ANALISA NILAI KOMPLEKSITAS PERAKITAN YANG DIPENGARUHI OLEH URUTAN KOMPONEN
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Jul 28, 2020
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Abstract
Tujuan dari Design for Assembly (DFA) adalah melakukan sebuah pengembangan terhadap elemen-elemen yang mempengaruhi proses perakitan (assembly) sehingga waktu perakitan menjadi singkat atau berkurang. Guna mengurangi atau mengefisienkan waktu perakitan, disamping material yang digunakan oleh setiap komponen urutan komponen ketika proses handling maupun insertion sangat berpengaruh terhadap besarnya pembentukan sudut alfa (α) dan beta (β). Dimana kedua unsur tersebut merupakan landasan atau acuan untuk menentukan alokasi waktu dari setiap komponen pada saat proses perakitan. Dalam melakukan proses perhitungan terlebih dahulu dilakukan identifikasi jumlah komponen (N) dan keragaman dari komponen (n) dari sebuah produk yang akan dirakit. Prosedur yang kedua adalah melakukan identifikasi kemungkinan atau peluang urutan komponen dari sebuah produk pada saat proses perakitan. Prosedur yang ketiga adalah menentukan aspek-aspek yang sangat mempengaruhi urutan komponen pada saat proses handling, insertion maupun fastening. Adapun aspek yang mempengaruhi proses handling (Ch) antara lain; shape, geometry, thickness, symmetry, size. Sementara aspek yang mempengaruhi proses insertion (Ci) adalah; holding down, alignment, insertion resistance, accessibility and vision, mechanical fastening processes, non-mechanical fastening processes, non-fastening processes. Selanjutnya dapatlah dihitung indeks kompleksitas (tingkat kesulitan) dari produk yang akan dirakit (CIproduk) dari hasil tersebut dapat dihitung kompleksitas proses perakitan (Cproses assembly) dari setiap kemungkinan yang ada. Nilai indeks kompleksitas dan kompleksitas proses assembly yang diperoleh selanjutnya diranking berdasarkan nilai yang terkecil, dengan asumsi bahwa semakin kecil nilai kompleksitas proses perakitan maka proses perakitan akan relatif mudah dan waktu perakitan akan menjadi singkat.
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How to Cite
Muskita, N. (2020). ANALISA NILAI KOMPLEKSITAS PERAKITAN YANG DIPENGARUHI OLEH URUTAN KOMPONEN. Jurnal Voering, 5(1), 28-33. https://doi.org/10.32531/jvoe.v5i1.218
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This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.
LPPM Politeknik Katolik Saint Paul Sorong
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Sturges, R.H. Jr. and Kilani, M.I., 1992. Towards an integrated design for an assembly evaluation and reasoning system. Computer Aided Design.
Braha, D. and Maimon, O., 1998. The measurement of a design structural and functional complexity. IEEE Transactions on Systems, Man & Cybernetics, Part A (Systems & Humans)
Rodriguez-Toro, C., Jared, G., and Swift, K., 2004. Productdevelopment complexity metrics: a framework for proactive-DFA implementation. In: International design conference , 18–21 May 2004. Dubrovnik.
Rodriguez-Toro, C., Tate, S., Jared, G., and Swift, K, 2002. Shaping the complexity of a design. New Orleans, LA: American Society of Mechanical Engineers.
Rodriguez-Toro, C.A., Tate, S.J., Jared, G.E.M., and Swift, K.G., 2003. Complexity metrics for design (simplicity þ simplicity ¼ complexity). Proceedings of the Institution of Mechanical Engineers, Part B (Journal of Engineering Manufacture).
ElMaraghy, W. H. & Urbanic, R. Jill (2003). Modelling of Manufacturing Systems Complexity, Intelligent Manufacturing Systems (IMS) Centre, Faculty of Engineering University of Windsor, Windsor, Ontario, Canada,
ElMaraghy, W.H, & Urbanic, R. Jill (2006), Modeling of Manufacturing Process Complexity, British Library Cataloguing in Publication Data Advances in design, Springer,
ElMaraghy & S.N.Samy (2010),A Model for Measuring Product Assembly Complexity, Intelligent Manufacturing Systems (IMS) Centre, Faculty of Engineering University of Windsor, Windsor, Ontario, Canada,
Michael F. Ashby (2005), Material Selection in Mechanical Design,Third edition, Elsevier Butterworth-Heinemann,oxford
Granata Material Inspiration , CES EDUPACK 2005 software.
Kalpakjian, Serope (1995). Manufacturing Engineering and Technology, 3rd Edition, Prentice Hall,USA
Hendri, D.S Budiono, Nelce, D. Muskita, Gandjar Kiswanto, Tresna P. Soemardi., 2011. Pengaruh Material Terhadap Indeks Kompleksitas Proses Assembly pada Komponen Otomotif. Departeman Teknik Mesin Universitas Indonesia, Depok. Proceeding SNTTM X