Preparation of slab-shaped lactose carrier particles for dry powder inhalers by air jet milling

Dry powder inhalers are often formulated by attaching micronized drug particles onto carrier particles, which are generally lactose. In this study, commercially available lactose was air jet milled to produce unique slab-like coarse carrier particles, which have larger and rougher surfaces compared to other commercially available lactose. Two key processing factors, i.e.,classifier speed and jet milling pressure, were systematically investigated. The largest fraction of slab-like particles in the resulting powder was obtained at a classifier speed of 3000 rpm.The slab-like coarse carrier particles are expected to exhibit superior performance than commercial lactose due to their unique surface properties.

Study on Characteristics of Gold Powder with Round Shape for Maki-e

Maki-e is a traditional Japanese decorative technique that uses the natural lacquer Urushi and metal powders. Currently, there exist only two companies that manufacture metal powder for the purpose of Maki-e, and this research focuses on comparing the material characteristics of the gold powders with round shape manufactured by them. EDS (energy-dispersive X-ray spectroscopy) analysis, image analysis of particle shape before and after Maki-e processing, and color analysis of samples after Maki-e processing were carried out in this research. The study revealed that current gold powders with round shape had almost the same content ratio regardless of the manufacturing company and the powder diameter. In addition, spherical shape and irregular shape were observed in any gold powders, and the aggregates were observed in powder with increasing the powder diameter, while the shape of the aggregates differed with manufacturing companies. Therefore, it was indicated that the aggregates in the powder made by Asano Co., Ltd. had an influence on the particle diameter and its deviation after Maki-e processing. Moreover, the powder in Urushi resin has an influence on the Maki-e appearance because there is a color difference in polished powder, powder in Urushi resin, and Urushi resin.

CeO_(2)添加量对电弧增材制造铁基形状记忆合金组织和性能的影响

采用粉芯丝材+电弧增材制造技术制备了含不同质量分数(0,1%,2%,3%)CeO_(2)的Fe-14Mn-6Si-9Cr-5Ni铁基形状记忆合金,研究了CeO_(2)添加量对试验合金显微组织和形状记忆性能的影响。结果表明:添加质量分数1%的CeO_(2)后,合金晶内析出相减少,晶界处析出较大尺寸的稀土化合物,组织均匀,弯曲变形后未出现ε马氏体跨晶生长现象,且马氏体交叉状态较少;当CeO_(2)质量分数增加至2%和3%时,晶内析出相增多,分布均匀性变差,且在弯曲变形后ε马氏体跨晶生长和交叉特征增多;随着CeO_(2)添加量增加,试验合金的晶粒尺寸减小,层错概率增大,形状回复率先增大后减小,当CeO_(2)质量分数为1%时晶粒尺寸较小,层错概率较大,形状回复率最大,形状记忆性能最好。

The Properties of the Sintered Copper Powder Liner

In order to study the properties of sintered copper powder shaped charge liner, the copper powder, whose particle size was below 20 μm, was chosen as the main material. The mixed powders were directly pressed into the desired shape of the shaped charge liner by the top direct-pressure way. The microscopic morphology of the spinning shaped charge liner, the sintered and non-sintered powder liners, and the particle properties of the copper powder were studied with scanning electron microscopy. The expe^mental results showed that the irregular copper powder could get together effectively and sintering could improve the compactness of the powder liner effectively. The wall thickness and density of the non-sintered and sintered liner were also tested, and it shows that sintering causes the wall thickness thinned and the density improved. The penetration depths of non-sintered powder liner, sintered powder liner and the spinning copper plate liner were tested with different standoff respectively, showing that the penetration properties of sintered powder liner are well.

生料辊压机终粉磨系统节能减碳实践中存在的问题与对策

因原材料水分大、系统烘干能力不足、设备阻力大、高效选粉机结构缺陷等原因造成生料辊压机终粉磨系统运行不稳定且循环负荷大、停机次数较多、系统阻力大、循环风机拉风过大、细度跑粗现象,导致生料工段电耗偏高、成品细度合格率低。对物料特性、工艺流程、设备选型及运行、成品细度进行热工诊断和研究分析,并实施相应的设备、工艺及系统操作优化措施。优化后,生料辊压机终粉磨系统工段电耗降低了2.2kWh/t,选粉效率提升,成品细度明显改善,实现提质增效,节能减碳的目的。

颗粒增强铝基复合材料热等静压近净成形有限元模拟

目的建立可靠的模拟方法,以更高效地预测颗粒增强铝基复合材料(PRAMC)粉末热等静压中的形状变化和不同部位致密度的差异,解决传统实验试错方法适用性差且费时费力的问题,满足批量应用的需求。方法以45%(体积分数)SiCp/6092Al复合材料为研究对象,构建了能预测粉末热等静压成形过程的有限元模型。使用Gurson-Tvergard-Needleman(GTN)模型作为粉末本构模型,建立了粉末尺度的代表性体积单元(RVE)对GTN模型进行修正。结果通过对比GTN模型计算结果与实验结果,发现修正后的GTN模型能更准确地预测模型的最终变形尺寸,与修正前相比,相对误差降低了1.6%~2.9%。使用修正后的GTN模型对杯形回转体零件的热等静压成形过程进行预测,最终形状的计算结果与实验结果的相对误差仅为0.2%~3.1%,致密度分布的相对误差在0.5%以内。在探究包套厚度对热等静压过程的影响时发现,随着包套厚度的增大,热等静压过程中的屏蔽作用增强,内部粉体致密度下降。结论为PRAMC热等静压近终形制备的形状和致密度控制问题提供了有限元预测工具,辅助优化了热等静压工艺和包套设计,降低了颗粒增强铝基复合材料热等静压近净成形过程开发的试错成本。

Thermodynamic analysis on preparation of fibrous NiO precursor powders with oxalate precipitation process

According to the principles of simultaneous equilibrium and mass balance, a series of thermodynamic equilibrium equations of Ni（Ⅱ）-C2O2-4-NH3-NH+4-H2O system at ambient temperature are deduced theoretically and the logarithm concentration versus pH value（lg[Ni2+]T—pH） diagrams at different solution compositions are drawn. The results show that when pH is above 8.0, nickel ions coordinate with ammonia, the precipitation proceeds slowly accompanying with the release of nickel ions from the multi-coordinated Ni（NH3）2+n（n=1, 2, …, 6） and the morphology of NiO powder precursor is fibrous; when pH is below 8.0, nickel ion directly reacts with C2O2-4 and the morphology of NiO powder precursor is of cubic-shape. Some experiments were made to confirm the relation between the total concentration of nickel ion and pH. It is shown that the thermodynamic mathematical model is correct and the calculated values are basically accurate.

Microwave sintering effects on the microstructure and mechanical properties of Ti–51at%Ni shape memory alloys

Ti–51at%Ni shape memory alloys(SMAs) were successfully produced via a powder metallurgy and microwave sintering technique.The influence of sintering parameters on porosity reduction,microstructure,phase transformation temperatures,and mechanical properties were investigated by optical microscopy,field-emission scanning electron microscopy(FE-SEM),X-ray diffraction(XRD),differential scanning calorimetry(DSC),compression tests,and microhardness tests.Varying the microwave temperature and holding time was found to strongly affect the density of porosity,presence of precipitates,transformation temperatures,and mechanical properties.The lowest density and smallest pore size were observed in the Ti–51at%Ni samples sintered at 900°C for 5 min or at 900°C for 30 min.The predominant martensite phases of β2 and β19′ were observed in the microstructure of Ti–51at%Ni,and their existence varied in accordance with the sintering temperature and the holding time.In the DSC thermograms,multi-transformation peaks were observed during heating,whereas a single peak was observed during cooling;these peaks correspond to the presence of the β2,R,and β19′ phases.The maximum strength and strain among the Ti–51at%Ni SMAs were 1376 MPa and 29%,respectively,for the sample sintered at 900°C for 30 min because of this sample's minimal porosity.

The Flowability of Ground Powders and the Comminuting Mechanism of Mills

The ground powders with the same particle size distribution and the same mean particle diameter were prepared by five different types of mills. The flowability index (FI) and the particle shape indices, namely, Wadell's working sphericity Ψ W and circularity Ψ C, of five kinds of test powders were measured. The effect of the comminuting mechanisms on the flowability of ground powders was investigated, and the relationship between the flowability of ground powders and the particle shape indices was analyzed. The experimental results show that the ground powders obtained by collision have irregular particle shapes and smooth surfaces, showing a high flowability. On the other hand, though the particle obtained by grinding is close to a spherical particle, but it has a rugged surface, and shows a bad flowability. Furthermore, the flowability index is more correlated with the circularity than the working sphericity is. This means that the surface roughness is more effective in determining the flowability of powders than the roundness is.

A Novel near Net-Shape Technique for P/M Parts with Large H/D Ratio

In order to overcome the shortcomings of conventional hot pressing, a novel near net-shape technique, called radial hot pressing, for P/M parts with large height-to-diameter (H/D) ratio was introduced. Effects of processing parameters on the microstructures and density of P/M TiAl base alloy valves were studied. Results show that the radial hot pressing is an effective technique for manufacturing valves with a H/D ratio of about 10:1, and the perfect joint interface between the Mo sheet and the parts is helpful for subsequent HIPing.

Properties and forming process of prealloyed powder metallurgy Ti-6Al-4V alloy

The properties and forming process of prealloyed powder metallurgy(PM) Ti-6Al-4V alloy were researched for application of high performance of titanium parts. Hot isostatic press(HIP) technology and two kinds of powders were used in the prealloyed processing to get full density material. Tensile properties,impact toughness and fracture toughness of PM Ti-6Al-4V alloy were studied and discussed. The microstructures were examined with optical microscope and the morphologies of powders were observed by SEM. Forming processes were performed to fabricate PM titanium parts. The experiment results show that the prealloyed PM Ti-6Al-4V alloy has same good properties as wrought material and the complex shape PM parts can be near-net-shaped. Some of the parts have been commercially used. This indicates that the prealloyed process should have bright prospects in making high-performance,complex shape and low-cost titanium alloy parts.

纳米多孔花形乳糖装载姜黄素固体脂质纳米粒吸入微粉的制备及其体外抑凋亡作用研究

目的制备纳米多孔花形乳糖(FL)装载姜黄素(Cur)固体脂质纳米粒(SLN)吸入微粉(Cur-SLN-FL),探讨其对脂多糖(LPS)诱导的BEAS-2B细胞凋亡的抑制作用。方法以不同种类(乳糖、蔗糖、甘露醇、海藻糖)和不同用量(2%、3%、5%)的冻干保护剂为考察对象,采用冷冻干燥技术将Cur-SLN混悬液微粉化制成冻干粉,再将冻干粉与FL混匀后过200目筛,即得Cur-SLN-FL。采用扫描电镜、激光粒度仪等对Cur-SLN-FL的理化性质进行表征。以BEAS-2B细胞为对象,采用AnnexinⅤ/PI双染法和JC-1试剂盒检测LPS诱导的BEAS-2B细胞经Cur-SLN-FL处理后的凋亡情况和线粒体膜电位变化。结果以3%海藻糖为Cur-SLN冻干保护剂,所得冻干粉外形致密、饱满、不回缩塌陷,为色泽均匀的淡黄色粉末,30 s可完全溶解。当FL与Cur-SLN冻干粉以质量比1∶2混匀时具有更高的二级分布沉积率[(40.92±0.02)%]。制得的Cur-SLN-FL呈花形外貌,平均粒径为(4.95±0.57)μm,空气动力学粒径为(4.03±0.40)μm,临界相对湿度约为54%,排空率为(90.34±1.21)%,在2~7级收集盘中的可吸入细颗粒量为(47.5±0.7)%,实测空气动力学粒径为(4.33±0.08)μm。Cur-SLN-FL对BEAS-2B细胞半致死剂量(LD50)为5.809 mg/mL。Cur-SLN-FL处理后的模型细胞凋亡率显著降低,线粒体膜电位显著升高(P<0.05)。结论Cur-SLN-FL的制备工艺简单可行。Cur-SLN-FL可改善LPS诱导的BEAS-2B细胞凋亡,且该作用与调节线粒体膜电位有关。

Shape Memory Effect During Preparation of Alumia Ceramic Tubes

Pure alumina ceramic tube and 95 alumina ceramic （the ceramic with 95.84% alumina） tube were prepared by using self-prepared alumina micrometer powder without agglomeration as raw material. The ceramic green was shaped by isostatic pressing and sintered at different temperature from 800 to 1 600 ℃ for 2 h. The 95 ceramic tube sintered at 1 550 ℃ for 2 h had mean particle size of 4 μm, bend strength of 437 MPa and volume density of 3.714 g/cm3. Shape memory effect during sintering was observed. XRD results showed that no phase transition occurred during shape memory process, which indicated that shape memory effect was not caused by phase transition. Several probable causes of the alumina ceramic shape memory effect were discussed in this paper.

普光气田硫磺湿法成型与安全绿色储存成套技术应用总结

硫磺是一种特殊的化工原料,在我国消耗量大,进口依存度高。随着我国高含硫气田的开发投产,酸性天然气成为国产硫磺的主要来源。针对传统干法技术成型规模小、成本高等难题,中国石化普光气田创新开发了高效湿法成型、精准粉尘防控、安全绿色储存等系列技术,建成了亚洲最大的硫磺生产基地;揭示了大规模液硫固化规律,研制了我国首套湿法成型装备,单体生产能力达90 t/h,产品优质率100%;揭示了硫磺粉尘燃爆规律,建成了首套全流程粉尘防控系统,气相空间中硫磺粉尘质量浓度低于3 mg/m^(3);建成了50 dam^(3)液硫储罐、114 kt硫磺安全储存系统,实现了逸散废气资源化综合利用。硫磺湿法成型与安全绿色储存成套技术的成功应用,促使我国硫磺进口依存度下降了26百分点。

粉末粒形对钡钨阴极多孔钨基体孔隙的影响

采用粉末注射成形工艺制备钡钨阴极多孔钨基体,定量表征钨粉的粉末粒度和粒形,重点研究粉末粒形对多孔钨基体孔隙特性的影响。通过对比粉末的球形度、形状因子、圆润度、粗糙度、赘生物指数和凹度等特征参数,发现球形钨粉比商品还原钨粉和窄粒度钨粉具有更好的球形度、表面光滑度以及分散度。当粉末粒度相差不多时,通过改善钨粉的颗粒形状,粉末分散度得到提高,SW粉末经注射成形得到的多孔钨基体(P_(SW))的孔隙结构均匀性最佳,其平均孔隙度、平均开孔孔隙度、平均孔径和孔隙总容积分别为24.0%、23.9%、1.17μm、0.0206 mL/g。

可再分散乳胶粉对软岩相似材料性能的影响

为研制软岩的相似材料,本文选用铁精粉、重晶石粉和石英砂作为骨料,分别以石膏以及水泥和粘土混合作为胶凝剂,设计了以可再分散乳胶粉掺量为变化参数的单因素影响试验。结果表明:(1)在石膏胶结类型相似材料中,掺入2%以内的可再分散乳胶粉可提高其密度以及抗压强度,但超过2%后,上述指标呈下降趋势,其中密度表现得更明显;变形模量始终呈下降趋势,在2%后越显著;(2)水泥和粘土胶结的相似材料密度、抗压强度及变形模量线性降低,抗压强度最大降幅约35%,(3)随该掺量增加,石膏胶结的相似材料呈现明显的弹、塑性阶段,破坏形式转变为软岩常见的X状共轭破坏;(3)水泥和粘土胶结的相似材料在6%时才开始表现出这一性质。结论可为软岩大型边坡工程或地下结构围岩工程的稳定性分析。

粉末热等静压成形TA7 ELI高承压泵壳体的性能和尺寸控制

基于粉末热等静压近净成形技术,在930℃/120 MPa/3 h的条件下开展了TA7 ELI(超低间隙)高承压泵壳体的成形研究,通过两批次粒度存在差异的粉末(粉末表面为胞晶形貌,D_(50)为67μm、74μm)分析了制粉时的粒度波动对成形材料力学性能的影响,并结合有限元仿真手段开展了高承压泵壳体的粉末收缩规律研究。此外,根据高承压泵在液体火箭发动机中的实际服役情况,对近净成形的高承压泵毛坯进行解剖,分析了特征截面位置的显微组织及硬度分布情况。结果表明,粉末热等静压近净成形技术制备的TA7 ELI合金力学性能达到锻件水平,粉末粒度波动对合金力学性能无显著影响,高承压泵壳体的显微组织均匀,特征截面的硬度值波动小,壳体内部流道关键尺寸实测结果与模拟预测结果的最大偏差为5.37%。

基于粉末床技术放电等离子烧结Si3N4陶瓷圆柱体

将平均粒径分别为150μm和50μm的SiC粉体与平均粒径分别为150μm和50μm的石墨粉体混合,得到粗粉末床(150μm SiC+150μm石墨)与细粉末床(50μm SiC+50μm石墨),粉末床中SiC与石墨的体积分数均为50%。采用粉末床技术对圆柱形Si_(3)N_(4)陶瓷预烧体进行放电等离子烧结,研究粗、细粉末床、预烧温度(1400℃和1500℃)和粉末床回收对等离子烧结Si_(3)N_(4)陶瓷圆柱体的变形程度、致密度、物相组成和显微结构的影响。结果表明,采用粗粒径粉末床、1500℃预烧温度和回收使用一次的粉末床制备的Si_(3)N_(4)陶瓷圆柱体,横截面形状保持度最高,达到93%,维氏硬度和断裂韧性分别为(18.73±0.24)GPa和(3.64±0.23)MPa·m^(1/2)。Si_(3)N_(4)陶瓷的主相为α-Si_(3)N_(4),晶粒形貌为等轴状。通过引入粉末床可克服放电等离子烧结制备Si_(3)N_(4)陶瓷制品的形状限制,有望实现高性能异形Si_(3)N_(4)陶瓷的制备。

机制砂对混凝土性能的影响研究综述

近年来,我国环境保护力度较大,河砂资源无法满足建筑工程的需求,机制砂已逐步成为建筑工业的主要细骨料。但大量实践证明,机制砂相较于河砂存在石粉含量高、颗粒级配差、骨料粒形差等缺点,再加上受制于母岩岩性、制砂方式等因素,对混凝土的工作性能、力学性能以及耐久性能均产生了不可忽视的影响。因此,综合讨论了国内外有关机制砂混凝土性能的研究进展,研究表明:为保证混凝土的力学性能(抗压强度和弹性模量),应控制机制砂的石粉含量,各国对于机制砂石粉含量的标准要求石粉含量应当控制在1%~20%内;合理的机制砂颗粒级配可以降低混凝土的空隙率,从而提高其力学性能;骨料粒形对机制砂混凝土的性能影响显著,针片状颗粒含量越高,混凝土的流动度和强度越低;此外制砂方式不同,对混凝土性能的影响也不同,选择湿法制砂时,合适的絮凝剂以及适宜的掺量能最大程度地降低其对混凝土性能的负面影响;钙质机制砂在分散性和石粉低吸附性上优于硅质机制砂。针对上述问题,提出了相应问题的解决对策,为进一步改善机制砂混凝土的性能,推动机制砂混凝土产业发展提供参考和思路。