SYNTHESIS AND CHARACTERIZATION BaFe (12-xTi0.5xMg0.5xO19 AND VARIATION (x = 0.5;1;1.5;2) WITH DOPING Ti-Mg THROUGH POWDER METALLURGY METHOD FOR ELECTROMAGNETIC WAVE ABSORBENT MATERIALS (RAMs)

The electromagnetic wave absorbent materials using the M-type ferrite BaFe(12-x) Ti0.5xMg0.5xO19 doped with Ti-Mg and variation of x=0.5;1;1,5;2 is synthesized by powder metallurgy method through pulverizing process 2,4 and 8 hours. The aim of this research work is to make electromagnetic w...

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التفاصيل البيبلوغرافية
المؤلف الرئيسي:	Mulyati Latifah, Sri
التنسيق:	Theses
اللغة:	Indonesia
الوصول للمادة أونلاين:	https://digilib.itb.ac.id/gdl/view/33949
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المؤسسة:	Institut Teknologi Bandung
اللغة:	Indonesia

id	id-itb.:33949
spelling	id-itb.:339492019-01-31T11:02:05ZSYNTHESIS AND CHARACTERIZATION BaFe (12-xTi0.5xMg0.5xO19 AND VARIATION (x = 0.5;1;1.5;2) WITH DOPING Ti-Mg THROUGH POWDER METALLURGY METHOD FOR ELECTROMAGNETIC WAVE ABSORBENT MATERIALS (RAMs) Mulyati Latifah, Sri Indonesia Theses Barium hexaferrite, doping Ti-Mg, powder metallurgy, latice parameters, coercivity, saturation magnetization, reflection loss INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/33949 The electromagnetic wave absorbent materials using the M-type ferrite BaFe(12-x) Ti0.5xMg0.5xO19 doped with Ti-Mg and variation of x=0.5;1;1,5;2 is synthesized by powder metallurgy method through pulverizing process 2,4 and 8 hours. The aim of this research work is to make electromagnetic wave absorbing materials (RAMs = Radar Absorbent Materials) and to understand the effect of doping addition of Ti-Mg elements on increasing magnetic properties of barium hexaferrite also to unerstand the result of pulverizing process to the absorption value of electromagnetic wave. From the result XRD test doping additions can change the latice parameter a, b, c on the hexagonal crystalline system, where the crystal volume increases then the X-Ray density will decrease. The XRD results can be confirmed by SEM test results with the formation hexagonal crystal structure on a pelletized sample with 5000x magnification. While the powdered sample showed a rough size change taken with the smallest average value detected with SEM was 217.63 nm after pulverizing process for 8 hours, and looked agglomerated powder. From the results of research on BaFe(12- x)Ti0.5xMg0.5xO19 with the addition of doping can improve the magnetic properties and absorption values of electromagnetic waves. The more addition of doping Ti- Mg for x=2 its magnetic properties is increasing with coercivity value of 0.177 kOe, saturation magnetization, Ms 54.013 emu/gram and remanent magnetization, Mr 21.744 emu/gram. For the highest electromagnetic wave absorption value or reflection loss is achieved at x=1.5 with thickness of 2 mm equal to -19.500 dB at frequency 10.300 GHz. text
institution	Institut Teknologi Bandung
building	Institut Teknologi Bandung Library
continent	Asia
country	Indonesia Indonesia
content_provider	Institut Teknologi Bandung
collection	Digital ITB
language	Indonesia
description	The electromagnetic wave absorbent materials using the M-type ferrite BaFe(12-x) Ti0.5xMg0.5xO19 doped with Ti-Mg and variation of x=0.5;1;1,5;2 is synthesized by powder metallurgy method through pulverizing process 2,4 and 8 hours. The aim of this research work is to make electromagnetic wave absorbing materials (RAMs = Radar Absorbent Materials) and to understand the effect of doping addition of Ti-Mg elements on increasing magnetic properties of barium hexaferrite also to unerstand the result of pulverizing process to the absorption value of electromagnetic wave. From the result XRD test doping additions can change the latice parameter a, b, c on the hexagonal crystalline system, where the crystal volume increases then the X-Ray density will decrease. The XRD results can be confirmed by SEM test results with the formation hexagonal crystal structure on a pelletized sample with 5000x magnification. While the powdered sample showed a rough size change taken with the smallest average value detected with SEM was 217.63 nm after pulverizing process for 8 hours, and looked agglomerated powder. From the results of research on BaFe(12- x)Ti0.5xMg0.5xO19 with the addition of doping can improve the magnetic properties and absorption values of electromagnetic waves. The more addition of doping Ti- Mg for x=2 its magnetic properties is increasing with coercivity value of 0.177 kOe, saturation magnetization, Ms 54.013 emu/gram and remanent magnetization, Mr 21.744 emu/gram. For the highest electromagnetic wave absorption value or reflection loss is achieved at x=1.5 with thickness of 2 mm equal to -19.500 dB at frequency 10.300 GHz.
format	Theses
author	Mulyati Latifah, Sri
spellingShingle	Mulyati Latifah, Sri SYNTHESIS AND CHARACTERIZATION BaFe (12-xTi0.5xMg0.5xO19 AND VARIATION (x = 0.5;1;1.5;2) WITH DOPING Ti-Mg THROUGH POWDER METALLURGY METHOD FOR ELECTROMAGNETIC WAVE ABSORBENT MATERIALS (RAMs)
author_facet	Mulyati Latifah, Sri
author_sort	Mulyati Latifah, Sri
title	SYNTHESIS AND CHARACTERIZATION BaFe (12-xTi0.5xMg0.5xO19 AND VARIATION (x = 0.5;1;1.5;2) WITH DOPING Ti-Mg THROUGH POWDER METALLURGY METHOD FOR ELECTROMAGNETIC WAVE ABSORBENT MATERIALS (RAMs)
title_short	SYNTHESIS AND CHARACTERIZATION BaFe (12-xTi0.5xMg0.5xO19 AND VARIATION (x = 0.5;1;1.5;2) WITH DOPING Ti-Mg THROUGH POWDER METALLURGY METHOD FOR ELECTROMAGNETIC WAVE ABSORBENT MATERIALS (RAMs)
title_full	SYNTHESIS AND CHARACTERIZATION BaFe (12-xTi0.5xMg0.5xO19 AND VARIATION (x = 0.5;1;1.5;2) WITH DOPING Ti-Mg THROUGH POWDER METALLURGY METHOD FOR ELECTROMAGNETIC WAVE ABSORBENT MATERIALS (RAMs)
title_fullStr	SYNTHESIS AND CHARACTERIZATION BaFe (12-xTi0.5xMg0.5xO19 AND VARIATION (x = 0.5;1;1.5;2) WITH DOPING Ti-Mg THROUGH POWDER METALLURGY METHOD FOR ELECTROMAGNETIC WAVE ABSORBENT MATERIALS (RAMs)
title_full_unstemmed	SYNTHESIS AND CHARACTERIZATION BaFe (12-xTi0.5xMg0.5xO19 AND VARIATION (x = 0.5;1;1.5;2) WITH DOPING Ti-Mg THROUGH POWDER METALLURGY METHOD FOR ELECTROMAGNETIC WAVE ABSORBENT MATERIALS (RAMs)
title_sort	synthesis and characterization bafe (12-xti0.5xmg0.5xo19 and variation (x = 0.5;1;1.5;2) with doping ti-mg through powder metallurgy method for electromagnetic wave absorbent materials (rams)
url	https://digilib.itb.ac.id/gdl/view/33949
_version_	1823637461673181184

SYNTHESIS AND CHARACTERIZATION BaFe (12-xTi0.5xMg0.5xO19 AND VARIATION (x = 0.5;1;1.5;2) WITH DOPING Ti-Mg THROUGH POWDER METALLURGY METHOD FOR ELECTROMAGNETIC WAVE ABSORBENT MATERIALS (RAMs)

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