no beta-TCP was detected for BAp during heating between 800 and 900 degrees C, which is probably due to its Ca-deficiency. This study elucidates the correlation of phase changes of BAp and its solubility during heating, which sheds the light on its application as materials and fertilizer. (C) 2017 Elsevier B.V. All rights reserved.
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