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All Journal PROCEEDINGS CONFERENCE ON DESIGN AND MANUFACTURE AND ITS APPLICATION
Dhika Aditya
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Control & Systems Engineering Engineering Industrial & Manufacturing Engineering Materials Science & Nanotechnology Mechanical Engineering

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Perancangan Dust Collector System untuk Proses Buffing Aviora Karunia; Emie Santoso; Dhika Aditya
Proceedings Conference On Design Manufacture Engineering And Its Application Vol 1 No 1 (2017): Conference on Design and Manufacture and Its Aplication
Publisher : Proceedings Conference On Design Manufacture Engineering And Its Application

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Abstract

Sebagai industri yang memproduksi alat musik tiup seperti saxophone, flute, clarinet, recorder, dan pianica.. Dalam proses pembuatannya banyak proses yang dilalui seperti pengkilapan material logam, penghalusan permukaan material, soldering, dan lain sebagainya. Dalam proses tersebut tentu akan menghasilkan debu kotor dan tidak sehat. Dan bilamana kondisi partikulat debu melebihi nilai ambang batas akan menyebabkan gangguan kesehatan, ketidaknyamanan dalam bekerja, dan mengurangi aktivitas kerja. Proses perancangan sistem dust collector ini dimulai dari observasi lapangan, permodelan dust collector existing debgan software Ansys, perhitungan dust collector baru, perancangan dibantu oleh software CAD (Computer Aided Design) untuk pembuatan gambar serta analisis daya hisap menggunakan software ansys. Lalu membandingkan dust collector lama dan dust collector baru.Hasil penelitian menghasilkan bahwa dust collector baru lebih memiliki keunggulan debit hisap dibandingkan dengan dust collector lama dengan penggantian diameter pipa dan desain konstruksi pipa. Jumlah debit yang dapat dihisap pada dust collector lama hanya mencapai 1,16965 m3/s sedangan dust collector baru sebesar 4,43996 m3/s.
Analisis Pengaruh Parameter Pemesinan Terhadap Kekasaran Permukaan Baja A36 Menggunakan Metode Respon Surface anggun cahyani; Pranowo Sidi; Dhika Aditya
Proceedings Conference On Design Manufacture Engineering And Its Application Vol 8 No 1 (2024): Proceedings Conference On Design Manufacture Engineering And Its Application
Publisher : Proceedings Conference On Design Manufacture Engineering And Its Application

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.35991/cdma.v8i1.3034

Abstract

A large material removal rate and minimal surface rigidity are the desired objectives of this study with the right process parameters to obtain a large material response rate and a minimum surface hardness. The parameters used are spindle speed, feed rate and depth of cut. The experimental design is based on the response surface methodology of a box behnken design. The trials were randomized in three replications to produce a more optimal result. The results of the research showed that the influence of the parameter on the material removal rate is spindle speed with 0.442, feed rate with 0,000 and depth of cut with 0,000. parameter feed rate and deep of cut are stated to be significantly influenced. On the other hand, the influence of the parameter on the surface rigidity is that spindle speed with a of 0.017, feed rate with a of 0,000 and depth of cut has a of 0.074. Furthermore, the combination of the most optimal parameters for the material response variable removal rate and surface rigidity is the spindle speed of 2006 RPM, the feed rate of 252 mm/min and the depth of cut of 0.1965 mm.
Co-Authors anggun cahyani Aviora Karunia Pranowo Sidi Santoso, Emie