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Fundamental Study on Applicability of Powder-Based 3D Printer for Physical Modeling in Rock Mechanics

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Abstract

Applications of 3D printing technology become more widespread in many research fields because of its rapid development and valuable capabilities. In rock mechanics and mining engineering, this technology has the potential to become a useful tool that might help implement a number of research studies previously considered impractical. Most commercial 3D printers cannot print prototypes with mechanical properties that match precisely those of natural rock samples. Therefore, some additional enhancements are required for 3D printers to be effectively utilized for rock mechanics applications. In this study, we printed and studied specimens using a powder-based commercial ZPrinter® 450 with ZP® 150 powder and Zb® 63 binder used as raw materials. The specimens printed by this 3D printer exhibited relatively low strength and ductile behavior, implying that it needs further improvements. Hence, we focused on several ways to determine the best combination of printing options and post-processing including the effects of the printing direction, printing layer thickness, binder saturation level, and heating process on the uniaxial compressive strength (UCS) and stress–strain behavior of the printed samples. The suggested procedures have demonstrated their effectiveness by obtaining the printed samples that behave similarly to the natural rocks with low UCS. Although our optimization methods were particularly successful, further improvements are required to expand 3D printer application in the area of rock mechanics.

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Acknowledgements

This work was supported by the Energy Efficiency And Resources Core Technology Program of the Korea Institute of Energy Technology Evaluation and Planning (KETEP), granted financial resource from the Ministry of Trade, Industry And Energy, Republic of Korea (No. 20132510100040).

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Correspondence to Jae-Joon Song.

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Fereshtenejad, S., Song, JJ. Fundamental Study on Applicability of Powder-Based 3D Printer for Physical Modeling in Rock Mechanics. Rock Mech Rock Eng 49, 2065–2074 (2016). https://doi.org/10.1007/s00603-015-0904-x

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  • DOI: https://doi.org/10.1007/s00603-015-0904-x

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