Sintesis Dan Karakterisasi Magnet Berbasis Barium Heksaferit- Alumina
72
DAFTAR PUSTAKA
Akmal Johan. 2010. Analisis Bahan Magnet Nanokristalin Barium Heksaferit
(BaO·6Fe2O3) dengan Menggunakan High-Energy Milling. Jurnal
Penelitian Sains. Volume 14 Nomor 1(B): 14105.
Alexandre, R., Buenoa, Maria, L., Gregorib, Maria C.S. 2008. No´ Bregac.
Journal of Magnetism and Magnetic Materials. 320: 864-870.
Awan Maghfirah. 2007. Pembuatan Keramik Paduan Zirkonia (ZrO2) dengan
Alumina (Al2O3) dan Karakterisasinya [Tesis]. Medan: Universitas
Sumatera Utara, Program Pascasarjana.
Ayu, Y.S., Perdamean, S., dan Muljadi. 2012. Pembuatan dan Karakterisasi
Magnet Bonded BaO.6Fe2O3 dengan Variasi Ukuran Partikel. Jurnal
Sains Materi Indonesia Akreditasi LIPI Nomor : 395/D/2012. Vol. 13, No.
3: 168 – 172.
Beitollahi, A., Hosseini, H., and Sapoorlaki, H. 2010. Synthesis and
Characterization of Al2O3-ZrO2 Nanocomposite Powder by Sucrose
Process. Journal of Material Science: Material in Electronic. Vol. 21, pp.
130-136.
Bin Yu, Lu Qi, Hui Sun, Jian-Zhong Ye. 2007. J Mater Sci 42: 3783-3788.
Buchanan, R.C. 1986. Ceramic Materials for Electronics. Marcel Dekker. New
York and Basel.
Burkin, A.R. (ed.), 1987. Production of Aluminum and Alumina. John Wiley, New York.
Darminto, M. Zainuri, El Indahnia Kamariyah, 2011, Sintesis Serbuk Barium
Heksaferit Dengan Metode Kopresipitasi. Seminar Nasional Pascasarjana
XI- ITS, Surabaya, 27 Juli 2011, Jurusan Fisika FMIPA.
Dianita, W., Suminar, P. 2014. Identifikasi Fasa pada Sintesis Al2O3 dengan
Metode Logam-Terlarut Asam. Jurnal Sains dan Seni Pomits. Vol. 3, No.2:
2337-3520 (2301-928X Print).
Edi Istiyono. 2009. Analisis Sifat Magnetik Bahan yang Mengalami Proses
Annealing Dan Quenching. Prosiding Seminar Nasional Penelitian,
Pendidikan, dan Penerapan MIPA Fakultas MIPA; Yogyakarta, 16 Mei
2009. Yogyakarta; Universitas Negeri Yogyakarta. hlm F311-F319.
73
German, R. M. 1991. Fundamental of Sintering. Engineered Materials Handbook.
Vol 4, Ceramic-Glasses, L. F Heather, W.D Nikki,ed. The Materials
Information Society.
Ghababazade, R., Mirhabibi, A., Pourasad, J., Brown, A., Brydson, A., Amiri,
M.J. 2007. Study of Phase Composition and Stability of Explosive
Synthesis Nanosized Al2O3. Journal Surface Science. Vol. 601, pp. 2864.
Halliday & Resnick. 1989. Fisika. Jakarta: Erlangga.
Hirschhorn J.S. 1969. Advanced Experimental Techniques in Powder Metalurgy.
Plenum Press, New York
Hirschhorn J.S. and Kempton H.R. 1970. Advanced Experimental Techniques in
Powder Metalurgy. Volume 5. Plenum Press, New York
Ibrahim, D.M and Abu-Ayana, Y.M. 2009. Preparation of Nano Alumina via
Resin Synthesis. Journal of Materials Chemistry and Physics: Elsevier.
Volume 113, Issues 2–3: 579–586
Idayanti, N., dan Dedi. 2002. Pembuatan Magnet Permanen Ferit untuk
FlowMeter. Jurnal Fisika HFI. Vol A5 No.0528. Tangerang: Himpunan
Fisika Indonesia.
Ismunandar. 2004. Padatan Oksida Logam : Struktur, Sintesis dan Sifat-sifatnya.
Bandung: Departemen Kimia FMIPA ITB
James S.R. 1988. Introduction to the principles of ceramic processing. John Willey &
Sons,Inc. Singapore.
Kerista Sebayang, Achmad Maulana Soehada, Anggito P Tetuko, Perdamean
Sebayang. 2013. Microstructure, Magnetic Properties and Microwave
Absorption of BaFe(12-x)MnxO19 Soft Magnet. Presented at International
Seminar on Magnetic Materials; Batam, 2013.
Knozinger, H., Ratnasamy, and Catal, P. 1978. Pulse Electric Current Sintering
and Strength of Sintered Alumina Using γ-Alumina Powders Prepared by
the Sol-gel Method. Journal of Science Enggenering. Vol. 17, pp. 31.
Kojima, H. 1982. Fundamental Properties of Hexagonal Ferrites with
Magnetoplumbite Structure. vol. 3; ed. E. P. Wohlfarth, North Holland
Publishing Company, Amsterdam.
Liu, Ye., Ma, D., Han, X., Bao, X., Frandsen, W., Wang, D., Su, D. 2008.
Hydrithermal synthesis of microscale boehmite and gamma nanoleaves
alumina. Materials Letters. 62: 1297 – 1301.
Masno, G., Muljadi, dan Perdamean, S. 2006. Pembuatan Magnet Permanen
Isotropik Berbasis Nd-Fe-B dan Karakterisasinya. Teknologi Indonesia.
Volume 29 No. 1: 27-30.
74
Mathews, F.L. & Rawlings, R.D. 1994. Composite Materials: Engineering and
science. Chapman & Hall Publisher, London.
Mirjalili, F., Hasmaliza, M., Luqman, C. 2011. Preparation of Nano Scale αAl2O3 Powder by The Sol Gel Method. Ceramic Silikaty. Vol. 55, No. 4,
pp. 378-383.
Mokhtar, N., Abdullah, M. HJ, & Ahmad, S. HJ. 2012. Structural and Magnetic
Properties of Type-M Barium Ferrite–Thermoplastic Natural Rubber
Nanocomposites. Sains Malaysiana 41(9)(2012): 1125–1131
Moulson, A.J., and Herbert, J.M. (second ed), 2003. Electroceramics: Materials,
Properties and Applications. John Wiley & Sons Ltd, England.
Mujiman. 2004. Sintesis Dan Karekterisasi Keramik Alumina (Al2O3) Terhadap Aditif
Titania (TiO2) Heksaferit (Studi kasus di Lembaga Ilmu penelitian Indonesia,
Jakarta). [Skripsi]. Lampung: Universitas Lampung Bandar Lampung,
Program Sarjana S-1.
Muljadi. 2010. Pembuatan Nano Partikel Ba-Hexa Ferrite (BaO.6Fe2O3) Magnet
Permanent dan Karakterisasinya. Laporan Akhir Program Insentif Peneliti
dan Perekayasa LIPI. Pusat Peneltian Fisika (P2F) LIPI
Paglia, G., Buckley, C.E., Rohl, A.L., Hart, R.D., Winter, K. & Studer, A.J. 2004.
Boehmite Derived γ-Alumina System. 1. Structural Evolution with
Temperature, with the Identification and Structural Determination of a
New Transition Phase, γ’-Alumina. Chemistry of Materials, 16 (2) : 220.
Parida, K.M., Pradhan, A.C., Das, & Sahu, N. 2009. Synthesis and
characterization of nano-sized porous gamma-alumina by control
precipitation method. Mater. Chem. Phys. 113: 244–248.
Perdamean, S., Muljadi, Wisnu, A.A. 2011. Kajian Struktur Mikro terhadap Sifat
Magnetik pada Magnet Permanen BaO.6Fe2O3. Telaah Jurnal Ilmu
Pengetahuan dan Teknologi. Vol. 29 (2): 55-62.
Prihatin, Sujito. 2005. Pembuatan Serbuk Barium Ferit (BaO.6Fe203 ) Dengan
Bahan Oasar Pasir Besi Pantai Bayuran Kabupaten Jepara Jawa Tengah
dan Karakterisasi Sifat Magnetik. [Skripsi]. Semarang: Universitas
Semarang, Program Sarjana S-1.
Priyono., Yuli, A., Happy, T. dan Ainie Khuriati, R.S. 2004. Efek Aditiv Al2O3
Terhadap Struktur dan Sifat Fisis Magnet Permanen BaO.6(Fe2O3). Jurnal
Berkala Fisika. Vol. 7 No. 2: 69-73.
R. Nowosielski, R. Babilas, G. Dercz, L. Pajak, J. Wrona. 2007. Structure and
Properties of Barium Ferrite Powders Prepared by Milling and Annealing.
Archives of Materials Science and Engineering, Vol 28, Issue 12, p 735742.
75
Ristic, M. M. 1977. Sintering New Developments. Material Science Monographs. Vol
4, Proceeding of 4th International Round Table Conference on Sintering,
Dubrovnik, Yugoslavia, September 5 – 10, 1979, Elsevier Scientif Publishing
Company, Amsterdam-Oxford, New York.
Robert, C.P. 2012. Hexagonal Ferrites: A Review of The Synthesis, Properties
and Applications of Hexaferrite Ceramics. Progress in Materials Science.
57: 1191–1334.
Smith and Wijn. 1959. Physical Properties of Ferrimagnetic Oxides in Relation to
Their Technical Application. Philips Researc, Netherland.
Snoek, J.L. 1947. New Development in Ferromagnetics Material. New York
Sudarsono. 2012. Kajian Sifat Mekanik Material Komposit Propeller Kincir
Angin Standard Naca 4415 Modifikasi. Prosiding Seminar Nasional
Aplikasi Sains & Teknologi (SNAST) Periode II Yogyakarta.
Takanori Tsutaoka and Nobuyoshi Koga. 2013. Magnetic Phase Transitions in
Substituted Barium Ferrites BaFe12-x(Ti0.5Co0.5)xO19 (x=0–5). Journal of
Magnetism and Magnetic Materials. 325:36–41.
Tang, X. 2005. Influence of Synthesis Variables on The Phase Component and
Magnetic Properties of M-Baferrite Powders Prepared Via Sugar-Nitrates
Process. Journal of Material Science. ISSN 0022-2461.
Tsunenori, W., Yoshihisa, M., Takeo, M., Hiroshi, D., Hiroyoshi, K., Saburo, H.,
Kenji, W., Masashi, I. 2011. Synthesis of γ-Ga2O3–Al2O3 solid solutions by
spray pyrolysis method. Ceramics International. Volume 37, Issue 8: 31833192
Utami, I., Sunardi, Suraida. 2013. Sintesis Dan Karakterisasi Gamma Alumina (γAl2o3) Dari Kaolin Asal Tatakan, Kalimantan Selatan Berdasarkan
Variasi Temperatur Kalsinasi. Jurnal Ilmiah Kimia Molekul. Volume 8
No.1: 31-42.
Van Vlack, L.H. 1989. Ilmu dan Teknologi Bahan-bahan Logam dan Bukan Logam,
Edisi kelima. Erlangga, Jakarta.
Wang, Y.H., J. Wang, M.Q. Shen, & W.L. Wang. 2009. Synthesis and Properties
of Thermostable γ-Alumina Prepared by Hydrolysis of Phosphide
Aluminum. Journal of Alloys and Compounds. 467(1-2): 405-412.
Xu, Z., Xiao, F.S., Purnell, S.K., Alexeev, O., Kawi, S., Deutsch, S.E., and Gates,
B.C. 1994. Sol-gel Synthesis of Transparent Alumina Gel and Pure
Gamma Alumina by Urea Hydrolysis of Alumina Nitrate. Journal Matterial
Science. Vol. 10, pp. 485-490.
76
Yamauchi, T., Tsukahara,Y., Sakata, T., Mori, H., Chikata, T., Katih, S., Wada,
Y. 2009. Barium Ferrite Powder Preparet By Microwave-Indu Ced
Hydrothermal Reaction And Madnet Ic Property. Juornal Of Magnetism
and Magnetic Material: Elsevier.
Yong An, Sung., In Bo Shim., and Chui Sung Kim. 2002. Mossbauer and
Magnetic Properties of Co-Ti Substituted Barium Hexaferrite
Nanoparticles. Journal of Applied Physics. Vol. 91, No. 10.
Young Joon An, Ken Nishida, Takashi Yamamoto, Shunkichi Ueda and Takeshi
Deguchi, 2008, Characteristic Evaluations of Microwave Absorbers Using
Dielectric and Magnetic Composite Materials. Journal of Ceramic
Processing Research. Vol. 9, 430-436.
Yue Liu, Hong-bo Zhang, Ji-dong Duan, Ying Liu, Yu Gao, Li-li Wang, and
Yang Li. 2011. Magnetic Properties of Mn/Co/Sn Substituted Barium
Heksaferits Synthesized by an Improved Co-precipitation Method.
Advances Materials Research Vols. 239-242 pp 3052-3055, Switzerland.
Yue Liu, Michael G.B., Drew, Ying Liu. 2011. Preparation and Magnetik
Properties of Barium Ferrites Substituted with Manganese, Cobalt, and
Tin. Journal of Magnetism and Magnetic Materials, 323, 945–953.
DAFTAR PUSTAKA
Akmal Johan. 2010. Analisis Bahan Magnet Nanokristalin Barium Heksaferit
(BaO·6Fe2O3) dengan Menggunakan High-Energy Milling. Jurnal
Penelitian Sains. Volume 14 Nomor 1(B): 14105.
Alexandre, R., Buenoa, Maria, L., Gregorib, Maria C.S. 2008. No´ Bregac.
Journal of Magnetism and Magnetic Materials. 320: 864-870.
Awan Maghfirah. 2007. Pembuatan Keramik Paduan Zirkonia (ZrO2) dengan
Alumina (Al2O3) dan Karakterisasinya [Tesis]. Medan: Universitas
Sumatera Utara, Program Pascasarjana.
Ayu, Y.S., Perdamean, S., dan Muljadi. 2012. Pembuatan dan Karakterisasi
Magnet Bonded BaO.6Fe2O3 dengan Variasi Ukuran Partikel. Jurnal
Sains Materi Indonesia Akreditasi LIPI Nomor : 395/D/2012. Vol. 13, No.
3: 168 – 172.
Beitollahi, A., Hosseini, H., and Sapoorlaki, H. 2010. Synthesis and
Characterization of Al2O3-ZrO2 Nanocomposite Powder by Sucrose
Process. Journal of Material Science: Material in Electronic. Vol. 21, pp.
130-136.
Bin Yu, Lu Qi, Hui Sun, Jian-Zhong Ye. 2007. J Mater Sci 42: 3783-3788.
Buchanan, R.C. 1986. Ceramic Materials for Electronics. Marcel Dekker. New
York and Basel.
Burkin, A.R. (ed.), 1987. Production of Aluminum and Alumina. John Wiley, New York.
Darminto, M. Zainuri, El Indahnia Kamariyah, 2011, Sintesis Serbuk Barium
Heksaferit Dengan Metode Kopresipitasi. Seminar Nasional Pascasarjana
XI- ITS, Surabaya, 27 Juli 2011, Jurusan Fisika FMIPA.
Dianita, W., Suminar, P. 2014. Identifikasi Fasa pada Sintesis Al2O3 dengan
Metode Logam-Terlarut Asam. Jurnal Sains dan Seni Pomits. Vol. 3, No.2:
2337-3520 (2301-928X Print).
Edi Istiyono. 2009. Analisis Sifat Magnetik Bahan yang Mengalami Proses
Annealing Dan Quenching. Prosiding Seminar Nasional Penelitian,
Pendidikan, dan Penerapan MIPA Fakultas MIPA; Yogyakarta, 16 Mei
2009. Yogyakarta; Universitas Negeri Yogyakarta. hlm F311-F319.
73
German, R. M. 1991. Fundamental of Sintering. Engineered Materials Handbook.
Vol 4, Ceramic-Glasses, L. F Heather, W.D Nikki,ed. The Materials
Information Society.
Ghababazade, R., Mirhabibi, A., Pourasad, J., Brown, A., Brydson, A., Amiri,
M.J. 2007. Study of Phase Composition and Stability of Explosive
Synthesis Nanosized Al2O3. Journal Surface Science. Vol. 601, pp. 2864.
Halliday & Resnick. 1989. Fisika. Jakarta: Erlangga.
Hirschhorn J.S. 1969. Advanced Experimental Techniques in Powder Metalurgy.
Plenum Press, New York
Hirschhorn J.S. and Kempton H.R. 1970. Advanced Experimental Techniques in
Powder Metalurgy. Volume 5. Plenum Press, New York
Ibrahim, D.M and Abu-Ayana, Y.M. 2009. Preparation of Nano Alumina via
Resin Synthesis. Journal of Materials Chemistry and Physics: Elsevier.
Volume 113, Issues 2–3: 579–586
Idayanti, N., dan Dedi. 2002. Pembuatan Magnet Permanen Ferit untuk
FlowMeter. Jurnal Fisika HFI. Vol A5 No.0528. Tangerang: Himpunan
Fisika Indonesia.
Ismunandar. 2004. Padatan Oksida Logam : Struktur, Sintesis dan Sifat-sifatnya.
Bandung: Departemen Kimia FMIPA ITB
James S.R. 1988. Introduction to the principles of ceramic processing. John Willey &
Sons,Inc. Singapore.
Kerista Sebayang, Achmad Maulana Soehada, Anggito P Tetuko, Perdamean
Sebayang. 2013. Microstructure, Magnetic Properties and Microwave
Absorption of BaFe(12-x)MnxO19 Soft Magnet. Presented at International
Seminar on Magnetic Materials; Batam, 2013.
Knozinger, H., Ratnasamy, and Catal, P. 1978. Pulse Electric Current Sintering
and Strength of Sintered Alumina Using γ-Alumina Powders Prepared by
the Sol-gel Method. Journal of Science Enggenering. Vol. 17, pp. 31.
Kojima, H. 1982. Fundamental Properties of Hexagonal Ferrites with
Magnetoplumbite Structure. vol. 3; ed. E. P. Wohlfarth, North Holland
Publishing Company, Amsterdam.
Liu, Ye., Ma, D., Han, X., Bao, X., Frandsen, W., Wang, D., Su, D. 2008.
Hydrithermal synthesis of microscale boehmite and gamma nanoleaves
alumina. Materials Letters. 62: 1297 – 1301.
Masno, G., Muljadi, dan Perdamean, S. 2006. Pembuatan Magnet Permanen
Isotropik Berbasis Nd-Fe-B dan Karakterisasinya. Teknologi Indonesia.
Volume 29 No. 1: 27-30.
74
Mathews, F.L. & Rawlings, R.D. 1994. Composite Materials: Engineering and
science. Chapman & Hall Publisher, London.
Mirjalili, F., Hasmaliza, M., Luqman, C. 2011. Preparation of Nano Scale αAl2O3 Powder by The Sol Gel Method. Ceramic Silikaty. Vol. 55, No. 4,
pp. 378-383.
Mokhtar, N., Abdullah, M. HJ, & Ahmad, S. HJ. 2012. Structural and Magnetic
Properties of Type-M Barium Ferrite–Thermoplastic Natural Rubber
Nanocomposites. Sains Malaysiana 41(9)(2012): 1125–1131
Moulson, A.J., and Herbert, J.M. (second ed), 2003. Electroceramics: Materials,
Properties and Applications. John Wiley & Sons Ltd, England.
Mujiman. 2004. Sintesis Dan Karekterisasi Keramik Alumina (Al2O3) Terhadap Aditif
Titania (TiO2) Heksaferit (Studi kasus di Lembaga Ilmu penelitian Indonesia,
Jakarta). [Skripsi]. Lampung: Universitas Lampung Bandar Lampung,
Program Sarjana S-1.
Muljadi. 2010. Pembuatan Nano Partikel Ba-Hexa Ferrite (BaO.6Fe2O3) Magnet
Permanent dan Karakterisasinya. Laporan Akhir Program Insentif Peneliti
dan Perekayasa LIPI. Pusat Peneltian Fisika (P2F) LIPI
Paglia, G., Buckley, C.E., Rohl, A.L., Hart, R.D., Winter, K. & Studer, A.J. 2004.
Boehmite Derived γ-Alumina System. 1. Structural Evolution with
Temperature, with the Identification and Structural Determination of a
New Transition Phase, γ’-Alumina. Chemistry of Materials, 16 (2) : 220.
Parida, K.M., Pradhan, A.C., Das, & Sahu, N. 2009. Synthesis and
characterization of nano-sized porous gamma-alumina by control
precipitation method. Mater. Chem. Phys. 113: 244–248.
Perdamean, S., Muljadi, Wisnu, A.A. 2011. Kajian Struktur Mikro terhadap Sifat
Magnetik pada Magnet Permanen BaO.6Fe2O3. Telaah Jurnal Ilmu
Pengetahuan dan Teknologi. Vol. 29 (2): 55-62.
Prihatin, Sujito. 2005. Pembuatan Serbuk Barium Ferit (BaO.6Fe203 ) Dengan
Bahan Oasar Pasir Besi Pantai Bayuran Kabupaten Jepara Jawa Tengah
dan Karakterisasi Sifat Magnetik. [Skripsi]. Semarang: Universitas
Semarang, Program Sarjana S-1.
Priyono., Yuli, A., Happy, T. dan Ainie Khuriati, R.S. 2004. Efek Aditiv Al2O3
Terhadap Struktur dan Sifat Fisis Magnet Permanen BaO.6(Fe2O3). Jurnal
Berkala Fisika. Vol. 7 No. 2: 69-73.
R. Nowosielski, R. Babilas, G. Dercz, L. Pajak, J. Wrona. 2007. Structure and
Properties of Barium Ferrite Powders Prepared by Milling and Annealing.
Archives of Materials Science and Engineering, Vol 28, Issue 12, p 735742.
75
Ristic, M. M. 1977. Sintering New Developments. Material Science Monographs. Vol
4, Proceeding of 4th International Round Table Conference on Sintering,
Dubrovnik, Yugoslavia, September 5 – 10, 1979, Elsevier Scientif Publishing
Company, Amsterdam-Oxford, New York.
Robert, C.P. 2012. Hexagonal Ferrites: A Review of The Synthesis, Properties
and Applications of Hexaferrite Ceramics. Progress in Materials Science.
57: 1191–1334.
Smith and Wijn. 1959. Physical Properties of Ferrimagnetic Oxides in Relation to
Their Technical Application. Philips Researc, Netherland.
Snoek, J.L. 1947. New Development in Ferromagnetics Material. New York
Sudarsono. 2012. Kajian Sifat Mekanik Material Komposit Propeller Kincir
Angin Standard Naca 4415 Modifikasi. Prosiding Seminar Nasional
Aplikasi Sains & Teknologi (SNAST) Periode II Yogyakarta.
Takanori Tsutaoka and Nobuyoshi Koga. 2013. Magnetic Phase Transitions in
Substituted Barium Ferrites BaFe12-x(Ti0.5Co0.5)xO19 (x=0–5). Journal of
Magnetism and Magnetic Materials. 325:36–41.
Tang, X. 2005. Influence of Synthesis Variables on The Phase Component and
Magnetic Properties of M-Baferrite Powders Prepared Via Sugar-Nitrates
Process. Journal of Material Science. ISSN 0022-2461.
Tsunenori, W., Yoshihisa, M., Takeo, M., Hiroshi, D., Hiroyoshi, K., Saburo, H.,
Kenji, W., Masashi, I. 2011. Synthesis of γ-Ga2O3–Al2O3 solid solutions by
spray pyrolysis method. Ceramics International. Volume 37, Issue 8: 31833192
Utami, I., Sunardi, Suraida. 2013. Sintesis Dan Karakterisasi Gamma Alumina (γAl2o3) Dari Kaolin Asal Tatakan, Kalimantan Selatan Berdasarkan
Variasi Temperatur Kalsinasi. Jurnal Ilmiah Kimia Molekul. Volume 8
No.1: 31-42.
Van Vlack, L.H. 1989. Ilmu dan Teknologi Bahan-bahan Logam dan Bukan Logam,
Edisi kelima. Erlangga, Jakarta.
Wang, Y.H., J. Wang, M.Q. Shen, & W.L. Wang. 2009. Synthesis and Properties
of Thermostable γ-Alumina Prepared by Hydrolysis of Phosphide
Aluminum. Journal of Alloys and Compounds. 467(1-2): 405-412.
Xu, Z., Xiao, F.S., Purnell, S.K., Alexeev, O., Kawi, S., Deutsch, S.E., and Gates,
B.C. 1994. Sol-gel Synthesis of Transparent Alumina Gel and Pure
Gamma Alumina by Urea Hydrolysis of Alumina Nitrate. Journal Matterial
Science. Vol. 10, pp. 485-490.
76
Yamauchi, T., Tsukahara,Y., Sakata, T., Mori, H., Chikata, T., Katih, S., Wada,
Y. 2009. Barium Ferrite Powder Preparet By Microwave-Indu Ced
Hydrothermal Reaction And Madnet Ic Property. Juornal Of Magnetism
and Magnetic Material: Elsevier.
Yong An, Sung., In Bo Shim., and Chui Sung Kim. 2002. Mossbauer and
Magnetic Properties of Co-Ti Substituted Barium Hexaferrite
Nanoparticles. Journal of Applied Physics. Vol. 91, No. 10.
Young Joon An, Ken Nishida, Takashi Yamamoto, Shunkichi Ueda and Takeshi
Deguchi, 2008, Characteristic Evaluations of Microwave Absorbers Using
Dielectric and Magnetic Composite Materials. Journal of Ceramic
Processing Research. Vol. 9, 430-436.
Yue Liu, Hong-bo Zhang, Ji-dong Duan, Ying Liu, Yu Gao, Li-li Wang, and
Yang Li. 2011. Magnetic Properties of Mn/Co/Sn Substituted Barium
Heksaferits Synthesized by an Improved Co-precipitation Method.
Advances Materials Research Vols. 239-242 pp 3052-3055, Switzerland.
Yue Liu, Michael G.B., Drew, Ying Liu. 2011. Preparation and Magnetik
Properties of Barium Ferrites Substituted with Manganese, Cobalt, and
Tin. Journal of Magnetism and Magnetic Materials, 323, 945–953.