[1] B. B. Nissan, C. Chai & L. Evans, “Crystallographic and spectroscopic characterization and morphology of biogenic and synthetic apatites”, Encyclopedia Handbook of Biomaterials and Bioengineering, Part B applications, Marcel Dekker Inc, Vol. 1, pp. 192, 1995.
[2] م. م. عباسیان، "صنعت لعاب سازی و رنگهای آن" ، انتشارات گوتنبرگ،49-27، 1379.
[3] W. L. Suchanek, K. Byrappa, P. Shuk, R. E. Riman, K. S. TenHuisen & V. F. Janas, “Mechanical-hydrothermal synthesis of calcium phosphate powders with coupled magnesium and carbonate substitution”, J. Solid State Chem, Vol. 177, pp. 793–799, 2004.
[4] S. Joschek, B. Nies, R. Krotz & A. Gopferich, “Chemical and physicochemical characterization of porous hydroxyaptite ceramics made by natural bone”, Biomaterials, Vol. 21, pp. 1645–1658, 2000.
[5] M. Jami, “Geology, Geochemistry and Evolution of the Esfordi Phosphate - Iron Deposit, Bafq Area, Central Iran”, Ph.D Thesis The university of new South Wales, August, 2005.
[6] M. Veiderma, K. Tonsuaadu, R. Knubovets & M. Peld, “Impact of anionic substitutions on apatite structure and properties”, Department of Chemical Engineering of Tallinn University of Technology of Estonia, Journal of Organometallic Chemistry, Vol. 690, pp. 2638–2643, 2005.
[7] نشریه دانشکده فنی تهران، جلد ۳۷، شماره ۴، صفحه ۴۲۱ تا ۴۲۹، اسفند ماه ۱۳۸۲.
[8] م. نوع پرست، م. کلاهدوزان و ر. اصغری، "بررسی کاهش آهن در سیلیس به روش اسیدشوئی و مغناطیسی"، گروه مهندسی معدن دانشکده فنی دانشگاه تهران، پایان نامه کارشناسی ارشد، آذرماه 1381.
[9] E. Landi, A. Tampieri, G. Celotti, L. Vichi & M. Sandri, “Influence of synthesis and sintering parameters on the characteristics of carbonate apatite”, Institute of Science and Technology for Ceramics Italy, Biomaterials, Vol. 25, pp. 1763–1770, 2004.
[10] Destainville, E. Champion, D. Bernache-Assollant & E. Laborde, “Synthesis, characterization and thermal behavior of apatitic tricalcium phosphate, Science des Procédés Céramiques et de Traitements de Surface, Université de Limoges France”, Materials Chemistry and Physics, Vol. 80, pp. 269–277, 2003.
[11] P. Nutmana & C. R. L. Friend, “Petrography and geochemistry of apatites in banded iron formation, Akilia”, W. Greenland: Consequences for oldest life evidence.
[12] Precambrian Research Vol. 147, pp. 100–106, 2006.
[13] F. Yao, J. P LeGeros & R. Z. LeGeros, “Simultaneous incorporation of carbonate and fluoride in synthetic apatites: Effect on crystallographic and physico-chemical properties”, Acta Biomaterialia, Vol. 5, pp. 2169–2177, 2009.
[14] J. Barbarand, A. Carter, I. Wood & T. Hurford, “Compositional and structural control of fission-track annealing in apatite”, Chemical Geology, Vol. 198, pp. 107– 137, 2003.
[15] K. Tonsuaadu, M. Peld & V. Bender, “Thermal Analysis of Apatite Structure”, Tallinn Technical University of Estonia”, Journal of Thermal Analysis and Calorimetry, Vol. 72, pp. 363-371, 2003.
[16] S. Raynaud, E. Champion, J. P. Lafon & D. Bernache-Assollant, “Calcium phosphate apatites with variable Ca/P atomic ratio III, Mechanical properties and degradation in solution of hot pressed ceramics”, Biomaterials, Vol. 23, pp. 1081–1089, 2002.
[17] J. P. Lafon, E. Champion, D. Bernache-Assollant, R. Gibert & A. M. Danna, “Thermal Decomposition of Carbonated Calcium Phosphate Apaptite”, Journal of Thermal Analysis and Calorimetry, Vol. 72, pp. 1127-1134, 2003.
[18] V. Petkova & V. Yaneva, “Thermal investigations on phase transformations of Syrian phosphorite: Part I”, J Therm Anal Calorim, Vol. 100, pp. 51–56, 2010.
[19] "مجموعه استاندارد صنعت کاشی ایران"، 1376.
[20] Y. Eftekhari, P. Alizadeh & L. Rezazadeh, “Synthesis of glass-ceramic glazes in the ZnO–Al2O3–SiO2–ZrO2 system”, Journal of the European Ceramic Society, Vol. 27, pp. 2311–2315, 2007.
[21] L. Froberg, T. Kronberg, L. Hupa & M. Hupa, “Influence of firing parameters on phase composition of raw glazes”, Journal of the European Ceramic Society, pp. Vol. 27, 1671–1675, 2007.