R.E.M. (Rekayasa Energi Manufaktur) Jurnal
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    Optimasi Penjadwalan Flow Shop Menggunakan Algoritma Hybrid Differential Evolution: Flow Shop Scheduling Optimization Using Hybrid Differential Evolution Algorithm

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    Universitas Muhammadiyah Sidoarjo
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    Penjadwalan produksi merupakan bagian integral di dalam sistem manufaktur. Artikel ini menyelesaikan permasalahan penjadwalan flow shop dengan fungsi obyektif total flow time. Dalam penjadwalan, total flow time menghasilkan konsumsi yang stabil terhadap sumber daya, perputaran job yang cepat serta meminimalkan work in process inventory. Permasalahan penjadwalan flow shop tergolong pada permasalahan optimasi kombinatorial yang merupakan NP-hard. Saat ini, penggunaan algoritma metaheuristik banyak digunakan untuk memecahkan kasus optimasi kombinatorial, termasuk penjadwalan flow shop. Salah satu yang memiliki performa yang baik adalah Algoritma Differential Evolution. Untuk meningkatkan kualitas solusinya, Algoritma Differential Evolution akan ditambahkan dengan prosedur local search yang dinamakan Hybrid Differential Evolution. Untuk mengetahui performa dari algoritma tersebut, dilakukan pengujian menggunakan data penjadwalan flow shop yang ada pada OR-Library. Performa Hybrid Differential Evolution akan dibandingkan dengan algoritma lain. Hasil pengujian menunjukkan bahwa Hybrid Differential Evolution memberikan performa yang lebih baik dibandingkan dengan algoritma lain

    Rekayasa Desain dan Analisis Struktur perangkat dasar laut Ocean Bottom Unit (OBU) untuk INA – TEWS: Engineering Design and Structure Analysis of Ocean Bottom Unit (OBU) for INA – TEWS

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    Universitas Muhammadiyah Sidoarjo
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    This paper briefly describes the design and analysis of the structure of ocean bottom units (OBU) as a pair of surface buoys to detect tsunami early. This engineering work such as any other marine construction is based on naval architecture. The design concept OBU is firstly made then the stability calculation is conducted, finally the structural strength is calculated for load case of hydrostatic and impact as the OBU landed on approximately 2000m of ocean depths

    Analisis Sifat Mekanik Material Komposit Ecenggondok Berbahan Filler Ampas Singkong Dengan Matrik Polyester: Analysis of Mechanical Properties of Water Hyacinth Composite Materials Made from Cassava Dregs Filler With Polyester Matrix

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    Universitas Muhammadiyah Sidoarjo
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    The using of composits material currently more developed together with the using of it from the simpler like larges of housing tools to industry sector.The composite resech supported by fiber of eichhornia crassipes solms that has filler of cassava waste that has functions to know tensile strength and impact strength.This reseach used the various added of cassava waste , 0, 20, 25, and 30 (% of weight) and using of polyester resin matrix, the form of the composite speciment is plat with the fractions volume eichhornia crassipes solms fiber 20 % (constant), the fiber length 25 mm, because methode to found eichhornia crassipes solms fiber using methode of manual so that nothing of fibers have cuality and length with the same.Composite manufacturing process carried out by the methode of hand lay up with emphasis manually using glass as a mold and pressure.The results tensile reseach founded that lests of filler as used so that the higest that tensile strength, the highest tensile strength at variations added of cassava waste 0 %  ( 9,311 N/mm2 ) and for impact strength the biggest added of cassava waste so that the highest energy to fight  of materials , the high tensile strength found in the variations added of cassava waste 25 % ( 0,018282 J/mm2 ).The using of composits material currently more developed together with the using of it from the simpler like larges of housing tools to industry sector.The composite resech supported by fiber of eichhornia crassipes solms that has filler of cassava waste that has functions to know tensile strength and impact strength.This reseach used the various added of cassava waste , 0, 20, 25, and 30 (% of weight) and using of polyester resin matrix, the form of the composite speciment is plat with the fractions volume eichhornia crassipes solms fiber 20 % (constant), the fiber length 25 mm, because methode to found eichhornia crassipes solms fiber using methode of manual so that nothing of fibers have cuality and length with the same.Composite manufacturing process carried out by the methode of hand lay up with emphasis manually using glass as a mold and pressure.The results tensile reseach founded that lests of filler as used so that the higest that tensile strength, the highest tensile strength at variations added of cassava waste 0 %  ( 9,311 N/mm2 ) and for impact strength the biggest added of cassava waste so that the highest energy to fight  of materials , the high tensile strength found in the variations added of cassava waste 25 % ( 0,018282 J/mm2 )

    Pembuatan Electric Furnace Berbasis Mikrokontroler: Microcontroller-Based Electric Furnace Manufacturing

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    Universitas Muhammadiyah Sidoarjo
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    lectric furnace atau tungku listrik adalah peralatan pemanas yang menggunakan sumber panas dari listrik. Electric furnace konvensional yang ada sekarang terkadang kurang akurasi dalam proses waktu maupun suhu. Tujuan penelitian ini adalah membuat mesin electric furnace berbasis mikrokontroler dengan fungsi utama proses pemanasan lebih akurasi terjaga waktu dan suhu dan dapat di atur secara otomatis serta di monitor melalui LCD (Liquid Crystal Display). Metode yang dipakai adalah perancangan awal  sekaligus pembuatannya dan pengujian untuk uji kinerja rangkaian kelistrikan, uji kecepatan pencapaian suhu, dan uji perpindahan panas dengan melakukan pengukuran suhu dari suhu dalam electric furnace hingga suhu permukaan luar pelat. Perhitungan  perpindahan panas dimulai dari dalam dinding electric furnace, batu tahan api (refraktori), pelat besi dan suhu lingkungan dengan panas yang dihasilkan dari elemen listrik berkapasitas 4400 Watt. Diperoleh hasil electric furnace dengan dimensi ruang tungku ukuran 190 mm x 350 mm x 320mm. Uji coba kinerja rangkaian kelistrikan furnace,  di coba pada suhu 800 ˚C di tahan selama 30 menit, hasil yang diperoleh suhu tetap konstan 800˚C. Uji kecepatan untuk pencapaian suhu, electric furnace mampu bekerja hingga tempertur maksimum 1000 ˚C, dengan kecepatan untuk pencapaian suhu 1000 ˚C selama 17.111 detik atau 47,5 jam dengan  rata-rata kenaikan suhu tiap 1˚C adalah 0,1 detik, Laju perpindahan panas total pada dinding electric furnace adalah 6,83W/m2K

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    R.E.M. (Rekayasa Energi Manufaktur) Jurnal
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