Material jetting additive manufacturing: An experimental study using designed metrological benchmarks

•Customized benchmarks were designed to characterize and establish the process capability of material jetting AM.•Metrological studies were conducted to determine the effect of process parameters on dimensional accuracy.•Design limitations on special features such as thin walls and assembly-free par...

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Bibliographic Details
Published inPrecision engineering Vol. 50; pp. 275 - 285
Main Authors Yap, Yee Ling, Wang, Chengcheng, Sing, Swee Leong, Dikshit, Vishwesh, Yeong, Wai Yee, Wei, Jun
Format Journal Article
LanguageEnglish
Published Elsevier Inc 01.10.2017
Subjects
3D Printing
Additive manufacturing
Inkjet printing
Material jetting
Metrology
Metrology
3D Printing
Inkjet printing
Material jetting
Additive manufacturing
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Summary:•Customized benchmarks were designed to characterize and establish the process capability of material jetting AM.•Metrological studies were conducted to determine the effect of process parameters on dimensional accuracy.•Design limitations on special features such as thin walls and assembly-free parts fabricated using different build orientations were evaluated. Additive manufacturing (AM) technique allows the creation of parts with a high degree of design complexity by building three-dimensional (3D) parts layer-by-layer. Many of the current restrictions of design for manufacturing (DFM) as well as design for assembly (DFA) are no longer applicable for AM due to the lack of needs for tooling. Instead, it is critical to establish the manufacturing limits and design guidelines to achieve optimal production outcomes. This can be achieved through manipulation of process parameters. The purpose of this paper is to establish a systematic methodology for investigating the process capability of material jetting AM techniques by using specially designed benchmark artifacts. In this study, three customized benchmarks were designed to characterize and establish the process capability of material jetting AM techniques. Each of the benchmarks was designed for different purposes. Using a benchmark, metrological studies were conducted to determine the effect of process parameters on the dimensional accuracy of fabricated part. The design limitations on special features such as thin walls and assembly-free parts fabricated using different build orientations were also evaluated.
ISSN:0141-6359
1873-2372
DOI:10.1016/j.precisioneng.2017.05.015