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Suciani Rahma Pertiwi
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Chemical Engineering, Chemistry & Bioengineering Civil Engineering, Building, Construction & Architecture Computer Science & IT Electrical & Electronics Engineering Engineering Environmental Science Mechanical Engineering

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UJI EKSPERIMEN VARIASI BAHAN FEROMAGNETIK INTI LOGAM DAN TEMPERATUR LINGKUNGAN TERHADAP PERFORMA INDUKTANSI INDUKTORforma Induktansi Induktor Vera Pangni Fahriani; Reza Setiawan; Suciani Rahma Pertiwi
JiTEKH (Jurnal Ilmiah Teknologi Harapan) Vol 7 No 2 (2019): September 2019
Publisher : Universitas Harapan Medan

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.35447/jitekh.v7i02.54

Abstract

Induktor dengan inti logam memiliki inti yang terbuat dari bahan feromagnetik yang dililit oleh sebuah bahan konduktor. Bahan feromagnetik inti logam tersebut adalah salah satu faktor utama yang mempengaruhi kinerja induktansi induktor. Inti logam induktor yang berada dipasaran umumnya terbuat dari inti besi (Fe) sehingga perlu ditingkatkan dengan mencoba material-material baru yang belum digunakan pada bahan inti logam induktor. Selain itu, temperatur lingkungan kerja juga mempengaruhi performa induktor. Sehingga dilakukan uji coba dari beberapa material yang potensial mampu meningkatkan induktansi induktor. Metode penelitian yang dilakukan adalah metode eksperimen. Eksperimen dilakukan pada tiga jenis material yakni Besi Cor Abu ASTM A48 (C 3,4%, Si 1,8 %, Mn 0,5%), Nikrom (Ni 80%, Cr 20%), Monel Alloy 400 (Ni 63%, Cu 31,7%, Fe 2,5%, C 0,3 %, Mn 2%, Si 0.5%, S 0.024%). Uji eksperimen terhadap material tersebut juga dilakukan pada jumlah lilitan induktor 150, 500 dan 1000 serta kondisi temperatur 30 - 50 oC. Hasil penelitian menunjukan induktansi terbesar didapat berturut-turut dari material Besi Cor Abu ASTM A48, Besi (inti logam pada umumnya), Monel Alloy 400, Nikrom dan tanpa inti logam pada jumlah lilitan 150, 500, 1000 dan pada temperatur 30 oC, 35 oC, 40 oC, 45 oC dan 50 oC. Kecenderungan induktansi meningkat pada jumlah lilitan yang semakin banyak dan induktansi menurun pada temperatur yang semakin tinggi.
Kemampuan Induktansi pada Material Inti Logam Induktor Besi Cor ASTM A48, Nichrome dan Monel Alloy 400 Terhadap Variasi Input Listrik dan Lilitan Vera Pangni Fahriani; Reza Setiawan; Suciani Rahma Pertiwi
Jurnal Serambi Engineering Vol 6, No 1: Januari 2021
Publisher : Fakultas Teknik

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.32672/jse.v6i1.2652

Abstract

Inductor with a metal core is a component which  is almost always present in the daily  electronic device known to us . To further prove the potential  of the proposed new metalcore material, it is necessary to test the voltage variation, winding, and frequency in the inductor with the newly proposed metallic core material. The research method uses experimental methods. Three basic metal materials were used in the experiment, those are Cast Iron ASTM A48 (C 3.4%, Mn 0.5%, Si 1.8%,), Nicromine (Ni 80%, Cr 20%), Monel Alloy 400 (Ni 63%, Cu 31.7%, C 0.3%, Fe 2.5%, Si 0.5%, Mn 2%, S 0.024%). Experimental tests on these new types of metal were also carried out under various stress, winding, and working frequency conditions. The voltage variation selected is 4.5 V - 24 V,  the winding variations and frequencies selected are 150 to  1000 turns and 50 Hz. The  greatest inductance was obtained from ASTM A48, Fe, Monel Alloy 400, Nikromic, and without metallic core on the specified indicator variables. As the voltage increases and the number of turns increases,  the inductance value increases.
Kemampuan Induktansi pada Material Inti Logam Induktor Besi Cor ASTM A48, Nichrome dan Monel Alloy 400 Terhadap Variasi Input Listrik dan Lilitan Vera Pangni Fahriani; Reza Setiawan; Suciani Rahma Pertiwi
Jurnal Serambi Engineering Vol 6, No 1: Januari 2021
Publisher : Fakultas Teknik

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.32672/jse.v6i1.2652

Abstract

Inductor with a metal core is a component which  is almost always present in the daily  electronic device known to us . To further prove the potential  of the proposed new metalcore material, it is necessary to test the voltage variation, winding, and frequency in the inductor with the newly proposed metallic core material. The research method uses experimental methods. Three basic metal materials were used in the experiment, those are Cast Iron ASTM A48 (C 3.4%, Mn 0.5%, Si 1.8%,), Nicromine (Ni 80%, Cr 20%), Monel Alloy 400 (Ni 63%, Cu 31.7%, C 0.3%, Fe 2.5%, Si 0.5%, Mn 2%, S 0.024%). Experimental tests on these new types of metal were also carried out under various stress, winding, and working frequency conditions. The voltage variation selected is 4.5 V - 24 V,  the winding variations and frequencies selected are 150 to  1000 turns and 50 Hz. The  greatest inductance was obtained from ASTM A48, Fe, Monel Alloy 400, Nikromic, and without metallic core on the specified indicator variables. As the voltage increases and the number of turns increases,  the inductance value increases.
Co-Authors Reza Setiawan Vera Pangni Fahriani