Sintering Parameter Investigation for Bimetallic Stainless Steel 316L/Inconel 718 Composite Printed by Dual-Nozzle Fused Deposition Modeling
Abstract
Fused deposition modeling (FDM) nowadays offers promising future applications for fabricating not only thermoplastic-based polymers but also composite PLA/Metal alloy materials, this capability bridges the need for metallic components in complex manufacturing processes. The research is to explore the manufacturability of multi-metal parts by printing green bodies of PLA/multi-metal objects, carrying these objects to the debinding process, and varying the sintering parameters. Three different sample types of SS316L part, Inconel 718 part, and bimetallic composite of SS316L/IN718 were effectively printed. After the debinding process, the printed parts (green bodies), were isothermally sintered in non-vacuum chamber to investigate the fusion behavior at four different temperatures in the range of 1270°C -1530°C for 12 hours and slowly cooled in the furnace. All samples was assessed including geometrical assessment to measure the shrinkage, characterization (XRD) to identify the crystallinity of the compound, and microstructural evolution (Optical microscopy and SEM) to explore the porosity and morphology on the surface. The hardness of each sample types was measured and compared. The sintering parameter was optimized according to the microstructural evaluation on the interface of SS316L/IN718 composite. The investigation indicated that the de-binding of all the samples was effectively succeeded through less weight until 16% when the PLA of green bodies was successfully evaporated. The morphology result shows evidence of an effective sintering process to have the grain boundaries in all samples, while multi-metal parts clearly displayed the interface. Furthermore, the result of XRD shows the tendency of lower crystallinity in SS316L parts, whilst IN718 has a high crystallinity. The optimal sintering temperature for SS316L/IN718 parts is 1500 ⁰C. The hardness test concludes that the higher sintering temperature gives a higher hardness result. This study highlights the successful sintering of a bimetallic stainless steel 316L/Inconel 718 composite, fabricated via dual-nozzle fused deposition modeling, in a non-vacuum environment at 1500°C. The resulting material displayed maximum hardness values of 872 HV for SS316L and 755.5 HV for IN718, with both materials exhibiting excellent fusion without any cracks.
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- Accepted or Published Version
- DOI:
- Digital Object Identifier (open in new tab) 10.1108/RPJ-04-2024-0163
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- Category:
- Articles
- Type:
- artykuły w czasopismach
- Published in:
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RAPID PROTOTYPING JOURNAL
no. 30,
pages 1624 - 1637,
ISSN: 1355-2546 - Language:
- English
- Publication year:
- 2024
- Bibliographic description:
- Jiang C., Masrurotin M., Ramezani M., Wibisono A. T., Toyserkani E., Macek W.: Sintering Parameter Investigation for Bimetallic Stainless Steel 316L/Inconel 718 Composite Printed by Dual-Nozzle Fused Deposition Modeling// RAPID PROTOTYPING JOURNAL -Vol. 30,iss. 8 (2024), s.1624-1637
- DOI:
- Digital Object Identifier (open in new tab) 10.1108/rpj-04-2024-0163
- Sources of funding:
-
- Free publication
- Verified by:
- Gdańsk University of Technology
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