Effects of sintering temperature on microstructural, electrical and microwave properties of gadolinium iron garnet
The effect of various sintering temperatures towards microstructural of GdIG has not been carried out in the previous research, which can provide the information on the fundamental knowledge of magnetic behaviour from nanometer to micrometer grain size regime. Therefore, the relationship between mic...
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my-upm-ir.768832020-02-06T02:55:01Z Effects of sintering temperature on microstructural, electrical and microwave properties of gadolinium iron garnet 2018-06 Shafiee, Farah Nabilah The effect of various sintering temperatures towards microstructural of GdIG has not been carried out in the previous research, which can provide the information on the fundamental knowledge of magnetic behaviour from nanometer to micrometer grain size regime. Therefore, the relationship between microstructural evolution from nano to micron grain size and their physical, magnetic, electrical and microwave properties of the gadolinium iron garnet (Gd3Fe5O12, GdIG) has been investigated systematically. Raw materials were milled using mechanical alloying method for 3 hours, shaped into toroid and pellet and sintered from 600 oC to 1400 oC with a 100 oC increment. The average particle size measured after milling using Scanning Transmission Electron Microscope (STEM) was ~36.9 nm. GdIG phase which was identified using X-ray diffraction (XRD) began to form a single phase with cubic garnet structure at 1000 oC. At this temperature, magnetization studied using vibrating scanning magnetometer (VSM) had started to show an improvement with highest magnetization value of 3.86 emu/g. The Curie temperature (Tc) obtained which was measured using LCR (Inductance, Capacitance and Resistance) meter for GdIG was ~300 oC. As the sintering temperature increased, the crystallinity improved with the highest intensity of XRD peak for sample of 1000 oC. The microstructure evolution observed using Field Emission Scanning Electron Microscope (FESEM) had influenced the changes in magnetic, microwave and electrical properties. For magnetic measurement, the maximum value obtained through impedance analyser for permeability was 1.33 and the highest induction value of 108.9 G was obtained using B-H static hysteresis graph. The density which was measured using densimeter, observed to be increased at higher sintering temperature with the maximum value of 6.01 g/cm3 for sample sintered at 1400 oC. The resistivity value that was measured using picoammeter showed a maximum value for sample sintered at 1200 oC of 4.18 × 1010 Ω cm. The linewidth from microwave measurement that was carried out using Vector Network Analyzer (VNA) in the frequency range of 4 to 8 GHz (C-band), showed the maximum value of 25.10 Oe which validates the suitability for low loss microwave material. Therefore, the microstructure evolution of starting powder from nanosize grain would allow one to observe the critical change in transformation of phase and also the change in grain size that influenced the change in the properties studied. Samples with good crystallinity and large grain size would result in better properties. Electrical engineering Ferrites (Magnetic materials) - Heat treatment 2018-06 Thesis http://psasir.upm.edu.my/id/eprint/76883/ http://psasir.upm.edu.my/id/eprint/76883/1/ITMA%202018%2013%20-%20IR.pdf text en public masters Universiti Putra Malaysia Electrical engineering Ferrites (Magnetic materials) - Heat treatment |
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Universiti Putra Malaysia |
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English |
| topic |
Electrical engineering Ferrites (Magnetic materials) - Heat treatment |
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Electrical engineering Ferrites (Magnetic materials) - Heat treatment Shafiee, Farah Nabilah Effects of sintering temperature on microstructural, electrical and microwave properties of gadolinium iron garnet |
| description |
The effect of various sintering temperatures towards microstructural of GdIG has not been carried out in the previous research, which can provide the information on the fundamental knowledge of magnetic behaviour from nanometer to micrometer grain size regime. Therefore, the relationship between microstructural evolution from nano to micron grain size and their physical, magnetic, electrical and microwave properties of the gadolinium iron garnet (Gd3Fe5O12, GdIG) has been investigated systematically. Raw materials were milled using mechanical alloying method for 3 hours, shaped into toroid and pellet and sintered from 600 oC to 1400 oC with a 100 oC increment.
The average particle size measured after milling using Scanning Transmission Electron Microscope (STEM) was ~36.9 nm. GdIG phase which was identified using X-ray diffraction (XRD) began to form a single phase with cubic garnet structure at 1000 oC. At this temperature, magnetization studied using vibrating scanning magnetometer (VSM) had started to show an improvement with highest magnetization value of 3.86 emu/g. The Curie temperature (Tc) obtained which was measured using LCR (Inductance, Capacitance and Resistance) meter for GdIG was ~300 oC. As the sintering temperature increased, the crystallinity improved with the highest intensity of XRD peak for sample of 1000 oC. The microstructure evolution observed using Field Emission Scanning Electron Microscope (FESEM) had influenced the changes in magnetic, microwave and electrical properties. For magnetic measurement, the maximum value obtained through impedance analyser for permeability was 1.33 and the highest induction value of 108.9 G was obtained using B-H static hysteresis graph. The density which was measured using densimeter, observed to be increased at higher sintering temperature with the maximum value of 6.01 g/cm3 for sample sintered at 1400 oC. The resistivity value that was measured using picoammeter showed a maximum value for sample sintered at 1200 oC of 4.18 × 1010 Ω cm. The linewidth from microwave measurement that was carried out using Vector Network Analyzer (VNA) in the frequency range of 4 to 8 GHz (C-band), showed the maximum value of 25.10 Oe which validates the suitability for low loss microwave material.
Therefore, the microstructure evolution of starting powder from nanosize grain would allow one to observe the critical change in transformation of phase and also the change in grain size that influenced the change in the properties studied. Samples with good crystallinity and large grain size would result in better properties. |
| format |
Thesis |
| qualification_level |
Master's degree |
| author |
Shafiee, Farah Nabilah |
| author_facet |
Shafiee, Farah Nabilah |
| author_sort |
Shafiee, Farah Nabilah |
| title |
Effects of sintering temperature on microstructural, electrical and microwave properties of gadolinium iron garnet |
| title_short |
Effects of sintering temperature on microstructural, electrical and microwave properties of gadolinium iron garnet |
| title_full |
Effects of sintering temperature on microstructural, electrical and microwave properties of gadolinium iron garnet |
| title_fullStr |
Effects of sintering temperature on microstructural, electrical and microwave properties of gadolinium iron garnet |
| title_full_unstemmed |
Effects of sintering temperature on microstructural, electrical and microwave properties of gadolinium iron garnet |
| title_sort |
effects of sintering temperature on microstructural, electrical and microwave properties of gadolinium iron garnet |
| granting_institution |
Universiti Putra Malaysia |
| publishDate |
2018 |
| url |
http://psasir.upm.edu.my/id/eprint/76883/1/ITMA%202018%2013%20-%20IR.pdf |
| _version_ |
1747813187069149184 |