Determining the yield stress of a Biopolymer-bound Soil Composite for extrusion-based 3D printing applications

Biggerstaff Adrian; Fuller Gerald; Lepech Michael; Loftus David

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Determining the yield stress of a Biopolymer-bound Soil Composite for extrusion-based 3D printing applications

机译：基于挤出的3D印刷应用确定生物聚合物结合土复合材料的屈服应力

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Biopolymer-bound Soil Composite (BSC) is a novel class of construction materials with potential use in extraterrestrial infrastructure development and more sustainable construction on Earth. Little is known about the rheological properties of this new material and its suitability for extrusion-based 3D printing (E3DP). This paper presents methods for testing BSC yield stress and proposes hydrodynamic and frictional yield stress models for predicting the static and dynamic yield stress of BSC mixtures. Using experimental results, a soil volume fraction range for BSC is identified that may be suitable for E3DP based on extrudability and shape stability requirements.

机译：生物聚合物绑定的土壤复合材料（BSC）是一种新型的建筑材料，具有各外星基础设施开发和地球上更可持续的建筑。关于这种新材料的流变性质，对基于挤出的3D印刷（E3DP）的适用性很少。本文介绍了用于测试BSC产量应激的方法，并提出了用于预测BSC混合物的静态和动态屈服应力的流体动力学和摩擦屈服应力模型。使用实验结果，鉴定了BSC的土壤体积分数范围，其可基于耐挤出性和形状稳定性要求适用于E3DP。

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《Construction and Building Materials》 |2021年第25期|124730.1-124730.8|共8页
作者
Biggerstaff Adrian; Fuller Gerald; Lepech Michael; Loftus David;
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作者单位

Stanford Univ Dept Civil & Environm Engn 473 Via Ortega Stanford CA 94305 USA;

Stanford Univ Dept Chem Engn 443 Via Ortega Stanford CA 94305 USA;

Stanford Univ Dept Civil & Environm Engn 473 Via Ortega Stanford CA 94305 USA;

NASA Ames Res Ctr Space Biosci Res Div Mountain View CA 94035 USA;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
3D Printing; Yield stress; Biopolymer-bound Soil Composite (BSC); Rheology;

机译：3D打印;屈服应力;生物聚合物结合的土壤复合物（BSC）;流变学;

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Determining the yield stress of a Biopolymer-bound Soil Composite for extrusion-based 3D printing applications

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