PENGARUH PERGESERAN PUNCAK DIFRAKSI AKIBAT PERUBAHAN RASIO MOL BA2+/FE3+ TERHADAP SIFAT MAGNETIK BAFE12O19 SOL GEL
(1) Jalan Raya Puspiptek Serpong
(2) Jalan Raya Puspiptek Serpong
Abstract
Barium hexaferrite BaFe12O19 (BHF) merupakan magnet permanen yang sangat penting khususnya untuk magnetic recording pada peralatan microwave. Serbuk nanokristalin BHF pada penelitian ini disintesa de-ngan metode sol gel auto combustion. Rasio mol Ba2+/Fe3+ dibuat bervariasi  1:12; 1:11,5 dan 1:11.Proses pemanasan dilakukan pada 850oC 10 jam untuk memperoleh BHF nanokristalin. Data XRD memperlihatkan  bahwa BHF dengan rasio 1:12 mempunyai parameter kristal yang sama dengan rasio 1:11, posisi puncak pola difraksi yang saling mendekati khususnya pada 2 θ yang makin besar. Hal ini berkaitan dengan sifat magnetik kedua rasio tersebut yang mempunyai nilai remanen dan koersivitas yang ekstrim. BHF dengan rasio 1:11,5 dengan posisi puncak yang jauh dengan rasio 1:12 dan 1:11 mempunyai nilai remanen dan koersivitas terletak antara nilai remanen dan koersivitas sampel dengan rasio 1:12 dan 1:11. Sampel ini merupakan sampel dengan rasio yang terbaik karena merupakan fasa tunggal yang mempunyai pola difraksi yang hampir tepat sama dengan pola difraksi BHF standar dengan nilai kesesuaian (best FoM) yang paling tinggi 90%, mempunyai butir yang paling halus 22 nm dan sifat magnetik yang lebih baik.
Barium hexaferrite BaFe12O19 (BHF) is an important permanent magnet used particularly for magnetic recording applied in microwave devices. Nanocrystalline BHF powder was prepared by sol gel auto combustion method. Hence the mole ratios of Ba2+/Fe3+ were varied at 1:12; 1:11.5 and 1:11. Heating at 850oC for 10 hours for each sample was than done to get final formation of nanocrystalline BHF. The data from XRD confirmed that BHF of ratio 1:12 has same crystall parameters as of ratio 1:11. In addition, position of  diffraction pattern peak of sample of ratio 1:12and 1:11 was almost getting nearerespecially at a greater value of 2 θ. This result has relation with their magnetic properties having an extrim value of remanent and coersive. BHF of ratio 1:11.5 which the peak position is far from ratio 1:12 and 1:11 has value of remanent and coersive between of ratio 1:12 and 1:11. This sample is the samplehaving best ratio sinceit hasa single phase with diffraction pattern  fits with those of BHF standard with the highest value of best FoM of 90%,the finest grain of 22 nm and better magnetic properties
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Bahadur.D, Rajakumar.S, Ankit Kumar. January 2006. Influence of Fuel Ratios on Auto Combustion Synthesis of Barium Ferrite Nano Particle. J. Chem. Sci.118(1) : 15-21.
Chandrasekhar.R,Mapps.D.J. 2001. Preparation and Characterisation of Sandwich Type Barium Hexaferrite Thin Films. Elsevier Journal of Magnetism and Magnetic Materials 157/158 : 326-328.
Deganello.F, Marci.G, Deganello.G, 2009. Citrate-Nitrate Auto Combustion Synthesis of Perovskite Type NanoPowders A systematic Approach. Elsevier Journal of The European Ceramics Society 29, 439-450.
Guoqing Xu, Hongliang Ma, Minjian Zhong, Jiong Zhou, Yuezhong Yue, Zhengming He, 2006. Influence of PH on Characteristics of BaFe12O19 Powder Prepared by Sol Gel Auto Combustion. Elsevier Science Direct Journal of Magnetic Materials 301: 383-388.
Lin Junliang, Zeng Yanwei, Guo Cuijing, Zhang Wei, Yang Xiaowei, 2010. One Step Synthesis of Barium Hexaferrite Nano Powders via Microwave assisted Sol – Gel Auto Combustion. Elsevier Science Direct Ceramics International 30: 993-997.
Min Ha Kim, Dae Soo Jung, Yun Chan Kang, Jeong Hoo Choi, 2009. Nanosized Barium Ferrite Powders Prepared by Spray Pyrolysis From Citric Acid Solution. Elsevier Science Direct Ceramics International 35:1933-1937.
Mohsen.Q, 2010. Factors Affecting The Synthesis and Formation of Single Phase Barium Hexaferrite by a Technique of Oxalate Precursor. American Journal of Applied Sciences 7 (7):914-921.
Somogyvan.Z,Svab.E, Gy Meszaros, Krezhov.K, Konstantinov.P, Nedkov I, Bouree.F, 2002. Nanosize Effects on The Microstructures of BaFe10.3Co0.85Ti0.85O19 Hexaferrite. Journal of Applied Physics 91(9).
Sozeri.H, Kucuk.J, Ozkan.H. 2011. Improvement in Magnetic Properties of La Substituted BaFe12O19 Particles Prepared With an Unusually Low Fe/Ba Molar Ratio. Elsevier Journal of Magnetism and Magnetic Materials 323: 1799-1804.
Wei Zhong, Weiping Ding, Ning Zhang, Jianming Hong, Qijie Yan, Youwei Du, 2001. Key Step in Synthesis of Ultrafine BaFe12O19 by Sol Gel Technique. Elsevier Science Direct Ceramics International 168:196-202.
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