Biopolymer-bound soil composite (BSC) is a materials technology that uses nature-based polymers to form carbon-negative building materials that are as strong as concrete. For large-scale applications of this material, a quality control system is necessary to minimize defects and avoid wastage. To meet this need, we developed a non-destructive vibration-based sensing system that assesses initial material quality, while still wet, before hardening occurs. We developed a set of artificial intelligence (AI) algorithms that use a set of physics-based features to aid in the smart manufacture of BSC. Our system allows for defect detection early on in the manufacturing process, so that the wet material can be salvaged when defects are identified. Another benefit is that our sensing system enables the monitoring of moisture loss as the material dries out and gains strength. Both of these functions are essential for large-scale deployment of this building material. Barney Miao and colleagues present a vibration-based sensing system that evaluates the quality of biopolymer-bound soil composite while wet. This enables monitoring of strength gain and early detection of defects to support efficient and scalable manufacturing.
Miao et al. (Wed,) studied this question.