Evaluation Of Fiber Reinforced Nanostructured Perlite-cementitious Surface Compounds For Building Skin Applications

H. Aglan; M. Morsy; A. Allie; F. Fouad

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Evaluation Of Fiber Reinforced Nanostructured Perlite-cementitious Surface Compounds For Building Skin Applications

机译：纤维增强纳米结构珍珠岩水泥质表面化合物在建筑皮肤中的应用评估

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摘要

The effeet of short polypropylene (PP) liber loading on the fracture resistance and indirect tensile strength of nanostructured perlite-cementitious surface compounds (NPCSC) is studied. Loadings of 1%. 2%, 3% and 4%, by weight, of short PP fiber were added to the control mix. An increase of 34% in the indirect tensile strength was achieved at a PP fiber loading of 2% by weight. A fourfold increase in the fracture resistance was achieved at a fiber loading between 3% and 4%. Siding panels 1.6 cm thick was constructed and no cracking was observed after 6 months in the fiber reinforced panels, while cracks emanating from the outer edges of the panels without PP fibers were observed.

机译：研究了短聚丙烯（PP）释放载荷对纳米结构珍珠岩-水泥质表面化合物（NPCSC）的抗断裂性和间接拉伸强度的影响。装载量为1％。将按重量计2％，3％和4％的短PP纤维添加到对照混合物中。 PP纤维负载量为2％（重量）时，间接拉伸强度提高了34％。在3％和4％之间的纤维负载下，抗断裂性提高了四倍。建造了1.6厘米厚的侧板，在纤维增强板中放置6个月后未观察到裂纹，同时观察到了从无PP纤维的板的外边缘产生的裂纹。

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来源
《Construction and Building Materials》 |2009年第1期|p.138-145|共8页
作者
H. Aglan; M. Morsy; A. Allie; F. Fouad;
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作者单位

Department of Mechanical Engineering. 218 Foster Hall, Tuskegee Unirersity, Tuskegee, AL 36088, 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
中图分类建筑材料;
关键词
nanostruclurcd perlite-cementitious surface compounds; short polypropylene liber reinforcement; fracture resistance; thermal resistivity; uv reflectivity;

机译：纳米结构珍珠岩-胶凝表面化合物;短聚丙烯游离增强;抗断裂性;耐热性;紫外反射率;

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Evaluation Of Fiber Reinforced Nanostructured Perlite-cementitious Surface Compounds For Building Skin Applications

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