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All Journal Rekayasa Mesin FLYWHEEL : Jurnal Teknik Mesin Untirta JMPM (Jurnal Material dan Proses Manufaktur)
Bayu Satriya Wardhana
Jurusan Teknik Mesin Fakultas Teknik, Universitas Brawijaya
Automotive Engineering Chemical Engineering, Chemistry & Bioengineering Control & Systems Engineering Energy Engineering Industrial & Manufacturing Engineering Materials Science & Nanotechnology Mechanical Engineering Transportation

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Pengaruh Feed Rate dan Kecepatan Putar Pin Tool Friction Stir Welding (FSW) terhadap Kekuatan Tarik dan Kekerasan Aluminium 5052 Rahman, Muhammad Budi Nur; Nugroho, Aris Widyo; Wardhana, Bayu Satriya
JMPM : Jurnal Material dan Proses Manufaktur Vol 2, No 2 (2018): DESEMBER 2018
Publisher : JMPM : Jurnal Material dan Proses Manufaktur

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Abstract

AbstrakFriction Stir Welding (FSW) adalah proses pengelasan yang memanfaatkan alat bundar yang menimpa dua potong pelat yang akan disambung. Hasil pengelasan dipengaruhi oleh input panas yang dihasilkan antara alat pin dan bahan las. Tujuan dari penelitian ini adalah mengetahui pengaruh laju umpan dan rotasi alat pin FSW terhadap sifat mekanik Aluminium 5052. Lembaran logam dihubungkan dengan metode FSW dengan variasi laju umpan 20, 60, 120 , 180 mm/menit dan rotasi pin tool 1500, 2500, 360 rpm menggunakan holder cylinder tool pin dengan panjang 22mm dan 4mm. Pengujian mekanis yang dilakukan adalah uji tarik, uji kekerasan Vickers mikro dan pengamatan struktur mikro menggunakan mikroskop optik dan SEM. Hasil penelitian menunjukkan bahwa semakin cepat laju umpan, kekuatan tarik semakin rendah, tetapi regangan tarik meningkat. Pada laju umpan 600 mm/menit, kekuatan tarik diperoleh 187 MPa dengan regangan 12,4% dan laju umpan 180 mm/menit kuat tarik 103 MPa dengan regangan 3,17%. Rotasi lebih cepat dari alat pin, kekuatan tarik meningkat, koneksi solid dan menyatu, dan pada 1500 rpm kekuatan tarik dari 112 MPa menjadi 207 MPa pada 3600 rpm. Semakin besar laju umpan dan rotasi alat pin, nilai kekerasan meningkat di mana tingkat umpan 20 mm/menit kekerasan 44,8 VHN menjadi 86,4 VHN pada laju umpan 120 mm/menit, sedangkan alat putaran pin 1500 Kekerasan rpm 51,3 VHN menjadi 69,6 VHN pada 3.600 rpm. AbstractFriction Stir Welding (FSW) is a welding process that utilizes a round tool that impinges on the two pieces of pelates that will be spliced. Welding results are influenced by heat input which is generated between the pin tool with the material of the weld. The purpose of the research was to determine the influence of feed rate and rotation of the pin tool of the FSW on mechanical properties of Aluminum 5052. Metal Sheet connected with the method of the FSW with the variation of the feed rate 20, 60, 120, 180 mm/minute and rotation of the pin tool 1500, 2500, 360 rpm using the holder cylinder 22mm long pin tool 4mm. Mechanical testing carried out are tensile test, hardness test micro Vickers and microstructure observation using optical microscope and SEM. The results showed that the faster the feed rate then the tensile strength more low however, the tensile strain increased. At feed rate of 600 mm/minute tensile strength obtained 187 MPa with a strain of 12.4% and a feed rate of 180 mm/minute tensile strength of 103 MPa with a strain of 3.17%. The Faster rotation of the pin tool, the tensile strength increases, the connection is solid and fused, where at 1500 rpm tensile strength of 112 MPa to 207 MPa at 3600 rpm. The greater the feed rate and rotation of the pin tool then the value of hardness is increasing where the feed rate of 20 mm/minute hardness by 44.8 VHN to 86.4 VHN at a feed rate of 120 mm/minute, while the round pin tool 1500 rpm hardness of 51.3 VHN become 69,6 VHN at 3600 rpm
Variasi Kekencangan Mula (Pre-Tension) Satu Arah pada Reinforcement Fibre Panel Komposit terhadap Kekuatan Tarik Oerbandono, Tjuk; Wardhana, Bayu Satriya; K., Praisy Meivy; Sonief, Achmad As’ad
Rekayasa Mesin Vol 5, No 2 (2014)
Publisher : Jurusan Teknik Mesin, Fakultas Teknik, Universitas Brawijaya

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Abstract

Composites consist of more than one type of material that is designed to get a combination of the best characteristics of each constituent components. This research was conducted to determine the effect of variations in one direction of the pre tension on reinforcement fibre to the tensile strength of composite panel. The produced composite composed of woven roving type E-glass fibres and polyester resin 108. The resulted composites were made by hand lay-up method. The applied pre tension variations in the experiment are 0N, 5N, 10N, 15N, and 20N. Tensile testing was done by using a universal tensile testing machine in accordance with ASTM D 3039. From the measurements known that the applied pre tension on reinforcement fibre influence the tensile strength of the composite. Variations of pre tension from F = 0 N up to F = 20 N showed that the composite’s tensile strength tend to increase. Reinforcement fibre without pre tension or F= 0 N has the lowest tensile strength value 235.33 N/mm2, while the highest tensile strength of composite 367.02 N/mm2 belong to the reinforcement fibre with one direction pre tension of 20 N.Keywords: Pre-Tension, Reinforcement Fibre, Composite Panel, Tensile Strength
Pengaruh Penambahan Fraksi Berat Zirconia terhadap Sifat Fisik dan Mekanik Komposit Aluminium Diperkuat Zirconia yang Diproduksi dengan Metalurgi Serbuk Wardhana, Bayu Satriya
Jurnal Rekayasa Mesin Vol 5, No 3 (2014)
Publisher : Jurusan Teknik Mesin, Fakultas Teknik, Universitas Brawijaya

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Abstract

This research aims to utilize zirconia (ZrO ) as a reinforcement of aluminum matrix composite (AMC). ZrO 2 2 powder of 0%, 2.5%, 5%, 7.5%, 10%, 12,5%, and 15% wt were added to fine aluminum powder (dimension of particles are smaller than 40 μm). Each composition was mixed using a turbula mixer for 2 hr. The mixture was uniaxially pressed with a pressure of 300 MPa to produce green bodies. They were pressure less sintered in argon atmosphere at temperature of 600ºC. Relative density, Vickers hardness, and bending strength of the AMC were tested. The results show that the hardness increases with increasing the ZrO content up to 5% wt whereas wear rate decrease. Relative density and Vickers hardness of composite containing 5% ZrO2 are 89%, 34 HV15 and 0.076 mg/(MPa.m), respectively. Maximum bending strength was reach on 7,5% ZrO adding on 37,66 MPa.Keyword : Aluminum Matrix Composite, zirconia, uniaxial compaction 2 2
Pengaruh Feed Rate dan Kecepatan Putar Pin Tool Friction Stir Welding (FSW) terhadap Kekuatan Tarik dan Kekerasan Aluminium 5052 Muhammad Budi Nur Rahman; Aris Widyo Nugroho; Bayu Satriya Wardhana
JMPM (Jurnal Material dan Proses Manufaktur) Vol 2, No 2 (2018): Desember
Publisher : Universitas Muhammadiyah Yogyakarta

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.18196/jmpm.2224

Abstract

AbstrakFriction Stir Welding (FSW) adalah proses pengelasan yang memanfaatkan alat bundar yang menimpa dua potong pelat yang akan disambung. Hasil pengelasan dipengaruhi oleh input panas yang dihasilkan antara alat pin dan bahan las. Tujuan dari penelitian ini adalah mengetahui pengaruh laju umpan dan rotasi alat pin FSW terhadap sifat mekanik Aluminium 5052. Lembaran logam dihubungkan dengan metode FSW dengan variasi laju umpan 20, 60, 120 , 180 mm/menit dan rotasi pin tool 1500, 2500, 360 rpm menggunakan holder cylinder tool pin dengan panjang 22mm dan 4mm. Pengujian mekanis yang dilakukan adalah uji tarik, uji kekerasan Vickers mikro dan pengamatan struktur mikro menggunakan mikroskop optik dan SEM. Hasil penelitian menunjukkan bahwa semakin cepat laju umpan, kekuatan tarik semakin rendah, tetapi regangan tarik meningkat. Pada laju umpan 600 mm/menit, kekuatan tarik diperoleh 187 MPa dengan regangan 12,4% dan laju umpan 180 mm/menit kuat tarik 103 MPa dengan regangan 3,17%. Rotasi lebih cepat dari alat pin, kekuatan tarik meningkat, koneksi solid dan menyatu, dan pada 1500 rpm kekuatan tarik dari 112 MPa menjadi 207 MPa pada 3600 rpm. Semakin besar laju umpan dan rotasi alat pin, nilai kekerasan meningkat di mana tingkat umpan 20 mm/menit kekerasan 44,8 VHN menjadi 86,4 VHN pada laju umpan 120 mm/menit, sedangkan alat putaran pin 1500 Kekerasan rpm 51,3 VHN menjadi 69,6 VHN pada 3.600 rpm. AbstractFriction Stir Welding (FSW) is a welding process that utilizes a round tool that impinges on the two pieces of pelates that will be spliced. Welding results are influenced by heat input which is generated between the pin tool with the material of the weld. The purpose of the research was to determine the influence of feed rate and rotation of the pin tool of the FSW on mechanical properties of Aluminum 5052. Metal Sheet connected with the method of the FSW with the variation of the feed rate 20, 60, 120, 180 mm/minute and rotation of the pin tool 1500, 2500, 360 rpm using the holder cylinder 22mm long pin tool 4mm. Mechanical testing carried out are tensile test, hardness test micro Vickers and microstructure observation using optical microscope and SEM. The results showed that the faster the feed rate then the tensile strength more low however, the tensile strain increased. At feed rate of 600 mm/minute tensile strength obtained 187 MPa with a strain of 12.4% and a feed rate of 180 mm/minute tensile strength of 103 MPa with a strain of 3.17%. The Faster rotation of the pin tool, the tensile strength increases, the connection is solid and fused, where at 1500 rpm tensile strength of 112 MPa to 207 MPa at 3600 rpm. The greater the feed rate and rotation of the pin tool then the value of hardness is increasing where the feed rate of 20 mm/minute hardness by 44.8 VHN to 86.4 VHN at a feed rate of 120 mm/minute, while the round pin tool 1500 rpm hardness of 51.3 VHN become 69,6 VHN at 3600 rpm
Pengaruh Ukuran Partikel Terhadap Penyusutan Berat Dan Porositas Keramik Tanah Liat Dengan Aditif Onyx, Giok Dan Zeolit bayu satriya wardhana
FLYWHEEL : Jurnal Teknik Mesin Untirta Volume IV Nomor 1, April 2018
Publisher : Universitas Sultan Ageng Tirtayasa

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (980.331 KB) | DOI: 10.36055/fwl.v1i1.3091

Abstract

Penelitan ini memanfaatkan serpihan batu alam berupa onyx, giok dan zeolit hasil proses manufaktur produk kerajinan. Batu alam  dengan prosentase berat 85%  dicampur dengan 10% lempung dan diberikan tambahan 5% air. Campuran tersebut kemudian ditekan menggunakan silinder hidrolik pada tekanan 2 ton; dengan diameter penampang cetakan 40 mm. Variasi ukuran partikel serbuk didapatkan melalui melakukan proses mesh yaitu sebesar 0,05 μm; 0,045 μm dan 0,03 μm. Hasil dari penekanan tersebut dibiarkan kering selama 3 hari, dan kemudian disinter pada temperatur 1300°C selama 7 jam. Hasil pengujian menunjukkan bahwa ukuran partikel mempengaruhi penyusutan berat saat proses pembakaran. Semakin kecil ukuran partikel, penyusutan berat yang terjadi semakin besar. Penyusutan berat sebelum dan sesudah dibakar berkisar antara 1,78-2,11%. Ukuran partikel juga berpengaruh terhadap porositas spesimen dimana semakin kecil ukuran partikel batu alam menyebabkan porositas yang terjadi pada spesimen semakin besar. Nilai porositas pada spesimen berkisar antara 4,90%-9,07%.
Co-Authors Aris Widyo Nugroho Muhammad Budi Nur Rahman Praisy Meivy K. Rahman, Muhammad Budi Nur Sonief, Achmad As’ad Tjuk Oerbandono Totok Suwanda