水体中微塑料的环境影响行为研究进展

微塑料是指一类广泛存在于环境中的粒径小于5mm的塑料颗粒的总称，当其存在于水体环境中，容易吸附其他污染物，影响它们的迁移行为，进而对生态效应产生影响。本文依据水体环境中微塑料的相关研究报道，对微塑料在水环境中的影响行为进行概述。主要从微塑料的物理、化学和生物特性在环境中的变化特性，微塑料与环境中其他污染物质的相互作用关系，以及微塑料及其复合污染体系对水生生物造成的生态效应影响等3个方面对微塑料的环境行为进行总结、归纳与阐述。最后，针对微塑料对水环境中的环境影响效应，提出了今后的研究方向与展望。     

油介质下高速轮轨低黏着特性和撒砂试验研究

在车轮-钢轨高速滚动接触疲劳试验机上进行油介质下高速轮轨低黏着特性和增黏试验,研究油介质条件下不同速度、蠕滑率、轴质量以及撒砂对黏着系数的影响,最高试验线速度200 km/h。结果表明:黏着系数随蠕滑率的增加先增大、再微降随后趋于平稳,在蠕滑率3%左右达到最大;随着速度的增加,黏着系数呈快速下降趋势,如速度从50 km/h增加至200 km/h时,最大黏着系数从0.092下降至0.049;当轴质量由12 t增至16 t时,黏着系数仅略微增加了0.01;撒砂后,黏着系数约为未撒砂时的3倍左右,且依然随速度增加而降低;撒砂会使得试验后轮轨表面产生很多麻坑,从而增大了表面粗糙度,对增黏起到了一定作用,但增黏砂会对接触表面造成显著损伤,在极端条件下会促进滚动接触疲劳的萌生,威胁运行安全。     

Solubility parameter estimation and phase inversion modeling of bentonite-doped polymeric membrane systems

Effects of bentonite concentration on morphology and permeation characteristics of bentonite-doped polysulfone membranes were investigated. Solubility sphere for bentonite was constructed to estimate its solubility parameter. Thermodynamic modeling of phase inversion of this system was carried out using Flory–Huggins theory. The trade-off between thermodynamic and kinetic parameters was used to predict the membrane morphology for bentonite concentration varying from 0 to 5 wt %. The porosity of bentonite-doped membranes decreased up to 3 wt % that increased thereafter. Morphological analysis showed dense cross section with finger-like macrovoids at 3 wt % beyond which it changed to honeycomb structure with large circular voids. Permeability of 3 wt % membrane was the lowest (5.6 × 10⁻¹² m/Pa s) with 95% bovine serum albumin rejection. Contact angle of the membranes decreased from 83 to 66° with bentonite addition making the membrane more hydrophilic. © 2019 Wiley Periodicals, Inc. J. Appl. Polym. Sci. 2020 , 137, 48450.     

改性碱式氯化镁晶须/丁苯橡胶复合材料制备与性能研究

以工业活性轻烧氧化镁粉和盐酸为原料,采用水溶液法制备了碱式氯化镁晶须,继而采用硅烷偶联剂对碱式氯化镁晶须进行改性,然后将其与丁苯橡胶混炼得到改性碱式氯化镁晶须/丁苯橡胶复合材料,研究了改性碱式氯化镁晶须对丁苯橡胶力学性能及热学性能的影响。结果表明：采用水溶液法制备得到的碱式氯化镁晶须结构为Mg₂（OH）₃Cl·4H₂O,呈微细纤维状,分布较均匀,长径比大于20;改性碱式氯化镁晶须的加入,可以改善丁苯橡胶的机械强度和阻燃性能。     

Effect of different quenching processes following solid-solution treatment on properties and precipitation behaviors of 7050 alloy

The effects of quenching in different ways following solid-solution treatment on properties and precipitation behaviors of 7050 alloy were investigated by transmission electron microscopy (TEM), scanning electron microscopy (SEM), selected area electron diffraction (SAED), hardness and electrical conductivity tests. Results show that after quenching in different ways, electrical conductivity of the alloy decreases rapidly in the first 48 h of natural aging. The electrical conductivity of 7050 alloy in natural aging state is determined by the size and density of GP zones, and the size of GP zones is the main factor. After natural aging for 70 d, the size of GP zones is 1.8–2.6 nm in matrix of the immersion quenched sample and it is 1.4–1.8 nm in matrix of both water mist and forced air quenched samples. After natural and artificial peak aging, the hardness of the water mist quenched sample is HV 193.6 and its electrical conductivity is 30.5% (IACS) which are both higher than those of the immersion quenched sample. Therefore, water mist quenching is an ideal quenching method for 7050 alloy sheets after solid-solution treatment.     

An up to date review of continuously variable speed wind turbines with mechatronic variable transmissions

As a promising and potential alternative to conventional fixed or variable speed wind turbines, continuously variable speed wind turbines (CVSWTs) with variable transmissions offer improved power efficiency and enhanced power control capabilities. The CVSWTs can be generally achieved by adapting mechatronic variable transmissions in the turbine drive train for continuously variable speed operations for wind turbines. Therefore, this paper serves to provide an up to date and exhaustive review of the CVSWTs with mechatronic variable transmissions such as mechanical variable transmission, electrical variable transmission, and power splitting transmission. In this paper, the analysis of CVSWTs with different mechatronic transmission topologies is performed regarding basic configurations, dynamic characteristics, control principles, and experimental or simulation results. Review results indicate the feasibility of applying CVSWTs with such mechatronic transmissions and highlight superiorities of the CVSWTs with power splitting transmission. The CVSWT with power splitting transmission will be particularly suitable for megawatt‐scale turbine systems and will hence increase the economic competitiveness of these turbines due to its large power capacity and high reliability. The directions or challenges for future investigations of CVSWTs with such mechatronic transmissions are also presented to foster in‐depth understanding of such CVSWTs and their control strategies.     

王坡煤矿煤层顶板稳定性主控因素分析

煤炭开采过程中极易发生顶板事故。基于王坡煤矿的地质条件，利用钻孔、井下钻探、物探、生产揭露资料，分别对该矿煤层顶板沉积特征、煤层顶板岩石结构特征进行系统分析研究，通过实验室室内测试，获取了煤层顶板岩石抗压强度、泊松比、坚固性系数、黏聚力等物理力学性质指标，最终确定了影响煤层顶板稳定性相关因素；运用层次分析法确定影响因素的权重值，得出岩石力学性质是影响煤层顶板稳定性的主控因素。研究可为类似煤矿顶板稳定性因素分析提供借鉴。     

Morphology,thermal and mechanical performance of epoxy/polysulfone composites improved by curing with two different aromatic diamines

Epoxy/polysufone (PSF) composites cured with 4,4'-diaminodiphenyl sulfone (DDS) and 4,4'-diaminodiphenyl methane (DDM) were fabricated, and the effect of dual curing reaction of diamines with epoxy on morphology, mechanical, and thermal performance was investigated. DSC results indicated that DDM was more reactive than DDS and the activation energy decreased with the rising of DDM content. Structures with small domain size at the early stage of phase separation were fixed by the fast epoxy-DDM reaction. When the DDM content was elevated to a high level, large dual structures were changed to fine bicontinuous structures, which was favorable to improve the mechanical property. The mechanical performance of epoxy composites was enhanced and the maximum values were achieved when the DDM/DDS ratio was located at 75/25 (PSF/DDS0.25-DDM0.75). The flexural and tensile strength relative to epoxy/DDM system were enhanced more than those relative to epoxy/DDS, while the increase in toughness was the opposite. TGA measurement showed that thermal stability of epoxy/PSF composites was improved because of the restricting effect of continuous PSF domains on thermal motion of epoxy. DMA analysis exhibited two relaxation peaks for PSF/DDS0.25-DDM0.75, which could be attributed to the formation of phase separated morphology and epoxy network with different cross-link density.     

聚苯乙烯/交联丙烯酸甲酯共混物的制备及其发泡性能研究

将聚苯乙烯（PS）颗粒溶解到二乙烯基苯（DVB）、丙烯酸甲酯（MA）与偶氮二异丁腈（AIBN）的混合物中，通过加热引发MA聚合，获得PS/交联PMA共混物, 采用釜压法制备了PS/交联PMA共混物泡沫。采用全自动视频光学接触角测试仪、差示扫描量热仪、傅里叶变换红外光谱仪、动态力学分析仪对PS/交联PMA共混物的结构和性能进行了表征，并通过扫描电子显微镜对PS/交联PMA共混物泡沫的结构进行了表征。结果表明，交联PMA的引入能提高体系的成核效率，随着MA用量的增加，PS/交联PMA共混物的接触角从PS的100.5 °降至86.1 °；当MA的用量为9.6份（质量份，下同）时，PS/交联PMA共混物的泡孔尺寸主要分布在40~60 μm之间，泡孔尺寸分布明显变窄，泡孔密度达到了1.2×10⁸ 个/cm³。     

含V型相交裂隙岩体的力学特性及破坏模式试验

为深入了解V型相交裂隙岩体试件的力学特性和裂纹演化规律,采用MTS815电液伺服控制试验机对含不同夹角V型相交裂隙岩体试件进行了常规单轴压缩试验,基于试验结果,详细分析了试件的应力-应变曲线、强度与变形特性、裂纹演化与破坏模式及能量耗散特征。研究结果表明:①裂隙试件的应力-应变曲线进入裂纹萌生与扩展阶段早于完整试件,在峰前出现了明显的应力降现象,在峰后破坏阶段,完整试件表现为应力-应变曲线的快速跌落,而裂隙试件呈现台阶状多阶段性跌落,甚至缓慢水平下降,体现出明显的延性破坏特征;②裂隙试件的峰值应力、弹性模量和峰值应变均有明显减小。峰值强度和弹性模量随裂隙夹角的增加呈先增大后减小的变化趋势。轴向峰值应变主要受裂隙夹角的影响,总体随夹角的增大呈线性减小的趋势;③裂隙的存在能够完全改变岩体试件的破坏模式,随着裂隙夹角的逐渐增加,裂隙试件破坏模式的演化过程为:台阶式张拉-剪切复合破坏(30°)→张拉-八字形剪切复合破坏(60°)→台阶式平行双斜面剪切破坏(90°)。当裂隙夹角为60°时,试件的裂纹演化和破坏模式体现出对加载方向近似的结构对称性特征;④相交裂隙试件单轴压缩破坏的弹性应变能、耗散能、总能量和能量耗散率均较完整试件有大幅度的减小。裂隙试件产生的裂纹数量越多,试件表面的脱落现象越明显,耗散能和能量耗散率也越大。拉-剪复合破坏比单纯剪切破坏要消耗更多的能量。试件的破坏特征和破坏模式能很好地反映试件的能量耗散特性。