砂型3D打印材料在岩体物理模型试验中的应用研究及展望

doi:10.11896/cldb.22120133

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Abstract The difficulty in obtaining rock samples with highly consistent internal structures and the challenges of fabricating prefabricated defects have long been critical issues in indoor rock physics experiments. As an advanced manufacturing technology that has rapidly developed in recent years, 3D printing offers an effective method for creating complex structures. Numerous researchers have applied this technology in indoor rock physics experiments. To develop 3D printed rock models that closely mimic the microstructural and brittle characteristics of natural rocks, scholars have employed sand-type materials for printing these models, aiming to substitute natural rocks in experiments. Studies have confirmed that sand-type 3D printing materials exhibit brittle characteristics, surface roughness, microstructural features, and crack propagation patterns similar to those of natural rock materials, thus laying the foundation for conducting indoor rock physics experiments with sand-type 3D printed rock models. Based on recent domestic and international research and our research group's findings over the past six years, we have summarized and analyzed the research achievements of sand-type 3D printed rock models in indoor rock experiments. We have identified existing problems and limitations in current research and provided insights into the future prospects of sand-type 3D printing materials in indoor rock physics experiments.

Key words： rock mechanics rock-physical model 3D printing sand-type material mechanical property crack propagation

Published: 25 June 2024 Online: 2024-07-17

CLC number:

TU45

Fund:Fundamental Research Funds for the Central Universities, CHD (300102282717) and the Youth Innovation Team of Shaanxi Universities(〔2022〕943).

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	Articles by authors
	YU Chen
	TIAN Wei
	WANG Jie
	GAO Jinfeng

Cite this article:

YU Chen,TIAN Wei,WANG Jie, et al. Application Research and Prospect of Sand-type 3D Printing Material in Rock Physical Model Test[J]. Materials Reports, 2024, 38(12): 22120133-9.

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http://www.mater-rep.com/EN/10.11896/cldb.22120133 OR http://www.mater-rep.com/EN/Y2024/V38/I12/22120133

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