For the motivation to solve electromagnetic shielding problem of carbon fiber reinforced composites used in the area of aviation, grapheme with high conductivity was used to enhance surface resistance
The use of externally bonded carbon fiber reinforced polymer (CFRP) to strengthen deficient reinforced concrete columns has gained in popularity and has become a viable and cost-effective method.
Carbon fabric reinforced phenolic composites were prepared by dip-coating and hot-press techniques, and then their surface structure and wet tribological properties were investigated in the whole serv
In this study, the effect of pressure-induced flow (PIF) processing on mechanical properties of short carbon fiber (CF) reinforced polyphenylene sulfide (PPS) and strength of CF/PPS interfaces were in
Carbon fabric reinforced phenolic composites were prepared by dip-coating and hot-press techniques, and then their wet tribological properties were investigated during 10000 engagement cycles of wet c
A sandwich structure was designed and fabricated based on carbon fiber reinforced polytriazole skins bonded to an aerogel core for an effective combination of structural-functional integration.The eff
Sisal cellulose fiber (SCF) and sisal fiber cellulose microcrystal, produced with sulfate pulping method and ball-milling approach separately, were in-situ polymerized and dispersed into phenolic resi
石墨烯纳米片(GnPs)和膨胀石墨(EG)作为轻质高导热碳材料被用于增强棕榈酸-硬脂酸(PA-SA)相变材料的热性能。以聚乙烯吡咯烷酮作为分散稳定剂,通过混溶共混和超声处理方法制备了GnPs和EG的含量分别为1wt%,2wt%,4wt% and 8wt%的PA-SA/GnPs和PA-SA/EG复合相变材料。扫描电子显微镜和傅里叶红外光谱表征了GnPs,EG和复合相变材料的微观和化学结构。
分段式风电叶片是解决长叶片运输和制造困难的有效方案,本文综述了分段式风电叶片相关的基础研究和技术发展概况,分析了大型复合材料分段式叶片的连接构造特点和技术优势,展望了分段式风电叶片技术和应用发展趋势,同时介绍了中科院工程热物理所在风电叶片技术研究的最新进展。
从实验及数值模拟两个方面研究梯度波纹缺陷对复合材料层合板刚度影响。采用VARI成型工艺制作复合材料梯度波纹板试样,通过压缩测试测得其杨氏模量和泊松比,并观察试样的失效形式。利用有限元分析软件ANSYS构建复合材料梯度波纹板模型,预测复合材料波纹板的刚度,研究波纹比对刚度的影响。研究结果表明:梯度波纹对复合材料的刚度影响较大,尤其是Ex的下降趋势非常明显,在轴向压缩载荷作用下,试样首先发生分层破坏,