论文标题
基于月球土壤模拟物的超容器含量热塑性复合材料的压实自组装
Compaction Self-Assembly of Ultralow-Binder-Content Thermoplastic Composites Based on Lunar Soil Simulant
论文作者
论文摘要
在最近的一项研究中,我们开发了基于月球土壤模拟剂和热固性粘合剂的超减肥(UBC)结构材料。在当前的研究中,我们研究了热塑性粘合剂。与热眠者相比,晚期热塑性塑料可能更具紫外线,更耐用,更健壮和可回收。我们的主要技术是压实自组装(CSA)。通过仅使用〜4 wt%的聚醚酮酮(PEKK)粘合剂,热塑性 - 粘合剂UBC复合材料比典型的钢增强混凝土强。 CSA操作与固化过程分开。这项研究可能会为月球上的大规模结构提供重要的原位资源利用方法。
In a recent study, we developed ultralow-binder-content (UBC) structural materials based on lunar soil simulant and thermoset binders. In the current research, we investigated thermoplastic binders. Compared to thermosets, advanced thermoplastics could be more UV resistant, more durable, more robust, and recyclable. Our main technology is the compaction self-assembly (CSA). By using only ~4 wt% polyetherketoneketone (PEKK) binder, the thermoplastic-binder UBC composite was stronger than typical steel-reinforced concrete. The CSA operation was separate from the curing process. This study may provide an important in-situ resource utilization method for large-scale construction on Moon.
