Seismic wave simulation using a 3D printed model of the Los Angeles Basin

Abstract: Studying seismic wave propagation through complex media is crucial to numerous aspects of geophysics and engineering including seismic hazard assessment. In particular, small-scale structure such as sedimentary basins and their edges can have significant effects on high-frequency earthquake ground motion, which is the main cause for the damage to buildings and infrastructure. However, such structural effects are poorly understood due to limitations in numerical and analytical methods. To overcome this challeng… Show more

“…Based on X-ray computerized tomography (micro-CT) and 3DP technology, Zhu et al 14 prepared resin specimens whose characteristics are similar to those of natural volcanic rocks. Park et al 15 printed a geological physical model based on the Los Angeles Basin using stainless steel powder as the printing substrate. Que et al 16 combined the Voronoi diagram and 3DP technology to produce an irregular columnar jointed mold, which enabled the high-precision preparation of columnar jointed rock masses with different dip directions and angles.…”

Quantitative characterization of the failure behavior of dangerous rocks based on the Frozen-Thawing Test

“…Based on X-ray computerized tomography (micro-CT) and 3DP technology, Zhu et al 14 prepared resin specimens whose characteristics are similar to those of natural volcanic rocks. Park et al 15 printed a geological physical model based on the Los Angeles Basin using stainless steel powder as the printing substrate. Que et al 16 combined the Voronoi diagram and 3DP technology to produce an irregular columnar jointed mold, which enabled the high-precision preparation of columnar jointed rock masses with different dip directions and angles.…”

Quantitative characterization of the failure behavior of dangerous rocks based on the Frozen-Thawing Test