期刊
RAPID PROTOTYPING JOURNAL
卷 23, 期 6, 页码 973-982出版社
EMERALD GROUP PUBLISHING LTD
DOI: 10.1108/RPJ-03-2016-0033
关键词
Mechanical properties; Fused deposition modelling; Polyamide
资金
- National Natural Science Foundation of China [11574331]
- Ningbo Science & Technology Bureau [2015A610017, 2015B11002]
- Zhejiang Key R D program [2015C01SA330002]
Purpose - This work aims to evaluate the influence of rheological properties of building materials on the bonding quality and ultimate tensile strength in the fused deposition modeling (FDM) process, through the investigation of parts printed by semi-crystalline and amorphous resins. Little information is currently available about the influence of the crystalline nature on FDM-printed part quality. Design/methodology/approach - Semi-crystalline polyamide 12 and amorphous acrylonitrile butadiene styrene (ABS) were used to assess the influence of rheological properties on bonding quality and the tensile strength, by varying three important process parameters: materials, liquefier temperature and raster orientation. A fractography of both tensile and freeze-fractured samples was also investigated. Findings - The rheological properties, mainly the melt viscosity, were found to have a significant influence on the bonding quality of fused filaments. Better bonding quality and higher tensile strength of FDM parts printed with semi-crystalline PA12, as compared with amorphous ABS, are suggested to be a result of higher initial sintering rates owing to the lower melt viscosity of PA12 at low shear rates. Near-full dense PA12 parts were obtained by FDM. Originality/value - This project provides a variety of data and insight regarding the effect of materials properties on the mechanical performance of FDM-printed parts. The results showed that FDM technique allows the production of PA12 parts with adequate mechanical performance, overcoming the greatest limitation of a dependence on amorphous thermoplastics as a feedstock for the production of prototypes.
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