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Research on GMAW based non-supporting thin-wall structure manufacturing
Research on GMAW based non-supporting thin-wall structure manufacturing
by Jin, Jia’ao , Liu, Bing , Zhou, Zeyu , Shen, Hongyao , Deng, Rongxin , Fu, Jianzhong
in 3-D printers / Additive manufacturing / Coordination compounds / Decomposition / Elbow (anatomy) / Finite element method / Gas metal arc welding / Industrial applications / Mesh generation / Methods / Optimization / Rapid prototyping / Robot arms / Scalars / Surface properties / Thin wall structures / Workpieces
2021
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Research on GMAW based non-supporting thin-wall structure manufacturing
by Jin, Jia’ao , Liu, Bing , Zhou, Zeyu , Shen, Hongyao , Deng, Rongxin , Fu, Jianzhong
in 3-D printers / Additive manufacturing / Coordination compounds / Decomposition / Elbow (anatomy) / Finite element method / Gas metal arc welding / Industrial applications / Mesh generation / Methods / Optimization / Rapid prototyping / Robot arms / Scalars / Surface properties / Thin wall structures / Workpieces
2021
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Research on GMAW based non-supporting thin-wall structure manufacturing
Research on GMAW based non-supporting thin-wall structure manufacturing
by Jin, Jia’ao , Liu, Bing , Zhou, Zeyu , Shen, Hongyao , Deng, Rongxin , Fu, Jianzhong
in 3-D printers / Additive manufacturing / Coordination compounds / Decomposition / Elbow (anatomy) / Finite element method / Gas metal arc welding / Industrial applications / Mesh generation / Methods / Optimization / Rapid prototyping / Robot arms / Scalars / Surface properties / Thin wall structures / Workpieces
2021

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Mohammed Bin Rashid Library /
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Research on GMAW based non-supporting thin-wall structure manufacturing
Research on GMAW based non-supporting thin-wall structure manufacturing
Journal Article

Research on GMAW based non-supporting thin-wall structure manufacturing

Jin, Jia’ao,
Liu, Bing,
Zhou, Zeyu,
Shen, Hongyao,
Deng, Rongxin,
Fu, Jianzhong
2021
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Overview
Purpose Additive manufacturing based on arc welding is a fast and effective way to fabricate complex and irregular metal workpieces. Thin-wall metal structures are widely used in the industry. However, it is difficult to realize support-free freeform thin-wall structures. This paper aims to propose a new method of non-supporting thin-wall structure (NSTWS) manufacturing by gas metal arc welding (GMAW) with the help of a multi-degree of freedom robot arm. Design/methodology/approach This study uses the geodesic distance on the triangular mesh to build a scalar field, and then the equidistant iso-polylines are obtained, which are used as welding paths for thin-wall structures. Focusing on the possible problems of interference and the violent variation of the printing directions, this paper proposes two types of methods to partition the model mesh and generate new printable iso-polylines on the split meshes. Findings It is found that irregular thin-wall models such as an elbow, a vase or a transition structure can be deposited without any support and with a good surface quality after applying the methods. Originality/value The experiments producing irregular models illustrate the feasibility and effectiveness of the methods to fabricate NSTWSs, which could provide guidance to some industrial applications.
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Publisher
Emerald Publishing Limited,Emerald Group Publishing Limited
Subject

3-D printers

/ Additive manufacturing

/ Coordination compounds

/ Decomposition

/ Elbow (anatomy)

/ Finite element method

/ Gas metal arc welding

/ Industrial applications

/ Mesh generation

/ Methods

/ Optimization

/ Rapid prototyping

/ Robot arms

/ Scalars

/ Surface properties

/ Thin wall structures

/ Workpieces

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