Evolution of insoluble eutectic Si particles in anodic oxidation films during adipic–sulfuric acid anodizing processes of ZL114A aluminum alloys

The effects of insoluble eutectic Si particles on the growth of anodic oxide films on ZL114A aluminum alloy substrates were in- vestigated by optical microscopy （OM） and scanning electron microscopy （SEM）. The anodic oxidation was performed at 25℃ and a con- stant voltage of 15 V in a solution containing 50 g/L sulfuric acid and 10 g/L adipic acid. The thickness of the formed anodic oxidation film was approximately 7.13 μm. The interpore distance and the diameters of the major pores in the porous layer of the film were within the ap- proximate ranges of 10~20 nm and 5-10 nm, respectively. Insoluble eutectic Si particles strongly influenced the morphology of the anodic oxidation films. The anodic oxidation films exhibited minimal defects and a uniform thickness on the ZL114A substrates; in contrast, when the front of the oxide oxidation films encountered eutectic Si particles, defects such as pits and non-uniform thickness were observed, and pits were observed in the films.

一种低共熔溶剂制备明胶基膜前驱液特性研究

以明胶为原料,经一种三水乙酸钠/尿素/水-低共熔溶剂(DES/H_(2)O)体系溶解后制备明胶基膜前驱液。与传统水体系溶解相比,DES/H_(2)O溶解的明胶暴露出更多活性基团,以碳二亚胺盐酸盐为交联剂可与聚乙烯醇形成更多酯键。对获得的明胶基膜前驱液进行表征,结果表明,DES/H_(2)O体系中DES含量为60%时(以DES/H_(2)O溶液总质量为基准),所制备的明胶基膜前驱液的透光率为95.23%,粒径为1524.0 nm,结晶温度为-31℃,当剪切速率为10 s^(-1)时,黏度为449.07 mPa·s。表明此明胶基膜前驱液的交联作用较强,相容性较好,内部结构稳定,为制备具有较好物化性能的明胶基膜提供了新方法。

低共熔溶剂中交联玉米淀粉膜材的研究

研究了在氯化胆碱和乙二醇组成低的共熔溶剂(DES)中,以玉米淀粉为原料,分别使用柠檬酸和戊二醛交联剂制备交联玉米淀粉。通过FT-IR、SEM、DSC等测试对交联玉米淀粉的分子结构、结晶状况和颗粒形貌等进行探究。另一方面制备出了交联淀粉薄膜,并对薄膜的性能进行测试。结果表明,和传统水溶液体系相比,在低共熔溶剂中的交联玉米淀粉具有更高的交联度和相变温度,交联过后的淀粉由A型结晶转变为无定形态,颗粒粒径增大并且颗粒之间相互粘结。在DES中交联的淀粉所制得的薄膜具有更低的水敏感性,提高了淀粉薄膜界面的接触角,降低了水蒸气渗透率和透光率。

Preparation of Mg-Yb alloy film by electrolysis in the molten LiCl-KCl-YbCl_3 system at low temperature

The electrochemical behavior of Yb3+ and electrodeposition of Mg-Yb alloy film at solid magnesium cathode in the molten LiCl-KCl-YbCl3(2 wt.%) system at 773 K was investigated.Transient electrochemical techniques,such as cyclic voltammetry,chronopotentiometry and chronoamperometry were used in order to explore the deposition mechanism of Yb.The reduction process of Yb3+ is stepwise reactions which are single-electron and double-electron reversible charge transfer reactions.The speed control step was a diffu...

基于InSb-In磁敏电阻器的双限温度开关的设计

介绍一种用InSb—In共晶体薄膜磁敏电阻器（MR）制成的双限温度开关的温控机理和特性。实验表明：由InSb—In磁敏电阻器和信号处理电路两部分组成的温度开关，具有灵敏度高、控温范围宽的优点，在低温区，其灵敏度可以高达30mV／℃以上，常温下也可达到23mV／℃左右；其上下限温度调整范围为-40～120℃，测温精度可达到±0．1℃。

温度控制装置中的InSb-In磁敏电阻

研究了InSb-In共晶体薄膜磁敏电阻(MR)的温度特性,并把这种磁敏电阻应用到温度控制领域,设计了一种基于InSb-In磁敏电阻的温度控制器,由InSb-In磁敏电阻温度采集电路、信号处理电路和控制执行电路三部分组成。实验结果表明,InSb-In磁敏电阻材料同其他温敏元件材料一样,具有很好的温度特性,其温度特性与热敏电阻NTC极为相近;用InSb-In磁敏电阻材料制作的温控器具有灵敏度高、控温范围宽的优点,在低温区其灵敏度可以高于30mV/℃,常温下也可达到23mV/℃左右。同时它还具有稳定性强、可靠性好、受环境因素影响小、结构简单紧凑、价格低廉、对材料要求低等诸多优点,是一种值得推广应用的新型材料温度开关。

新型InSb-In薄膜磁阻式振动传感器

研制的振动传感器是一种利用锑化铟 铟 (InSb In)共晶体薄膜磁阻元件的磁阻效应的新型振动传感器。与用普通压电陶瓷片或电感线圈构成的振动传感器相比 ,这种传感器的灵敏度更高 ,频率响应宽。经实测 ,其提供的电信号的信噪比大于 60dB。这种振动传感器适用于物体振动检测、防盗报警、振动锁、运动控制开关、自动控制开关等。

Cooperative effect of Cr and Al elements on passivation enhancement of eutectic high-entropy alloy AlCoCrFeNi_(2.1)with precipitates

In conventional corrosion-resistant alloys,precipitation usually reduces corrosion resistance severely by weakening passive films locally.In this work,we found that the aging-treated AlCoCrFeNi_(2.1)sam-ples,which have abundant nanosized L 12 and body-centered cubic(BCC)precipitates in the lamellar face-centered cubic(FCC)and B2 phases,displayed better corrosion resistance than solution-treated AlCoCrFeNi_(2.1)samples without precipitates.In the AlCoCrFeNi_(2.1)alloy,the FCC phase with L1_(2)precipi-tates and the B2 phase with BCC precipitates were protected by passive films enriched with Cr and Al elements,respectively.Moreover,the Al-rich passive film of the B2 phase was less stable than the Cr-rich passive film of the FCC phase,so B2 phase dissolved preferentially.The Cr-rich passive film of the FCC phase remained stable with the formation of Al-rich L1_(2)precipitates inside the phase because those precipitates with the size of∼5 nm were too small to affect the composition of the Cr-rich passive film.The formation of Cr-rich BCC precipitates within the B2 phase increased the content of the Al element inside the phase,improving the stability of Al-rich passive film on the B2 phase.Furthermore,BCC precip-itates with the size of∼30 nm were protected by Cr-rich passive film,which could inhibit the expansion of corrosion pits.Thus,the corrosion resistance of eutectic high-entropy alloy AlCoCrFeN 2.1 was unprece-dentedly enhanced by the precipitation of BCC precipitates.Our study could provide an attractive strategy for designing high-entropy alloys with excellent corrosion resistance and high strength.

Insights into the tribological behavior of choline chloride-urea and choline chloride-thiourea deep eutectic solvents

Deep eutectic solvents(DESs)have been considered as novel and economic alternatives to traditional lubricants because of their similar physicochemical performance.In this study,choline chloride(ChCl)DESs were successfully synthesized via hydrogen-bonding networks of urea and thiourea as the hydrogen bond donors(HBDs).The as-synthesized ChCl-urea and ChCl-thiourea DESs had excellent thermal stability and displayed good lubrication between steel/steel tribo-pairs.The friction coefficient and wear rate of ChCl-thiourea DES were 50.1%and 80.6%,respectively,lower than those of ChCl-urea DES for GCr15/45 steel tribo-pairs.However,for GCr15/Q45 steel,ChCl-urea DES decreased the wear rate by 85.0%in comparison to ChCl-thiourea DES.Under ChCl-thiourea DES lubrication,the tribo-chemical reaction film composed of FeS formed at the interfaces and contributed to low friction and wear.However,under high von Mises stress,the film could not be stably retained and serious wear was obtained through direct contact of friction pairs.This illustrated that the evolution of the tribo-chemical reaction film was responsible for the anti-friction and anti-wearproperties of the DESs.

蔗渣全组分紫外光屏蔽膜的制备及性能研究

为构建生物质全组分新型复合膜材料,利用氯化胆碱-草酸二水合物-甘油(ChCl-OAd-Gly)三元低共熔溶剂预处理蔗渣原料,并将处理后残渣与溶出组分再复合,经纳米均质化处理成功制备含木质素的纳米纤维素(LNC),再经真空抽滤和热压制备了含木质素的纳米纤维素复合膜(LNCF)功能材料,并利用元素分析、原子力显微镜(AFM)、扫描电子显微镜(SEM)、材料万用试验仪、热重分析仪和分光光度计,研究了木质素添加量对LNCF的紫外光屏蔽性能、机械性能、抗水性、热稳定性和形貌等的影响规律。研究结果表明:随着木质素添加量以体积分数20%的比例增加,LNC中木质素质量分数以2~3个百分点递增,LNC的直径略有减小;制备的LNCF均具有良好的紫外光屏蔽效果,其中木质素添加100%的LNCF(LNCF-100%)在200~400 nm下的紫外光屏蔽率达到99.68%,且其390~780 nm可见光透过率达到65.46%。此外,木质素的添加增强了LNCF的机械性能,其拉伸强度由未添加木质素(LNCF-0%)的76.61 MPa提升至LNCF-100%的144.73 MPa;LNCF的抗水性能得到了显著改善,LNCF-100%表面的水接触角达到90.47°(LNCF-0%为52.15°),吸水率由LNCF-0%的21.52%降低至7.14%,使其湿态机械性能得到了保持,湿强度达到77.3 MPa;6种LNCF的最大热失重温度均高于337℃,具有良好的热稳定性。

NiAl-Cr(Mo)-Ho-Hf共晶合金的高温磨损特性

采用滑动磨损实验测试了NiAl-28Cr-5.6Mo-0.25Ho-0.15Hf(原子分数.%)共晶合金与SiC陶瓷配副在600—1000℃下的摩擦磨损特性.结果表明,在700-900℃下合金表现出优异的自润滑耐磨性能,这种特性源于共晶合金摩擦表面生成了1—3μm厚的玻璃陶瓷润滑膜,该润滑膜可向SiC面转移,形成玻璃陶瓷/玻璃陶瓷的摩擦状态.随着温度的升高,共晶合金与润滑膜的强度降低,SiC微粒压入润滑膜,导致润滑膜的剥落加剧、共晶合金磨损率升高.共晶合金在600℃下由于未形成润滑膜而发生较严重的磨粒磨损,摩擦系数和磨损率很高.

盐泥作固硫添加剂在固硫反应中的机理

选PVC生产车间废弃的电石渣和盐泥作为固硫和固硫添加剂可达到较好的固硫效果,而单独的电视渣则达不到好的固硫效果,从添加剂的作用来看,可认为是对固硫反应的催化,抑制固硫产物CaCO3的分解和改善固硫剂的微观结构,文中就盐泥作固硫添加剂在固硫反应过程中的作用机理进行探索。

氮化铝表面分层电镀制备金锡共晶薄膜工艺

采用分层电镀技术在氮化铝基板上制备了金锡共晶薄膜,主要工序为磁控溅射铜、电镀镍、电镀锡、电镀金和热处理。研究了电镀工艺和热处理的相关因素对金锡共晶膜层性能的影响,得到了可制得Au、Sn质量分数分别为(80±1)%和(20±1)%的金锡共晶合金膜的工艺参数。所得共晶膜可焊性良好,剪切强度优异。

COF结构中键合力损伤芯片Al层的研究

运用实验和有限元模拟相结合的方法 ,研究了非导电膜和金 金共金工艺中键合力对芯片Al压焊块内应力分布的影响 ,并分析了样品的失效部位和失效原因 .挠性基板上印制线宽度不同时键合力对芯片损伤情况的研究表明 ,小印制线宽度在相同单位面积键合力情况下对Al压焊块损伤较轻 .

薄膜金属化LTCC基板的薄膜阻碍层对共晶焊的影响

讨论了LTCC基板薄膜金属化技术中 ,有效阻碍层的选择对基板共晶焊的影响 ,实验结果表明 ,Ti/Ni是一种高可靠性的阻碍层 。

薄膜金属化低温共烧陶瓷基板的阻碍层对共晶焊的影响

讨论了低温共烧陶瓷基板薄膜金属化技术中，有效阻碍层的选择对基板共晶焊的剪切强度、互连阻抗、可焊性的影响。试验结果表明，Ti / Ni是一种高可靠性的阻碍层，且Ti / Ni / Au也是一种较理想的低温共烧陶瓷基板薄膜金属化结构。

利用银锡共晶键合技术的MEMS压力传感器气密封装

为了提高MEMS压力传感器的气密封装效果,利用银锡(Ag-Sn)焊片共晶键合的方法实现封装.首先介绍了工艺流程,然后利用X射线能谱(EDX)和剪切强度分析对共晶键合的温度和时间参数进行了优化,接着对9组静载荷下的剪切强度、Ag-Sn合金分布和键合层断面做了对比分析,最后做了X光检测、氦泄漏率对比测试及MEMS压力传感器实际效果测试.实验结果表明,在温度为230℃、加热时间为15 min、静载荷范围为0.003 9 MPa～0.007 8 MPa时,MEMS压电传感器的平均剪切强度达到14.22 MPa～18.28 MPa,X光检测无明显空洞,氦泄漏率不超过5×10-4Pa.cm3/s,测试曲线表明线性度较好.

基于Ag-Sn焊片共晶键合的MEMS气密性封装

研究了在MEMS气密性封装中基于Ag-Sn焊片的共晶键合技术。设计了共晶键合多层材料的结构和密封环图形,在221℃实现了良好的键合效果,充N2保护的键合环境下,平均剪切强度达到9.4 MPa.三个月前后气密性对比实验表明氦泄漏不超过5×10-4Pa.cm3/s,满足GJB548B—2005标准规定,验证了Ag-Sn共晶键合技术在MEMS气密封装中应用的可行性。

低共熔溶剂在镁合金腐蚀防护中的应用

介绍了低共熔溶剂的性质及特点,综述了低共熔溶剂的国内外最新研究成果,特别是氯化胆碱基低共熔溶剂在镁合金腐蚀防护的应用,分析了镁合金在低共熔溶剂中进行表面处理的可行性。概述了在含氯化胆碱的低共熔溶剂介质中,通过热场、声场、电场以及DES液膜法调控开展镁合金表面化学转化膜的制备、耐蚀机理及反应介质的作用研究,同时将低共熔溶剂与疏水性仿生膜结合,设计出镁合金表面自愈合超疏水涂层。利用低共熔溶剂制备的转化膜的耐蚀性均明显高于镁合金基体,其腐蚀电流密度明显下降。最后对镁合金腐蚀防护的研究现状和方向进行了展望,希望对解决镁合金腐蚀起到一定的指导意义。

锑化铟薄膜磁阻式振动传感器

本文设计的振动传感器是一种利用锑化铟-铟(InSb-In)共晶体薄膜磁阻元件的磁阻效应的新型振动传感器。与用普通压电陶瓷片或电感线圈构成的振动传感器相比,这种传感器的灵敏度更高、频率响应范围更宽。经实测,其提供的电信号的信噪比大于60dB。这种振动传感器适用于物体振动检测、防盗报警、振动锁、运动控制开关、自动控制开关等。