SiO2/炭泡沫和SiC/炭泡沫复合材料的制备及表征

对炭泡沫为支撑骨架的氧化硅气凝胶(SiO₂/炭泡沫)和碳化硅(SiC/炭泡沫)复合材料分别采用XRD、SEM、激光导热仪、万能力学试验机进行物相、微观结构、热学及力学性能方面的表征.结果表明:所制备的SiO₂/炭泡沫与原炭泡沫相比,具备更高的抗压强度(14.95 MPa)和更低的室温热导率(0.44 W·m^-1·K^-1).SiC/炭泡沫材料则保持了较高的抗压强度值(14.66 MPa),其在 1 200 ℃下具备极低的高温热导率(2.18W·m^-1·K^-1).热重分析表明,SiC/炭泡沫在氧化氛围中到610 ℃才发生质量的损失,而内部炭发生完全烧蚀的温度高达844 ℃,这表明该材料的抗氧化性能远好于纯的炭泡沫材料.     

新老混凝土粘结的抗压强度塑性极限分析

对新老混凝土粘结试块进行了抗压强度研究,发现新老混凝土粘结在竖向受压情况下,其抗压强度远低于整浇混凝土的抗压强度.因此,对新老混凝土粘结试块的竖向抗压强度进行相关理论分析,并根据试验,提出了新老混凝土粘结的受压破坏机构;又利用塑性极限分析中的上限定理,得到了新老混凝土粘结抗压强度的理论解.对比理论解与试验值,发现理论解高于试验值,在详细分析原因后,对理论解进行了相应修正.     

复合材料层合板的低速冲击损伤及其剩余压缩强度研究

本文采用理论和实验方法研究了复合材料层合板的低速冲地及其剩余压缩强度。文中利用有限元方法和能量转换原理计算了层合板受到低速冲击的受载最危险状态，以及此时的应力分布；并用Ｔｓａｉ－Ｗｕ张量准则判断损伤情况，对产生损伤的单元进行相应的刚度折减，且作重复计算直至不产生新的损伤为止；最后，对受冲击的层合板还进行剩余压缩强度计算。在实验中，采用激光全息无损检测法测量了层合板的冲击损伤，并对受冲击的层合板进行     

Effect of a Nanoclay on the Mechanical,Thermal and Flame Retardant Properties of Rigid Polyurethane Foam

Water blown rigid polyurethane foams (PUF) with organoclay/organically modified nanoclay (ONC) were prepared and their properties such as density, mechanical, morphological, insulation, thermal and flame retardant properties were studied. In this investigation, the ONC content was varied from 1 to 10 parts per hundred of polyol (php) by weight. It was observed that the compressive strength of ONC filled PUF increased up to 3 php of ONC loading and then it decreased. Wide angle X-ray diffraction and transmission electron microscopy studies indicated the exfoliated dispersion of ONC in PUF. The thermal conductivity of ONC filled PUF decreases up to 5 php and then increases. The glass transition temperature (Tg) of PUF decreases on loading of ONC. The TGA analysis shows that there is slight increase in degradation temperature with increase in ONC loading. The flame retardant properties (LOI and flame spread rate) are improved slightly on addition (3 php) of ONC filled PUF.     

In situ X-ray scattering studies of lyotropic liquid crystalline PBO and PBZT monofilament drawing

The results of a series of novel synchrontron-based in situ x-ray scattering experiments of monofilament fiber drawing from lyotropic solutions of poly(cis-benzoxazole) (PBO) and poly(trans-benzothiazole) (PBZT) are reported. The purpose of the study is to determine orientation and microstructure development in the draw zone as a function of shear rate in the capillary die, and spin draw ratio (SDR). The transition of the extrudate from opaque to the transparent is complete at about a SDR = 3 and f of 0.9. The filament orientation parameter (f) was found to depend strongly on spin draw ratio, but not shear rate. The orientation was found to increase down the extrudate toward completion of the draw down as one proceeds further from the die face up to an extrudate length of 3.8 cm. Coherence lengths on the order of 19 nm (axial), and 4.5 nm (lateral) have been observed. These “microdomain” sizes are consistent with the “crystallite” sizes typically observed in coagulated fiber. The occurrence of these microdomains in the draw zone as a precursor to the microfibrillar structure is believed to be the origin of low filament compressive strength. © 1994 John Wiley & Sons, Inc.     

Effect of nano‐modified SiO2/Al2O3 mixed‐matrix micro‐composite fillers on thermal,mechanical, and tribological properties of epoxy polymers

Thermo‐mechanically durable industrial polymer nanocomposites have great demand as structural components. In this work, highly competent filler design is processed via nano‐modified of micronic SiO₂/Al₂O₃ particulate ceramics and studied its influence on the rheology, glass transition temperature, composite microstructure, thermal conductivity, mechanical strength, micro hardness, and tribology properties. Composites were fabricated with different proportions of nano‐modified micro‐composite fillers in epoxy matrix at as much possible filler loadings. Results revealed that nano‐modified SiO₂/Al₂O₃ micro‐composite fillers enhanced inter‐particle network and offer benefits like homogeneous microstructures and increased thermal conductivity. Epoxy composites attained thermal conductivity of 0.8 W/mK at 46% filler loading. Mechanical strength and bulk hardness were reached to higher values on the incorporation of nano‐modified fillers. Tribology study revealed an increased specific wear rate and decreased friction coefficient in such fillers. The study is significant in a way that the design of nano‐modified mixed‐matrix micro‐composite fillers are effective where a high loading is much easier, which is critical for achieving desired thermal and mechanical properties for any engineering applications. Copyright © 2016 John Wiley & Sons, Ltd.     

碳纤维增韧的陶瓷基复合材料在高温高应变率下的压缩力学行为

利用高温电子万能试验机和具有高温同步自组装功能的Hopkinson压杆对二维C/SiC复合材料 进行了应变率为10-4~103s-1,温度为293~1273K下的单轴压缩力学性能测试。实验结果表明:二维C/ SiC复合材料破坏时并未表现出典型的脆性破坏,而是在应力达到压缩强度时出现了显著的应变软化,在经 历了较大的变形后才最终破坏,同时材料还表现出良好的高温承载能力及一定的温度和应变率依赖性。随着 温度的升高,复合材料的压缩强度呈降低的趋势。与准静态下室温压缩时相比,材料在1273K 时的压缩强 度的降低程度不超过30%,但压缩强度对应变率的敏感性随着温度的升高而增大。由于高温下试样氧化,C/ SiC复合材料压缩强度对应变率的敏感性在温度为1073K时显著增大。     

骨料堆积注浆再生混凝土的抗压强度及其影响因素

为提高再生粗骨料利用率及降低再生混凝土质量控制难度,本文采用骨料堆积注浆法制备早强型再生混凝土。利用Griffith断裂力学理论及"实际水料比与名义水料比"的差异,分析了骨料性能对混凝土强度的影响,并通过扫描电子显微镜(SEM)分析了再生混凝土界面过渡区(interfacial transition zone,ITZ)的特点。结果表明,骨料强度及吸水率均对再生混凝土强度具有影响,且骨料吸水作用对混凝土强度提高具有促进作用,再生混凝土的界面结合强度较高。     

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在海冰试验研究的基础上 建立了一个海冰的数学模型，根据此模型推导出海冰的本构关系，并通过试验验证了此本 构关系的正确性. 根据海冰的本构关系拟合出海冰的最大抗压强度和应变率的关系曲线并推 导出海冰最大抗压强度和应变率关系的公式，并用试验数据验证了此公式的正确性.     

EFFECT OF SPECIMEN ASPECT RATIO ON FATIGUE LIFE OF CLOSED CELL Al-Si-Ca ALLOY FOAM

Quasi-static and compressive fatigue tests on the closed cell Al-Si-Ca alloy foam specimens with three different aspect ratios were performed. It turned out that the onset of cyclic shortening of foam with a lower aspect ratio took place earlier and the fatigue strength was lower compared with the specimen with a higher aspect ratio, although all the dimensions of specimen satisfied the seven times the cell size criterion, while the quasi-static stress-strain curves were almost same having same Young＇s modulus, yield stress and plateau stress. Therefore, the seven times the cell size criterion for the quasi-static compression behavior was not applicable to the fatigue analysis of Al-Si-Ca alloy foam.