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Investigation on mechanical properties regulation of rock-like specimens based on 3D printing and similarity quantification

Duanyang Zhuang, Zexu Ning, Yunmin Chen, Jinlong Li, Qingdong Li, Wenjie Xu

2024International Journal of Mining Science and Technology31 citationsDOIOpen Access PDF

Abstract

3D printing is widely adopted to quickly produce rock mass models with complex structures in batches, improving the consistency and repeatability of physical modeling. It is necessary to regulate the mechanical properties of 3D-printed specimens to make them proportionally similar to natural rocks. This study investigates mechanical properties of 3D-printed rock analogues prepared by furan resin-bonded silica sand particles. The mechanical property regulation of 3D-printed specimens is realized through quantifying its similarity to sandstone, so that analogous deformation characteristics and failure mode are acquired. Considering similarity conversion, uniaxial compressive strength, cohesion and stress–strain relationship curve of 3D-printed specimen are similar to those of sandstone. In the study ranges, the strength of 3D-printed specimen is positively correlated with the additive content, negatively correlated with the sand particle size, and first increases then decreases with the increase of curing temperature. The regulation scheme with optimal similarity quantification index, that is the sand type of 70/140, additive content of 2.5‰ and curing temperature of 81.6 ℃, is determined for preparing 3D-printed sandstone analogues and models. The effectiveness of mechanical property regulation is proved through uniaxial compression contrast tests. This study provides a reference for preparing rock-like specimens and engineering models using 3D printing technology.

Topics & Concepts

3D printingCohesion (chemistry)Materials scienceComposite material3d printedCuring (chemistry)Compressive strengthGeotechnical engineeringGeologyEngineeringBiomedical engineeringChemistryOrganic chemistryInnovations in Concrete and Construction MaterialsAdditive Manufacturing and 3D Printing TechnologiesTunneling and Rock Mechanics