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吸声圆锥的吸声材料和结构对吸声性能影响的分析 总被引:1,自引:0,他引:1
概述吸声圆锥的吸声机理,利用渐变吸收层的反射系数的W、K、B近似式推导出圆锥反射系数的W、K、B近似实数表达式,将吸声圆锥反射系数与材料的基本声学参数、结构参数、工作频率相联系,简化估算和分析吸声材料和结构对吸声圆锥吸声性能产生的影响,为设计吸声圆锥优选吸声材料和结构,提供重要的参考依据。 相似文献
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孔隙率和孔径对反应烧结多孔氮化硅陶瓷介电性能的影响 总被引:1,自引:0,他引:1
研究添加成孔剂法制备的有球形宏观孔的多孔氮化硅陶瓷在不同孔隙率和孔径下的介电性能.通过控制成孔剂苯甲酸的加入量和调节成孔剂的粒径可达到烧结体的气孔率和孔径可控的目的.结果表明:随着成孔剂量的增加,样品气孔率变大,反应烧结后烧结体中的α-Si3N4相增多,样品的介电常数ε'和介电损耗tanδ降低.在成孔剂加入的质量分数为30%时,随着成孔剂的粒径变大,反应烧结后烧结体中气孔的直径变大而气孔率不变,样品的ε'和tan δ也相应降低.得到的样品中最低的ε'值为2.4297. 相似文献
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泡沫金属吸声材料制备及吸声性能的研究 总被引:3,自引:0,他引:3
本文着重介绍了以聚氨酯泡沫塑料为基材,利用电化学理论和方法,通过化学镀和电镀制备泡沫铜吸声材料的方法。研究表明,用这种方法制造的吸声材料具有高的孔隙率和吸声特性。该吸声材料可广泛用于通风管道,汽车、舰船进排气消声设备的制造。 相似文献
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通过在页岩陶粒轻集料混凝土中掺入吸水树脂(Super Absorbent Polymer,简称SAP),标准养护28 d后,分析了硬化混凝土的孔隙率、孔径分布等指标.试验结果表明:SAP对页岩陶粒轻集料混凝土的力学强度有显著提高,抗压强度提高了33%;此外,研究还发现掺入SAP后轻集料混凝土孔隙率降低4%,未掺SAP的轻集料混凝土孔隙的渗流维数较小,骨架分形维数较大,轻集料混凝土的渗流分形维数(Ds)与孔隙率为负相关关系,骨架分形维数(Dk)与孔隙率为正相关关系. 相似文献
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在以页岩和含水污泥作为原料制备陶粒轻集料的过程中,可以利用有机质添加剂发生化学反应产生气体,提高陶粒的膨胀性能.本文以牛粪作为有机质添加剂,分析陶粒轻集料的吸水率、表观密度、强度、孔隙率等性能的变化规律,并确定最佳的牛粪添加剂加入量在8%~10%. 相似文献
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The Dependence of Pore Size Distribution on Porosity in Hot Isostatically Pressed Porous Alumina 总被引:3,自引:0,他引:3
Pore size distributions in porous alumina bodies produced by the capsule-free hot isostatic pressing technique have been determined experimentally. The distribution of pore diameter has been found to be dependent on the size of the pre-sintered powders and the amount of open porosity in the sintered body. An empirical model has been developed to predict the modal pore size as a function of median particle size and open porosity. The pore size distributions were found to widen with reduced porosity. They were also shown to be positively skewed. The skew reduced with decreasing porosity. The pore size variation with porosity for specimens produced with a sintering aid could not be described by the same mathematical functions developed for specimens produced by solid-state sintering. 相似文献
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《分离科学与技术》2012,47(15):3289-3306
Abstract A theoretical model based on the advancing front model was developed to analyze the influence of porosity on membrane absorption process. Perturbation solutions were obtained and a nonlinear transformation was applied to increase the accuracy of the solutions. The concentration profile of the solute in the liquid side near the membrane surface was simulated for different operation conditions. The influencing factors on the diffusing rate of the solute concentration profile were analyzed qualitatively. In the case of the rapid mass transfer system, the time of reaction front to reach the midpoint of two proximate pores is relatively long, which means that the concentration layer of solute overcasts the whole surface of membrane slowly, there is a “dead” area for mass transfer, so the influence of porosity should be taken into account. In the case of slow mass transfer system, the time can be ignored compared with the overall experiment time, and the influence of porosity is negligible. The absorption rates were calculated based on the developed model and the calculated results agreed well with the literature results. 相似文献
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本文采用无压浸渗法制备了SiC/Al复合材料,研究了造孔剂含量对多孔预制体孔隙率的影响。结果表明:随着造孔剂加入量的增加,孔隙率增加;但当造孔剂含量大于20%时,多孔预制体的孔隙率趋于48%左右。 相似文献
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为了解决地聚物多孔材料质轻与高强难以取得一致性的问题,本文采用正交试验,对粉煤灰地聚物多孔材料表观密度和强度进行试验,在此基础上,利用超细矿渣粉的独特性,对双氧水发泡剂及辅助稳泡材料进行了优选,制备出抗压强度达到5.9 MPa、表观密度仅为557 kg/m3的地聚物多孔材料.结果表明:当粉煤灰/矿渣比例为1:1,双氧水掺量为2.0%,硬脂酸钙掺量为1.0%,MnO2掺量为0.3%,制备的矿渣-粉煤灰基地聚物多孔材料可以达到质轻高强的目的.采用XRD、SEM和低场核磁共振技术对多孔材料进行了微观测试,并对其抗压强度、表观密度与孔结构之间关系进行了分析. 相似文献