3D printing with earth-based materials is emerging as a sustainable building method; however, challenges remain regarding strength, thermal performance, and both logistical and environmental viability. This study aims to optimize the passive thermal performance and facilitate the industrial applicability of printed envelopes through advanced material and geometric design; implementing a mass-customizable computational toolpath framework, and refining the printing processing parameters. The design approach is guided by experimental exploration and the integration of state-of-the-art knowledge.

中文翻译：

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3D 打印土纤维包络：热性能和工业适用性的优化

使用地球材料进行 3D 打印正在成为一种可持续的建筑方法;然而，在强度、热性能以及物流和环境可行性方面仍然存在挑战。本研究旨在通过先进的材料和几何设计优化被动热性能并促进印刷信封的工业适用性;实施批量可定制的计算刀具路径框架，并优化打印加工参数。设计方法以实验探索和最新知识的整合为指导。