热塑性聚氨酯微孔发泡材料的表观密度与其力学性能的关系

用高压CO2流体通过升温发泡法制备了一系列不同表观密度的热塑性聚氨酯(TPU)微孔发泡材料,探究了TPU发泡材料的表观密度与其力学性能的关系.微孔发泡材料的泡孔结构和表皮结构由扫描电子显微镜表征;不同表观密度材料的力学性能利用万能材料试验机和旋转流变仪表征.研究发现:TPU微孔发泡材料的表观密度主要是由材料皮层厚度占比和泡孔层密度决定的,皮层厚度占比越小和泡孔面积占有率越高,泡沫的表观密度越小;微孔发泡材料在线性应变区的压缩模量E与材料表观密度ρ的关系为:E∝ρ1.7,符合泡沫材料压缩模量与表观密度呈指数关系的基本结论;循环压缩实验中,随微孔发泡材料表观密度减小,损耗百分比增大,残余应变减小;流变实验中,微孔发泡材料的模量随表观密度变化没有明显的变化,阻尼因子tanδ随泡沫表观密度变化不呈单一的规律性.同时,阐明了微孔发泡材料的压缩模量E和损耗百分比随表观密度变化的机理.     

空心玻璃微珠复合聚酰亚胺泡沫的泡孔结构与性能

通过填充空心玻璃微珠,采用预聚法制备了空心玻璃微珠复合聚酰亚胺泡沫,研究了空心玻璃微珠填充量对复合聚酰亚胺泡沫的泡孔结构、热性能和压缩性能的影响规律。结果表明,随着空心玻璃微珠填充量的增加,聚酰亚胺泡沫泡孔结构变得精细,并且热稳定性、玻璃化转变温度和压缩性能都随之提高。当填充量(空心玻璃微珠与均苯四甲酸酐的质量比)达到20%时,泡沫5%热失重温度提高了13.9℃,玻璃化转变温度提高了8.1℃,压缩强度提高了约21%,压缩模量提高了约12%。     

新型光、 热双响应形状记忆聚合物的制备与性能

通过多巴胺表面原位聚合反应修饰玻璃微珠, 利用X光电子能谱仪(XPS)和傅里叶变换红外光谱仪 (FTIR)对修饰前后玻璃微珠表面的化学组成进行了表征, 用热失重分析仪(TGA)对其热稳定性进行了测试, 并利用透射电子显微镜(TEM)和扫描电子显微镜(SEM)对其形貌进行了观察; 研究了改性玻璃微珠对形状记忆共混物聚己内酯和聚氨酯(PCL/TPU)的热性能、 力学性能和形状记忆性能的影响. 结果表明, 成功制备了表面包覆聚多巴胺的玻璃微珠(PHGM), 改性玻璃微珠的加入不仅增强了复合材料的力学性能(当改性玻璃微珠含量为3%时, 材料的拉伸强度提高到53.3 MPa, 杨氏模量提高到178.4 MPa), 还赋予了复合材料优异的光热效应. 所制备的形状记忆复合材料在808 nm近红外光的照射下, 可以在短时间内(7 s)升高到材料的开关温度并回复到初始形状.     

环氧树脂-玻璃微珠多孔复合材料的水声性能

为提高薄板吸声材料的吸声性能,用改性环氧树脂和空心玻璃微珠等原料合成了25mm厚环氧树脂-玻璃微珠多孔复合材料,在脉冲声管中测试了合成材料试样的声压反射系数和吸声系数,研究了合成工艺参数对其水下声学性能的影响.测试结果表明:环氧树脂-玻璃微珠多孔复合材料是一种良好的水下吸声材料,其吸声性能受到空心玻璃微珠的种类及其含量和固化剂种类等参数的影响.制备了填充多种空心玻璃微珠低频吸声性能良好的环氧树脂-玻璃微珠声学材料.合理地设计实验工艺参数,可以得到水下声学性能更佳的环氧树脂-玻璃微珠多孔复合材料.     

热塑性聚氨酯及其复合材料的界面形态与流变特性

以聚酯型热塑性聚氨酯(thermoplastic polyurethane,TPU)、玻璃纤维(glass fiber,GF)和玻璃微珠(glass bead,GB)为主要原料制备了TPU/GF、TPU/GB共混物,考察了复合体系的热性能、微观结构、动态流变特性.研究发现,TPU是温敏型聚合物,其温敏性与材料的硬段含量有关,在加工过程中,除考虑剪切速率的影响外,需重点考虑温度对其加工性能的影响;GF,GB填充TPU体系具有良好的分散形态和界面结合牢度,GF和GB的加入能够增加体系的黏度,降低TPU的温敏性,加宽TPU的加工温度窗口,从而改善其成型加工性,并能一定程度地提高其耐热性.研究还发现,复合体系黏度的增加程度不仅和填料的含量有关,而且与填料的形状有关,可用等效直径表征.另外,从比表面积的角度比较了玻璃纤维和玻璃微珠对体系热稳定性的影响.     

空心玻璃微珠对聚氨酯泡沫燃烧和力学性能的影响

通过向聚氨酯发泡体系中添加空心玻璃微珠,制备出空心玻璃微珠聚氨酯三相泡沫.研究了空心玻璃微珠添加量、聚磷酸铵(APP)用量、膨胀阻燃体系(IFR)浓度等因素对聚氨酯泡沫燃烧和力学性能的影响.结果表明,单独添加空心玻璃微珠对聚氨酯泡沫的氧指数和水平燃烧速度影响不大.添加APP或IFR后,空心玻璃微珠聚氨酯三相泡沫的阻燃效...     

柔性交联型聚酰亚胺气凝胶的制备及性能

利用溶胶-凝胶反应制备了聚酰亚胺凝胶, 经过超临界干燥得到了聚酰亚胺气凝胶. 研究了固含量和交联剂比例对气凝胶性能的影响规律. 结果表明, 聚酰亚胺气凝胶的密度和线收缩率都随着固含量和交联剂比例的增加而增加; 随着固含量的增加, 气凝胶的室温热导率呈现出先降低再增加的趋势(0.026~0.033 W·m^-1·K^-1), 气凝胶的力学刚度和强度明显提升; 交联剂的加入, 可以提高材料的韧性, 断裂应变最高达21.7%; 制得的柔性聚酰亚胺气凝胶具有良好的热稳定性, 是满足尖端武器以及空间飞行器对于轻质、 柔性热防护要求的理想材料之一.     

SBA/PVC复合树脂的制备与表征

采用聚丙烯酸正丁酯(PBA)改性的丁苯(SBR)胶乳为种子乳液(SBA),通过乳液接枝共聚氯乙烯制备了SBA/PVC复合树脂.通过粒径分析仪、动态力学分析仪(DMA)、透射电子显微镜(TEM)、扫描电子显微镜(SEM)等测试手段,表征了复合胶乳粒的粒径与形态,以及材料的形态结构.粒径分析表明PVC确实包覆在SBA上;TEM研究结果显示SBA/PVC胶乳粒子呈现明显的核壳结构,PBA加入可提高SBR在复合材料中的分散性;DMA分析表明SBA/PVC复合树脂在低温区呈现了一个宽而弱的转变峰,揭示了接枝过渡层的微观结构特征;研究了交联剂和PBA用量对材料性能的影响,结果表明在PBA含量较低时,SBA/PVC复合树脂就显示了优良的冲击性能,且SEM照片显示材料断面形貌为特征性韧性断裂.     

发泡聚乳酸/热塑性聚氨酯/二氧化硅纳米复合材料的泡孔结构

以超临界二氧化碳作为物理发泡剂,通过快速降压法制备聚乳酸(PLA)/热塑性聚氨酯(TPU)/二氧化硅(SiO2)纳米复合材料发泡样品。发泡样品的泡孔结构使用扫面电子显微镜进行观察。在低频区,SiO2增加PLA/TPU共混物的储能模量和复数黏度。SiO2的加入使PLA/TPU共混物发泡样品的泡孔直径减小、泡孔密度增大。SiO2对PLA/TPU共混物发泡样品泡孔结构的改善归因于SiO2的异相成核作用和对共混物流变性能的改善作用。     

基于普通酚醛树脂有机气凝胶的高效制备与研究

基于普通线性酚醛树脂体系,采用溶胶-凝胶(sol-gel)法制备了酚醛树脂有机气凝胶.通过调节交联剂——六亚甲基四胺(HMTA)的浓度对酚醛树脂有机气凝胶的微观孔结构进行优化,减小溶剂在干燥过程中的毛细作用力,采用常压干燥的手段即可得到较小收缩率、较强骨架强度的有机气凝胶.详细研究了交联剂(HMTA)用量对有机气凝胶内部微观孔结构/形貌、表观密度、热稳定性、力学性能等方面的影响.孔结构与微观形态研究结果表明,随着HMTA浓度的减小,有机气凝胶平均孔径减小,比表面积增加,在较低交联剂浓度下,平均孔径达到100 nm,并且孔径分布均匀,内部聚合物有机骨架完好.纳米尺度的孔径和均匀的孔径分布能够显著提高有机气凝胶的骨架稳定性,与微米尺度孔径的气凝胶材料相比,压缩模量和压缩强度均有显著的提高.HMTA浓度的提高使酚醛树脂气凝胶体系中引入大量不稳定的N—CH2基团,造成气凝胶材料的热稳定性下降.     

Improved cell morphology and reduced shrinkage ratio of ETPU beads by reactive blending

Thermoplastic polyurethane foam beads (ETPU) have attracted attention of researchers in recent years due to their wide use in industrial applications. In this study, a small amount of acrylonitrile-butadiene-styrene copolymer (ABS) was blended with TPU under the assistance of dicumyl peroxide (DCP) and maleic anhydride (MAH) to improve the cell morphology and reduce shrinkage ratio of the resulting blends. These blends were then foamed to prepare TPU/ABS blends foam beads in an autoclave using supercritical CO₂ as the blowing agent at different temperatures and FTIR spectra, and rheological and foaming properties of the samples were evaluated. The melt viscosity, melt strength and elasticity of TPU/ABS were improved with the increase of the ABS content. These results were attributed to the grafting and heterogeneous nucleation points provided by the ABS. These enhanced properties were used to produce foams with better cell morphology and increased expansion ratio. Furthermore, the TPU/ABS blends foam beads showed lower shrinkage ratios with increasing ABS content. Thus, the addition of ABS is a facile method for improving the cell morphology and anti-shrinkage properties of ETPU.     

Silver Hollow Microspheres: Large-scale Synthesis, Characterization and Electromagnetic Shielding Property

A facile and large-scale synthesis method to fabricate silver hollow microspheres with controllable morphologies and shell thickness is described using low-cost glass microspheres as templates. The method mainly involves two steps of the preparation of silver-coated glass microsphere core-shell particles by a controllable liquid reduced reaction of Ag[(NH3)2]+ solution, which only produces silver nanoparticles anchored on the surface of the thiolated glass microsphere templates, and the removal of glass microspheres by wet chemical etching with HF solution. The products are well characterized by field emitted scanning electron microscopy (SEM), transmitted electron microscopy (TEM), X-ray photoelectron spectra (XPS), X-ray diffraction (XRD) and energy dispersive X-ray (EDX) etc. The as-prepared core-shell particles and hollow particles have even and compact silver shells. The electromagnetic shielding coatings based on the silver hollow microspheres are demonstrated to have high conductivity, excellent shielding effectiveness and long durability, suggesting that the silver hollow microspheres obtained here are a novel light-weight electromagnetic shielding filler and will have extensive applications in the electromagnetic compatibility fields.     

交联羧甲基魔芋葡甘聚糖空心微球制备及应用

以魔芋葡甘聚糖(KGM)为壁材,通过羧甲基化并经乳状液化学交联制备球体较为完好的羧甲基魔芋葡甘聚糖(CMKGM)空心微球.通过扫描电镜(SEM)和透射电镜(TEM)对CMKGM空心微球的形貌和粒径进行了表征.结果表明,KGM溶胶浓度为0.5%-1%、乳化剪切速率为8000r/min、环氧氯丙烷(ECH)为5ml时,可以得到粒径均匀、形貌规整、溶胀性能良好的CMKGM空心微球.增大溶液的pH和羧甲基试剂的用量均有利于CMKGM空心微球对水中Cu2+的吸附.     

Synergistic effects between hollow glass microsphere and ammonium polyphosphate on flame-retardant thermoplastic polyurethane

It is mainly studied that the smoke-suppression properties and synergistic flame-retardant effect of hollow glass microsphere (HM) in flame retardant thermoplastic polyurethane (TPU) composites based on ammonium polyphosphate (APP) as a flame-retardant. Also, the smoke suppression properties and flame-retardant effect were investigated by smoke density test (SDT), cone calorimeter test (CCT), limiting oxygen index, and thermogravimetric analysis, separately. The char residues left after CCT were examined by scanning electron microscopy. The data of SDT shows that HM could effectively decrease smoke production of TPU composites. The results of CCT reveal that the system of APP/HM could reduce heat release rate, smoke production rate, and total smoke release. It is shown that APP/HM is a good system with smoke-suppression and synergistic flame-retardant properties in flame-retardant TPU composites.     

Si掺杂对TiO2空心微球微结构和光催化性能的影响

以葡萄糖、氟钛酸铵和氟硅酸铵为原料,采用一锅水热合成法在葡萄糖聚合形成的胶体碳球表面原位生成了含有Ti/Si物种的前驱物实心微球,再经高温焙烧脱除碳球模板,制得Si掺杂的TiO2空心微球.应用高分辨透射电镜、X射线衍射、X射线光电子能谱和N2吸附-脱附等手段对样品进行了表征.结果表明,Si进入到TiO2的晶格,形成的S...     

Facile synthesis of hollow Ti_2Nb_(10)O_(29) microspheres for high-rate anode of Li-ion batteries

Titanium niobium oxides emerge as promising anode materials with potential for applications in lithium ion batteries with high safety and high energy density.However,the innate low electronic conductivity of such a composite oxide seriously limits its practical capacity,which becomes a serious concern especially when a high rate charge/discharge capability is expected.Here,using a modified template-assisted synthesis protocol,which features an in-situ entrapment of both titanium and niobium species during the formation of polymeric microsphere followed by a pyrolysis process,we succeed in preparing hollow microspheres of titanium niobium oxide with high efficiency in structural control.When used as an anode material,the structurally-controlled hollow sample delivers high reversible capacity(103.7 m A h g~(-1)at 50 C)and extraordinary cycling capability especially at high charge/discharge currents(164.7 m A h g~(-1)after 500 cycles at 10 C).     

Effect of cross-link density on the morphology,thermal and mechanical properties of flexible molded polyurea/urethane foams and films

The effect of cross-link density on the morphology and properties of two flexible molded foam samples was studied. Film samples based on the same foam formulations were also fabricated to study the feasibility of using them for the characterization of complex foam products. Fourier transform infrared spectroscopy (FTIR) and small angle X-ray scattering (SAXS) data show that films and foam samples have entirely different hard domain ordering. The results of the study of morphology indicate that an increase in cross-link density appears to increases phase mixing in film and foam samples. Differential scanning calorimetry (DSC) studies indicate that the soft segment glass transition temperature (T_g) is independent of cross-link density (at levels studied). But for both film and foam samples, morphology clearly dicates the manner in which moisture interacts with the hard domains. Results of the stress-strain behavior indicate that an increase in cross-link density increases the modulus and decreases the elongation at break. Mooney-Rivilin modeling of the stress-elongation behavior of film shows that the higher cross-link density sample gives more nonaffine behavior, possibly due to a heterogeneous distribution of hard domains. Similar modeling of the foams was not possible because of their linear stress response to surprisingly high elongation. The results of the power law modeling of stress relaxation response indicates that with an increase in cross-link density (covalent and virtual), the power law exponent decreases as expected. At levels of cross-linking and hard segment content studied, stroke-controlled equilibrium hysteresis was independent of cross-link density. Normalized dynamic mechanical spectra (DMS) show that the film samples have higher rubbery plateau modulus. The magnitude of the area under the tan δ curve at T_g indicates greater flexibility of polymer segments in foam sample. Structure-property relationships of cellular materials can be established by characterizing film samples because a parallel trend exists between each group. © 1994 John Wiley & Sons, Inc.     

空心玻璃微珠改性饰面型防火涂料性能研究

利用隧道燃烧法测定了空心微珠改性防火涂料的防火性能,考察了空心微珠类型和添加量对涂料防火性能的影响,结合试件背火面温度变化探讨了空心微珠的防火机理.结果表明空心微珠可显著提高防火涂料的防火性能,添加适当的量可以使涂料的防火性能达到二级标准.