Simulation of incremental sheet forming using partial sheet models

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Date

2017

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Publisher

Elsevier Ltd

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Organizational Unit
Manufacturing Engineering
(2003)
Opened in 2003 with the aim to graduate experts in the field of machine-production, our Department is among the firsts in our country to offer education in English. The Manufacturing Engineering program focuses on the manufacturing technologies that shape materials from raw materials to final products by means of analytical, experimental and numerical modeling methods. First Manufacturing Engineering Program to be engineered by Müdek, our department aims to graduate creative and innovative Manufacturing Engineers that are knowledgeable in the current technology, and are able to use production resources in an effective and sustainable way that never disregards environmental facts. As the first Department to implement the Cooperative Education Program at Atılım University in coordination with institutions from the industry, the Manufacturing Engineering offers a practice-oriented approach in education with its laboratory infrastructure and research opportunities. The curriculum at our department is supported by current engineering software, and catered to creating engineers equipped to meet the needs of the production industry.

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Abstract

Academic and industrial interest in flexible forming has grown rapidly over the last two decades, leading to a large volume of research in this area. However, despite this interest, numerical modelling of the process is still challenging and the mechanics of the process is not yet fully understood. This paper presents fast numerical models for Incremental Sheet Forming. The models are shown to reduce computational time by up to 24 times, with a maximum shape error of 8%. The results suggest that the approach could be used to model process within acceptable time, and could be potentially used to explore the process in more detail using solid (brick) elements.

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Keywords

Incremental Sheet Forming, Numerical modelling

Turkish CoHE Thesis Center URL

Citation

8

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Source

Procedia Engineering -- International Conference on the Technology of Plasticity, ICTP 2017 -- 17 September 2017 through 22 September 2017 -- Hucisko -- 137838

Volume

207

Issue

Start Page

831

End Page

835

URI

https://doi.org/10.1016/j.proeng.2017.10.837
 https://hdl.handle.net/20.500.14411/3820

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Scopus