Kesimpulan KESIMPULAN DAN SARAN
Baravkar, A.A., and Kale, R.N. 2011. FTIR Spectroscopy: Principle, Technique and Mathematics. Pharmaceutical Analysis. Vol. 2. No. 1. Pp. 513-518.
Bassler.1986. Penyidikan Spektrometrik Senyawa Organik, edisi keempat. Erlangga: Jakarta.
Binnaz, A. H. Y., and Sener, C. 2012. Roadmap of Biomedical Engineers and
Milestones . Yilidiz Technical University: Turkey.
Badan Pusat Statistik. 2014. Jumlah Sapi yang Dipotong di Rumah Pemotongan Hewan RPH Provinsi Lampung Tahun 2000-2013
. Lampung: Badan Pusat Statistik Provinsi Lampung.
Campbell, F. C. 2010. Structural Composite Materials. American Society for Metals International: United State of America.
Chiu, C.Y, Hsu, H.C., and Tuan, W.H. 2005. Effect of Zirconia Addition on the
Microstructural Evolution of Porous Hydroxyapatite. Ceramics International.
Vol. 33. Pp. 15-718.
Cristiane, A.C.C., Thais, M.P., Borba, J.D., Caetano, J.Z.S., Luiz, G.P., and Andre, F.S. 2006. Physico-Chemical Characterization and Biocompatibility
Evaluation of Hydroxyapatites. Jurnal of Oral Science. Vol. 48. No. 4. Pp. 219-226.
Cullity, B. D. 1978. Element of X-Ray Diffraction. Addison-Wesley Publishing
Company, Incorporated: United State of America. Connolly, J. R. 2005. Introduction to X-ray Diffraction. Earning Per Share EPS
400-200. Demirkol, N., Oktar, F.N., and Kayali, E.S. 2011. Mechanical and Microstructural
Properties of Sheep Hydroxyapatite SHA –Niobium Oxide Composites.
Acta Physica Polonica A. Vol. 121. No. 1. Pp. 274-276.
Demirkol, N., Meydanoglu, O., Gokce, H., Nuzhet, F.T., and Sabri, E.K. 2012. Comparison of Mechanical Properties of Sheep Hydroxyapatitte SHA and
Commercial Synthetic Hydroxyapatitte CSHA-MgO Composites. Engineering Materials
. Vol. 493-494. Pp. 588-539. Fahimah, A.D.W., Wardiani, S., dan Musbah, M.K. 2014. Pengaruh Perbandingan
Masa Ca:P terhadap Sintesis Hidroksiapatit Tulang Sapi dengan Metode Kering. Jurnal Mahasiswa Kimia. Vol. 1. No. 2. Hal. 196-202.
Garakani, B., Javadpour, J., Samim, H.R.B., and Naser, H.Z. 2011. Synthesis and
Characterization of HydroxyapatiteAlumina Composite Nonopowders with Various Alumina Content
. International Conference. University of Tehran: Iran. 2-3 November 2011.
Hench, L.L. 1991. Bioceramics: from Concept to Clinic. Journal of the American
Ceramic Society . Vol. 74. No. 7. Pp. 1487-1510.
Herlina, F.S. 2005. Kajian Abu Sekam Padi untuk Stabilisasi Tanah dalam Sistem
Pondasi Ditanah Ekspansi. http:www.Pu.go.idPublikINDProdukSeminarKolokium2005Kolokium
2005_06.pdf. Diakses Pada Minggu, 05 Oktober 2014 Pukul 14.30 WIB. Hossein, M.F., Mortazavi, V., and Sayed, I.R.E. 2008. Bioactivity Evaluation of
Synthetic Nanocrystalline Hydroxyapatit. Dental Research Journal. Vol. 5. No. 2. Pp. 81-87.
Joschek, S., Nies, B., Krotz, R.A., and Gopferich, A. 2000. Chemical and
Physicochemical Characterization of Porous Hydroxyapatite Ceramics Made of Natural Bone. Biomaterials. Vol. 21. No. 16. Pp. 1645-1658.
Kim, H., Kong, Y.M., Koh, H.Y., and Kim, H.E. 2003. Pressureless Sintering and
Mechanical and Biological Properties of Fluor-hydroxyapatite Composites with Zirconia. Journal of the American Ceramic Society. Vol. 86. No. 12.
Pp. 2019-2026.
Kim, S.R., Lee, J.H., Kim Y.T., Riu, D.H., Jung, S.J., Lee, Y.J., Chung, S.C., and
Kim, Y.H. 2002. Synthesis of Si, Mg Substituted Hydroxyapatites and Their Sintering Behaviors. Biomaterials. Vol. 24. Pp. 1389-1398.