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Jurnal AME (Aplikasi Mekanika dan Energi): Jurnal Ilmiah Teknik Mesin
Published by Universitas Ibn Khaldun Bogor
ISSN : 24603988     EISSN : 25810979     DOI : https://doi.org/10.32832/ame.v8i2
Core Subject : Science, Engineering,
Energy Industrial & Manufacturing Engineering Materials Science & Nanotechnology Mechanical Engineering
AME (Aplikasi Mekanika dan Energi):Jurnal Ilmiah Teknik Mesin merupakan jurnal ilmiah yang berisi hasil penelitian, kajian lapangan, pemikiran atau gagasan yang berkaitan dengan ilmu Teknik Mesin yang tidak terbatas pada Energi, Mekanika Stuktur, Material& Manufaktur, dan Mekatronika.
Arjuna Subject : Teknik (semua kategori) - Teknik Mesin
Articles 6 Documents
 1 
Search results for , issue "Vol. 4 No. 2 (2018)" : 6 Documents clear
PENENTUAN SETTING OPTIMAL MESIN 3D PRINTER BERBASIS FUSED DEPOSITION MODELING MENGGUNAKAN METODE TAGUCHI Prakasa, Anggit; Sutisna, Setya Permana; Ahmad, Anton Royanto
AME (Aplikasi Mekanika dan Energi): Jurnal Ilmiah Teknik Mesin Vol. 4 No. 2 (2018)
Publisher : Universitas Ibn Khaldun Bogor

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (579.36 KB) | DOI: 10.32832/ame.v4i2.1538

Abstract

The 3D printers process is applied to create prototype components, but at the last 3D Printers are often applied as last products. So, high accuracy is required in this case. In this research will find the optimalsetting of the dimensional accuracy 3D printers based fused deposition modeling. The method used isthe Taguchi method, the reason for using this method its efficiency, this is because the OrthogonalArray matrix requires less number of experiments than the classical experimental design. Analysis ofVariance is also needed in this method to see the factors that significantly influence the responsevariable. The results of this study indicate that the factors that significantly influence is printspeed bycontributing 53.08%, flowrate contributes 16.4%, and temperature heater block contributes 3.85% andoptimal setting is temperature heater block 190º, print speed 60mm/s and flowrate 6.28 mm3/s. (A1,C3 dan D2).
SISTEM KONTROL PADA ROBOT PEMINDAH BARANG TIPE CARTESIAN CORDINAT MENGGUNAKAN ARDUINO UNO R3 Darmawan, Dwiki; Sutisna, Setya Permana; Sutoyo, Edi
AME (Aplikasi Mekanika dan Energi): Jurnal Ilmiah Teknik Mesin Vol. 4 No. 2 (2018)
Publisher : Universitas Ibn Khaldun Bogor

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (388.244 KB) | DOI: 10.32832/ame.v4i2.1540

Abstract

Robots are an option to help human jobs address issues of precision, security and flexibility. The robotarm becomes one of the robot types that can help human work. The robot arm controller research isto control the stepper motor's motion according to the command. Desai this cartesian coordinaterobot is 2 axis that is X and Y axis. Control of this robot arm using Visual Basic 6.0 programming forcontrolled robot from PC to arduino Uno R3. Motor driver used is IC A4988, stepper motor movementgot input from PC with software visual basic 6.0. to move the stepper motor. Data sent from PC toArduino Uno R3 is a command from Visial Basic 6.0 with serial communication. The microcomputerreads the serial data input and sends a step value data to the stepper motor driver to move the robotarm. The end result of the robot arm controller research that has been achieved is the robot arm canbe controlled with the command to enter the distance that will be run by stepper motor as themethod of pemograman which is controlled through serial communication with Visual Basic 6.0. Thetest results show an average error 22.26531 for the left and 52.61111 for the right direction on X axiswhile for Y axis -5,36957 for the downward direction and 0.117647 for the upper direction
STUDI KARAKTERISTIK MATERIAL STEM SEPEDA UNTUK PENGEMBANGAN PROTOTIPE STEM SEPEDA BERBASIS LIMBAH PISTON DENGAN VARIASI TEMPERATUR CETAKAN Suganda, Cecep; Sutoyo, Edi; Yuliaji, Dwi
AME (Aplikasi Mekanika dan Energi): Jurnal Ilmiah Teknik Mesin Vol. 4 No. 2 (2018)
Publisher : Universitas Ibn Khaldun Bogor

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (508.354 KB) | DOI: 10.32832/ame.v4i2.1535

Abstract

Bicycle stem is the link between handlebar (handlebar) with steerer tube (fork). Stem one of the bike parts tonote and Each type of bike is different for the size and specifications stemnya. This research aims to. Obtainedcharacterization of alumunium casting material as a material for making stem bikes with casting temperature of700 ° C, and temperature variations of room temperature (30 ° C), 100 ° C, 150 ° C, 200 ° C, and characteristichardness values stem between piston waste material and stem. The piston waste is melted at the meltingfurnace at a temperature of 700 ° C. then cast into the mold. After obtaining the specimen and then testing thematerial characteristics include chemical composition, microstructure, and hardness. The result of the researchafter casting with variation of the molded temperture has different material characteristic values, ie: chemicalcomposition which has no change before and after casting, the microt structure has little porous defect, and thehardness value where the higher the mold temperature the lower the hardness . Conclusions of data processingThe highest value of piston recycled hardness is 93 HV when compared to the hardness of 61.2 HV stem bikematerial, the hardness is more than enough and from the composition test there is a difference of Si 12%composition. Result of micro structure at foundry with 4 variation still have defect of cast (porous andshrinkage). the stam bike hardness test has an average hardness value of 64.2 HV whereas for the hardnessvalue of piston waste casting results show the hardness value of 91 HV with mold temperature 30 ° C, 93 HVwith mold temperture 100 ° C, 89 HV with mold temperature 150 ° C, 87 HV with mold temperature 200 ° C. Thehigher the mold temperature, the lower the hardness of the material.
ANALISA KERUSAKAN BEARING SUSPENTION PREHEATER FAN BERBASIS DATA TEMPERATUR DAN VIBRASI Hartono, Budi; Sutisna, Setya Permana
AME (Aplikasi Mekanika dan Energi): Jurnal Ilmiah Teknik Mesin Vol. 4 No. 2 (2018)
Publisher : Universitas Ibn Khaldun Bogor

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (125.72 KB) | DOI: 10.32832/ame.v4i2.1558

Abstract

Salah satu upaya mengurangi kerugian akibat berhentinya proses produksi clinker/cement secara mendadak akibat kerusakan alat adalah memonitor kondisi peralatan secara terus menerus. Suspention preheater fan adalah salah satu peralatan yang sangat vital pada proses pembuatan clinker dimana salah satu komponennya adalah bearing. Untuk memantau kondisi bearing selama beroperasi maka di pasang peralatan pemantau getaran dan temperatur yang digunakan untuk memantau amplitudo getaran dan temperatur bearing. Berdasarkan hasil pengamatan, amplitudo getaran bearing yang nilainya dibawah 4,5 mm/s dan temperatur dibawah 700 menunjukan kondisi bearing yang masih dalam batas aman untuk beroperai. Sedangkan nilai amplitudo getaran yang mencapai 8,7mm/s dan temperatur 1200C menunjukan kondisi bearing yang sudah tidak aman untuk beroperasi. pada kondisi ini di dapati bearing rusak dan harus diganti. Berdasarkan hasil penelitian ini dapat disimpulkan bahwa ketika terjadi kerusakan pada bearing besar getaran pada mesin SP Fan melonjak hingga melebihi batas aman dan pada saat bersamaan juga terjadi lonjakan temperatur. Terdapat hubungan antara nilai getaran dan temperatur yang disebabkan oleh gesekan antar komponen dalam bearing
ANALISIS KAPASITAS DAN KEKUATAN KONSTRUKSI BLADDER TANK PADA SIRKULASI AIR PANAS SISTEM ORC SOLAR KOLEKTOR R-134a Novianto, Irsan; Gaos, Yogi Sirodz; Alkindi, Hablinur
AME (Aplikasi Mekanika dan Energi): Jurnal Ilmiah Teknik Mesin Vol. 4 No. 2 (2018)
Publisher : Universitas Ibn Khaldun Bogor

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (676.179 KB) | DOI: 10.32832/ame.v4i2.1536

Abstract

This study focused on component in the Organic Rankine Cycle (ORC), Bladder Tank. The calculationmethod is based on the calculation stage of plate thickness to withstand the pressure caused by thecirculation of the ORC system. The material used is SA 106 with 12mm thickness, Shell length 600mm,270mm inner diameter and 95mm Head length. From the calculation results obtained maximumpressure on Shell = 253,8385 psi (17,7 bar g) and pressure at Head equal to = 249,6983 psi (17,2 barg). Bladder Tank Capacity of 38055622,5 mm³ (38,0556 Liter). From result of Pressure Drop simulationgot Head loss equal to = 0,00000066 m.
STRESS ANALYSIS PADA HORIZONTAL AXIS WIND TURBINE BLADE BERBAHAN KAYU Waluyo, Roy
AME (Aplikasi Mekanika dan Energi): Jurnal Ilmiah Teknik Mesin Vol. 4 No. 2 (2018)
Publisher : Universitas Ibn Khaldun Bogor

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (758.132 KB) | DOI: 10.32832/ame.v4i2.1537

Abstract

The blade turbine is a component that experiences a very high stress on a wind turbine. Materialsoften used are aluminum composite, polymer and even steel. Aluminum has a high fatigue. Plasticis very suitable But it requires mold while steel has a great weight. Wood is an alternative materialfor a blade turbine. Because it is lightweight, strong, easily shaped, and has high fatique resistanceand is easy to obtain. In this research, a stress analysis on a blade with balsa wood material withfixed force 5 Newton is applied. The result of analysis by using Autodesk Inventor student version,shows that the minimum Stress that occurs is: 12.1265 N / m ^ 2 and the maximum stress is:955595 N / m ^ 2. The maximum stress occurs at the point / node 390 or the area near theassembly hub or fixed geometry marked in red.

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