排序方式: 共有70条查询结果,搜索用时 812 毫秒
61.
声纳的探测误差模型是声纳仿真的核心技术。针对现有的声纳误差白噪声模型仿真逼真度低的问题,提出了基于贝叶斯混合源分离方法,建立了声纳的探测误差模型,提高了声纳误差模型的性能。与传统的白噪声仿真方法相比,基于贝叶斯混合源分离方法的声纳误差仿真模型具有较好的逼真度,可以有效地对声纳探测误差进行建模和预测。 相似文献
62.
Ceramic reinforced metal matrix nanocomposites are widely used in aerospace and auto industries due to their enhanced mechanical and physical properties. In this research, we investigate the mechanical properties of aluminum/Nano-silica composites through experiments and simulations. Aluminum/Nano-silica composite samples with different weight percentages of silica nanoparticles are prepared via powder metallurgy. In this method, Nano-silica and aluminum powders are mixed and compressed in a mold, followed by sintering at high temperatures. Uniaxial tensile testing of the nanocomposite samples shows that adding one percent of Nano-silica causes a considerable increase in mechanical properties of nanocomposite compared to pure aluminum. A computational micromechanical model, based on a representative volume element of aluminum/silica nanocomposite, is developed in a commercial finite element software. The model employs an elastoplastic material model along with a ductile damage model for aluminum matrix and linear elastic model for nano-silica particles. Via careful determination of model parameters from the experimental results of pure aluminum samples prepared by powder metallurgy, the proposed computational model has shown satisfactory agreement with experiments. The validated computational model can be used to perform a parametric study to optimize the micro-structure of nanocomposite for enhanced mechanical properties. 相似文献
63.
测试了C/SiC复合材料在高温空气下的压缩、弯曲和拉伸性能,利用扫描电子显微镜分析复合材料在室温与高温条件下的断口微观形貌。结果表明:从室温升温到1 000 ℃测试温度时,C/SiC复合材料的压缩强度由247 MPa降低至78 MPa,性能降低68%;弯曲强度由480 MPa降低至277 MPa,性能降低42%;拉伸强度由247 MPa降低至152 MPa,性能降低38%。高温氧化导致界面退化,损伤材料基体与碳纤维结构,加剧了纤维断裂程度,改变了纤维与基体的结合状态,纤维增韧机制逐渐消失,导致复合材料性能下降。 相似文献
64.
以聚碳硅烷(PCS)为先驱体,采用聚合物浸渍裂解法(PIP)分别制备得到T300碳纤维和JC2#碳纤维增强C/SiC复合材料。JC2#C/SiC复合材料具有优异的力学性能,抗弯强度和断裂韧性分别达到662MPa和19.5MPa.m1/2;T300 C/SiC复合材料表现出低强度、高脆性,其抗弯强度和断裂韧性不足前者的四分之一。T300 C/SiC复合材料低性能的根本原因在于T300纤维在PCS裂解过程中性能严重下降,复合材料中纤维与基体间存在强界面结合是另一个影响因素。 相似文献
65.
《防务技术》2020,16(4):947-955
This study is undertaken to explore the use of natural fiber Jute-epoxy (JE), Jute-epoxy-rubber (JRE) sandwich composite for ballistic energy absorption. Energy absorbed and residual velocities for these composites are evaluated analytically and through Finite Element Analysis (FEA). FE analysis of JE plates is carried out for different thicknesses (3, 5, 10 and 15 mm). JE plates and JRE sandwiches having the same thickness (15 mm) are fabricated and tested to measure residual velocity and energy absorbed. The analytical results are found to agree well with the results of FE analysis with a maximum error of 9%. The study on JE composite plate reveals that thickness influences the energy absorption. Experimental and FE analysis study showed that JRE sandwiches have better energy absorption than JE plates. Energy absorption of a JRE sandwich is about 71% greater than JE plates. Damages obtained from FEA and testing are in good agreement. SEM analysis confirms composites failed by fiber rupture and fragmentation. 相似文献
66.
《防务技术》2020,16(6):1098-1105
Due to notable characteristics, sustainability concept and environmental issues, hybridisation natural with synthetic fibres to fabricate composites have been rapidly gaining market share in different applications (structural, military, aerospace and automotive vehicles). Compression, tension and fatigue tests of various stacking sequences of plain jute/carbon reinforced (PVB) polyvinyl butyral by hot hydraulic press technique were experimentally conducted. Six types of fabricated composites with various constituents (jute, carbon and their hybrids) were fabricated and tested. Notably, fatigue lifetime of hybrids increases with increasing the carbon content relative to the jute fibre content. On the other hand, Jute composites possess high strain compared to pure carbon composite, which gives an overall improvement in mechanical behaviours. Interestingly, H1 hybrid with Carbon/Jute/Carbon sequences offers similar fatigue stiffness behaviour of H3 hybrid with Carbon/Jute/Carbon/Jute sequences when subjected to cyclic loading. Carbon composite (C) exhibited the highest fatigue resistance, whiles jute composite (J) possessed the highest strain and semi brittle trends in both mechanical and fatigue performance. Results concluded that plain jute fibres could partially replace high-cost synthetic carbon fibres to produce more eco-friendly hybrids to be utilised in different composites industries. 相似文献
67.
对几种类型的碳纤维在Cf/SiC复合材料制备工艺中的先驱体中氧含量及高温热处理和PCS浸渍裂解处理过程中造成的损伤进行了考察,并探讨了损伤机制.结果表明,碳纤维石墨化程度和表面状态的差别会对其在复合材料制备过程中的损伤程度产生影响.石墨化程度高的M40JB碳纤维损伤程度较大;表面呈活性的JC1#碳纤维对外界条件的变化较为敏感;而石墨化程度不高而表面不活泼的JC2#碳纤维则损伤程度较小且较稳定. 相似文献
68.
研究了不同温度、湿度环境下,夹层结构石英纤维增强环氧树脂面板/PMI泡沫夹层结构复合材料及其芯材和面板的吸湿规律。将石英纤维增强环氧树脂面板、PMI泡沫、复合材料面板/PMI泡沫夹层结构试样在不同吸湿环境中进行吸湿处理后,对其吸湿行为进行分析。结果表明:浸水环境下面板、PMI泡沫、PMI泡沫夹层结构复合材料都表现出更为严重的吸湿行为;在潮湿环境中,50℃至70℃范围内,温度越高,试样在吸湿过程中的质量损失越多,最终的饱和吸湿率越小;在60℃以内的潮湿环境中,PMI泡沫夹层结构复合材料的饱和吸湿率可以通过相同环境下面板复合材料和PMI泡沫的吸湿率进行预测。 相似文献
69.
为准确评估在内压作用下纤维复合材料修复含裂纹管道的有效性及失效压力,建立复合材料修复后裂纹管道的失效数值模型。该数值模型通过扩展有限元法模拟管道裂纹的扩展,利用cohesive单元模拟胶层的脱粘失效,复合材料的失效通过最大应力失效准则进行判定。通过静水压爆裂试验对所提失效数值模型进行验证,实验结果与数值计算结果具有较好的一致性。失效数值分析结果表明:当内压增大至一定值后,未修复管道的初始裂纹沿轴向及壁厚方向逐渐扩展,进而使得管道内壁单元扩展成真实裂纹,此时真实裂纹贯穿整个壁厚方向,即认为裂纹管道发生爆裂失效,爆裂失效压力随初始裂纹半长呈指数形式下降。复合材料修复裂纹管道的不同修复工况呈现相同的失效模式:在单调递增的内压作用下,管道内表面首先出现黏结裂纹,而后其外表面裂纹张开趋势急剧上升,使得复合材料层应力急剧上升,达到极限强度而失效。且对于不同的初始裂纹尺寸,存在对应的复合材料缠绕层数临界值。 相似文献
70.
采用先驱体转化法制备了三维石英纤维增强氮化物基复合材料(3D SiO2f/Si3N4-BN),用等离子射流烧蚀方法研究了复合材料的烧蚀性能,运用扫描电镜及能谱仪对烧蚀表面微观形貌进行了观察和分析。结果表明氮化物基复合材料在高压高热流等离子体烧蚀下线烧蚀率为0.91mm/s,石英纤维熔融并被吹除带走了大量的热量,熔融层抑制了基体的机械剥蚀。基体由于强度高、升华温度高,延缓了熔融层的吹除,表明氮化物基复合材料是一种良好的耐高温烧蚀透波材料。 相似文献