Perancangan Injection Blowing Tools dengan Line Slider untuk Mesin Blow Molding dengan Kapasitas Volume 300 Ml

Subkhan Nur Ikhsan, Cahyo Budiyantoro, Totok Suwanda, Adi Nugroho

Abstract


Blow molding machine is a machine that used to produced plastic bottle with injection air system to blowing the soft preform (±100)  at 7 bar pressure of air. They are two main components in injection blowing tools i.e, injection tools to distribute the high pressure air from compressor to the bottle preform and the line sliders to make a mold cavity can moving when the injection process ongoing and finished. To build the injection blowing tools, they are several main material that use, on the line sliders use the main material of low carbon steel type A36 ( 0,25% - 0,29% C) with strip and plate with force of 360 Ksi ( 250 MPa ), and the injection tools use the main material of Aluminium-alloy 4032 (Al, Si 12,5%, Mg, Cu, Ni) because it easy to make an model or profil with reasonable price. The main material on the shafts holder injector and blow pin use stainless steel 304 with max force of 515 MPa. The process to joint between the components are applying the welding model with fillet type and average on high of the neck weld 3 mm and use electrodes of RD-260 which E6013 electrode class with maximum strength 60 Ksi and use the bolt and nuts which average from material of SS 304 with size M6 - M16. In  the process injection, the ratio of large development due to the process injection ( BUR ) is 4 with the size of a bottle preform long 99 mm thick 2 mm and diameter 26 mm.


Keywords


Blow Molding, Injection Blowing Tools, Injector Tools, Line Slider

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References


Affi, Jon., Pengaruh Lapisan Oksida Tambahan pada Elektroda E6013 Terhadap Sifat Mekanik dan Struktur Mikro Lasan Baja Karbon Rendah. Jurnal Teknik Mesin. Universitas Andalas. Sumatra Barat. 2007.

Anggaretno, Gita., Analisis Pengaruh Jenis terhadap Laju Korosi pada Pengelesan Pipa API 5L Grade X65 dengan Media Korosi FeCl3. Jurnal Teknik ITS. Institut Teknologi Sepuluh Nopember. 2012.

Krismasurya, P.A. Pendekatan Six Sigma untuk Mengurangi Defect pada Proses Pembuatan Botol Plastik di Mesin Blow Molding ASB 2000ml. Jurnal Rekayasa dan Manajemen Sistem Industri. 2015; Vol.3 No.1.

Kumar, Sachin. Panda, A. dan Singh, R.K. A Review on Tertiary Recycling of High-Density Polyethylene to Fuel, Resources, Conservation and Recycling. International Journal of Sustainable Resource Management and Enviromental Efficiency. Elsevier. India. 2011.

Majanastra, R.B.S. Analisis Sifat Mekanik dan Struktur Mikro Hasil Proses Hydroforming Pada Material Tembaga (Cu) C84800 dan Aluminium Al 6063. Jurnal Ilmiah Teknik Mesin. 2016: Vol.4, No.2.

Masryukan., Penelitian Sifat Fisis dan Menkanisme Baja Karbon Rendah Akibat Pengaruh Proses Pengarbonan dari Arang Kayu Jati. Jurnal Penelitian: Media Mesin. 2006: Vol.7, No.1.

Mujiarto, Iman., Sifat dan Karakteristik Material Plastik dan Bahan Aditif. Jurnal, Traksi. 2005: Vol.3 No.2, Desember 2005. AMNI Semarang. Semarang,

Murtiono, Arief., Pengaruh Quenching dan Tempering Terhadap Kekerasan dan Kekuatan Tarik Serta Struktur Mikro Baja Karbon Sedang untuk Mata Pisau Pemanen Sawit. Jurnal e-Dinamis, 2012: Volume II, No.2.

Saputra, Trisna Jaya. Elektroda untuk Pengelasan Baja Lunak. Jurnal Teknik 2004: vol.22 no.2.

Surono, U.B. Berbagai Metode Konversi Sampah Plastik Menjadi Bahan Bakar Minyak. Jurnal Jurusan Teknik Mesin. 2013.

Kazmer, David. Simulation of the Blow Molding and Thermoforming Processes. The International Industrial Engineering Conference. Chicago. IL. 1992: 269-275.

Ashby, M.F. Engineering Materials. Volume 2. Butterworth: Heinemann. 1998.

Belcher, Samuel. L., Practical Guide to Injection Blow Molding. South Carolina:Taylor & Francis Group. 2007.

Davis, J.R., Aluminium and Aluminium Alloy. Ohio: ASM International. 1994.

Domininghaus, Hans., Plastics for Engineers: Material, Applications. Processes. New York: Hanser Gardener. 1993.

Harper, Charles A. Plastic Processes. Maryland: Wiley. 2006: 305.

Irawan, Agustinus Purna. Diktat Elemen Mesin. Jurusan Teknik Mesin Fakultas Teknik. Jakarta: Diktat Universitas Tarumanegara. 2009.

Klein, Rolf. Laser Welding of Plastics, First Edition. Maryland: Wiley. 2011.

Kutz, Mayer. Applied Plastics Engineering Handbook. UK: The Boulevard, Elsevier. 2011: 205.

Norman, C. Lee. Understanding Blow Molding, Second Edition. North Carolina: Hanser. 2000.

Rees, Herbert. Understanding Product Design for Injection Molding. Orangeville, Ontario: Hanser. 1994: 8.

Setiawan, Agus. Perencanaan Struktur Baja dengan Metode LRFD (sesuai SNI 03-1729-2002). Semarang: Erlangga. 2008.

Winarto. Teknologi Pengelasan. Indonesia: Indonesian Welding Society. 2011.

Amri, Alfan. Pengaruh Pendinginan Dalam Proses Injection Molding Pembuatan Acetabular Cup Pada Sambungan Hip. Universitas Muhammadiyah Surakarta. 2009.




DOI: https://doi.org/10.18196/jmpm.2120

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