一种小型半导体恒温控制系统的研制

为研究近红外光谱仪中的光源等核心部件受温度影响的特性,研制出一种专门的小型恒温控制系统,此系统采用先进的半导体制冷技术和数字PID算法,并巧妙地使用电机驱动芯片构成驱动电路,测试结果表明,该恒温系统工作稳定可靠,控制精度较高,在微小型恒温系统研制方面有一定的实用和推广价值.     

喷射成型高强度铝合金在固体火箭发动机上的应用

将喷射成型高性能铝合金,用于固体火箭发动机的结构材料.计算与试验结果表明,喷射成型铝合金的室温比强度高于传统铝合金、钢,在试验所选定的部件上替代传统材料,用于固体火箭发动机的构件,通过了各种性能检测,减重55%~69%,表明喷射成型高性能铝合金在固体火箭发动机上应用前景广阔.     

助推-滑翔导弹发展概况及关键技术分析

介绍了助推-滑翔飞行器的研究背景与起源,给出了助推-滑翔导弹的基本定义与飞行过程,总结了助推-滑翔导弹相关技术的国内外发展概况与相应成果,分析了将来的发展趋势与应用前景,并着重分析了助推-滑翔导弹所涉及的弹头外形设计、弹道设计、热防护措施、制导方式、控制方案、助推器、有效载荷、攻防对抗和部署方案等主要关键技术.     

Facile synthesis of tubular magnetic carbon nanofibers by hypercrosslinked polymer design for microwave adsorption

In this study, a simple and efficient method for fabrication of tubular magnetic carbon nanofibers (TMCF) has been developed. Firstly, tubular polymer nanofiber precursors are synthesized by confined self-condensation method. After carbonization of polymer and in situ transformation of FeCl₃ at high temperature, TMCF loaded with Fe nanoparticles is obtained. It has been found that carbonization temperature has significant effects on conductivity, specific surface area, pore volume, defects number in carbon component, and magnetic content of TMCF. The influence of composition, structure, and filler content on microwave absorption properties is revealed. Meanwhile, the microwave absorption mechanism has been analyzed in depth, which benefits from the designed unique structure. The TMCF obtained at 700°C exhibited best performance with the filler content of 15%. The minimum reflection loss is −47.33 dB@2.2 mm, the effective absorption bandwidth is 6.5 GHz (RL < 10 dB), and the matching frequency is 14.1 GHz. The obtained TMCF is lightweight and possess excellent microwave absorption ability, which can be widely used as highly efficient microwave absorber.     

Influence of Zr dopant on polarization in rutile (In0.5Nb0.5)0.005(Ti1-xZrx)0.995O2 ceramics

(In_0.5Nb_0.5)_0.005(Ti_1-xZr_x)_0.995O₂ (INZT, x = 0-0.10) ceramics were synthesized using a conventional sintering method, and the effects of Zr content on the microstructures, dielectric properties and electron-pinned defect-dipoles (EPDD) polarization of the resultant products were investigated. The solubility limit of INZT was x = 0.075, and a secondary ZrTiO₄ phase appeared at x = 0.10. Ceramics with x = 0-0.10 exhibited excellent dielectric properties, ie, colossal permittivity (CP, εʹ > 10³) and low dielectric loss (tanδ < 0.1), over a wide range of frequencies (10⁰-10⁶ Hz at 300 K) and temperatures (50-350 K at 1 kHz). The dielectric spectra and XPS results confirmed that the CP property of the ceramics could be ascribed to their EPDD polarization. The activation energy (E_a) for EPDD polarization was continuously enhanced by increasing x values. EPDD relaxation parameters at different x values were revealed using Cole-Cole equation fitting. Moreover, α, which characterize the relaxation time τ distribution, increased with x values, thus indicating that Zr was involved in and affected electron localized states. The high E_a, temperature T_p of the peak εʹʹ at 1 kHz, and dielectric relaxation time τ_p at 30 K were related to increases in hopping distance of electrons among defect clusters with Zr addition.     

Eu2+掺杂的发光材料的制备及荧光性能

采用溶胶-凝胶法制备了系列Sr_2MgSiO_5:Eu~(2+)发光材料,并采用X射线衍射仪(XRD)、荧光光谱(PL)等测试方法对样品的物相结构和发光特性进行了表征及测试。研究结果表明:Sr_2MgSiO_5:Eu~(2+)发光材料中,加入少量Eu~(2+)离子后没有明显改变Sr_2MgSiO_5晶体结构,提高晶化温度有利于Sr_2MgSiO_5晶相的生成。当晶化温度为1150℃时,晶化时间为2 h,光谱强度最大Ba2MgSiO5:Eu~(2+)发光强度最佳。本文合成Sr_2MgSiO_5:Eu~(2+)发光材料可以应用到白光LED的技术中。     

Chlorine-free emission disposal of spent acid etchant in a three-compartment ceramic membrane reactor

Electrochemical technologies for the on-site treatment of spent acid etchant have received great attention due their ease of operation and economic benefits. On the other hand, a large amount of Cl₂ is generated during the electrolysis process, which leads to potential environmental risks. In the present work, a novel threecompartment ceramic membrane flow reactor, including a cathode chamber, an anode chamber, and a gas absorption chamber was developed. The three chambers were divided by an Al₂O₃ ceramic membrane and a breathable hydrophobic anode diffusion electrode (ADE). The Cl₂ evolution onset potential of the ADE was increased to 1.19 V from 1.05 V of the graphite felt, effectively inhibiting the chlorine evolution reaction (CER). The anode-generated Cl₂ diffused into the gas absorption chamber through the ADE and was eventually consumed by the H₂O₂ adsorbent. Cu could be recovered without emitting chlorine due to the special structure of reactor. The current efficiency of copper precipitation and cathode reduction from Cu²⁺ to Cu⁺ reached 97.7% at a working current of 150 mA. These results indicated that the novel membrane reactor had high potential for application in the copper recovery industry.     

磁性生物炭非均相类Fenton体系去除水中四环素

采用先浸渍后热解的方法制备了磁性生物炭材料,并使用XRD、XPS、VSM对制备的材料进行了表征。结果表明,制备的磁性生物炭主要的活性物质为γ-Fe2O3。采用磁性生物炭非均相类Fenton体系处理水中四环素(TC),当初始TC质量浓度为200 mg/L,pH=7,H2O2投加量为19.8 mmol/L,磁性生物炭投加量为3 g/L时,处理效果最佳。加入抗坏血酸可以加速铁循环过程,明显改善·OH的生成,进而增强了TC去除率。     

4-4’二氨基二苯甲烷合成催化剂研究进展

4-4’二氨基二苯甲烷作为聚氨酯工业的重要中间体,在国内及国际市场上的消费量逐年攀升。以苯胺和甲醛为原料合成4-4’二氨基二苯甲烷是目前主要的生产方法,该法主要采用盐酸作为催化剂,由于工艺过程在分离方面存在诸多不足,因此发展非均相催化剂体系成为该领域未来的趋势。对以甲醛和苯胺为原料合成4-4’二氨基二苯甲烷的固体催化剂进行综述,重点关注分子筛催化剂领域的进展。     

Study on depositing SiO2 nanoparticles on the surface of jute fiber via hydrothermal method and its reinforced polypropylene composites

To improve the interfacial compatibility of jute fiber reinforced polypropylene (PP) composites, hydrothermal method was used to deposit SiO₂ nanoparticles on the surface of pretreated jute fibers and the effect of reaction factors (tetraethoxysilane [TEOS] concentration, ammonia concentration, and reaction temperature) on the deposition of SiO₂ nanoparticles were evaluated. The results of FTIR, XRD, SEM, and TEM showed that the amorphous SiO₂ nanoparticles with an average particle size of 65.0 nm were successfully deposited on the surface of jute fibers at the TEOS/H₂O volume ratio of 1:2, ammonia of 0.55 M, reaction temperature of 100 °C (0.15 MPa) for 5 h. Compared with the sol–gel method, SiO₂ nanoparticles obtained by the hydrothermal method possessed smaller particle size and were less agglomerated, which can better fill in the surface defects of the jute fibers and result in a 12.9% increase in the tensile strength. The study on the mechanical properties and interface performance of the jute fiber reinforced PP composites indicated that the interfacial compatibility between jute fibers and PP was obviously improved. The tensile and impact strength of the composites reinforced with nano‐SiO₂ deposited jute fibers were increased by 26.87% and 25.65%, respectively, compared with the untreated jute fibers. J. VINYL ADDIT. TECHNOL., 26:43–54, 2020. © 2019 Society of Plastics Engineers