PVC地板行业研究现状及发展趋势

概述了国内外PVC地板行业的生产及应用现状,比较了几种地板材料的优缺点,介绍了PVC地板生产技术的研究进展情况,分析了国内PVC地板行业的发展趋势。     

纳米银插层膨润土抗菌剂的性能研究

以膨润土片层结构做模板,将银氨溶液与改性膨润土进行离子交换反应,通过光还原法制备得到了纳米银插层膨润土抗菌剂。通过高分辨透射电镜、能谱分析测试表征纳米银插层膨润土抗菌剂的结构与成分,并测试抗菌性能和白度变化。结果表明:纳米银插层膨润土抗菌剂的膨润土片层中夹插有球形纳米银,纳米银颗粒的主要粒径为2-8 nm,其中小部分粒径为8-17 nm,这种独特的模板结构确保纳米银抗菌剂结构稳定和性能稳定。纳米银插层膨润土抗菌剂中纳米银含银量为1.04wt%,有优异的抗菌性能,对金黄色葡萄球菌和大肠杆菌的最小抑菌浓度(MIC)分别为50μg/mL。纳米银插层膨润土抗菌剂具有颜色稳定性和持久抗菌性。     

非常规蛋白基木材胶黏剂研究现状及发展前景

介绍了动物和植物型非常规蛋白资源的种类及其制备蛋白基木材胶黏剂的研究现状和存在的问题,展望了非常规蛋白胶黏剂的发展前景。     

腐蚀模板法获取高长径比β-Si3N4晶种的工艺参数研究

采用腐蚀模板法对氮化硅陶瓷薄板进行熔融碱腐蚀处理获取β-Si3N4晶种.研究了腐蚀介质、时间对晶粒形貌及分散性的影响.优化了超声、磁力搅拌、研磨三种晶粒剥离的方法,确认磁力搅拌的方法是最佳的剥离工艺.通过X射线衍射和扫描电子显微镜对产物进行了微观形貌观察及物相分析,结果显示获得的晶种为高纯度β-Si3N4,粒径范围为2～10μm,最高长径比可达10以上.     

公民水素养评价表征因素模型构建与分析

针对我国水资源紧缺、水生态损害、水环境污染等相关水问题,以提升全民爱水惜水节水护水的意识和能力为目标,从水素养概念出发,通过扎根理论质性研究方法对公民水素养评价的表征因素进行筛选和提炼,最终得出包含水知识、水态度、水行为为主范畴的10个表征因素并运用解释结构模型(ISM)深入剖析各因素之间的内在联系。在此基础上建立了3级多层次递阶结构模型,进一步精确描述系统各要素两两之间的直接关系。结果表明:公民水素养评价的表征因素自上而下形成了表象层、中间层和根源层等3个层级,可直观、清晰地反映表征因素之间的递阶、层级关系;水态度在各表征因素中具有调节作用以及各表征因素之间存在内在逻辑关系。研究成果为提高公民水素养水平提供一定的科学依据和政策参考。     

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.     

Controllable Fe/HCS catalysts in the Fischer-Tropsch synthesis: Effects of crystallization time

The Fischer–Tropsch synthesis (FTS) continues to be an attractive alternative for producing a broad range of fuels and chemicals through the conversion of syngas (H₂ and CO), which can be derived from various sources, such as coal, natural gas, and biomass. Among iron carbides, Fe₂C, as an active phase, has barely been studied due to its thermodynamic instability. Here, we fabricated a series of Fe₂C embedded in hollow carbon sphere (HCS) catalysts. By varying the crystallization time, the shell thickness of the HCS was manipulated, which significantly influenced the catalytic performance in the FTS. To investigate the relationship between the geometric structure of the HCS and the physic-chemical properties of Fe species, transmission electron microscopy, X-ray diffraction, N₂ physical adsorption, X-ray photoelectron spectroscopy, hydrogen temperature-programmed reduction, Raman spectroscopy, and Mössbauer spectroscopy techniques were employed to characterize the catalysts before and after the reaction. Evidently, a suitable thickness of the carbon layer was beneficial for enhancing the catalytic activity in the FTS due to its high porosity, appropriate electronic environment, and relatively high Fe₂C content.     

住宅新风系统风量分配装置压力平衡研究

为确保住宅建筑新风系统风量的合理分配,本文提出了一种新风系统设计方法,并通过计算流体力学模拟了一体积较小且带有六个出口的风量分配装置,以在不同位置设置不同长度的导流板的方式,得出在两侧设置长度为43 mm的导流板,在中心设置长度为44 mm导流板时,可以实现在一定风量范围内达到风量平衡且出口压力相等。     

中空碳基材料在电解水中的研究进展

氢能所具有的清洁、高能量密度特点，使其成为一种未来的理想能源。相较于石油、天然气等的热解制氢技术，利用可再生清洁能源进行电催化分解水制氢具有高效和清洁无污染的特点，且获得氢气产物纯度高，具备大规模发展的潜力。而在大规模水电解过程中，电催化剂是不可或缺的元素之一。它能有效地加速电解水在阴阳两极反应的动力学过程。传统的贵金属基催化剂具有良好的电催化析氢、析氧活性，但成本高昂、储量稀缺，从而限制了其规模化地推广及应用。开发新型高效廉价的非贵金属基电催化剂已成为时下研究热点。中空碳基纳米材料集成了中空材料和碳基材料的优势，作为电催化剂，在电解水方面有着潜在的应用价值。本文总结了近年来微纳米结构碳基中空材料作为新型电解水催化剂的研究进展，介绍了高效碳基中空析氧/析氢催化剂的设计原则和相应的设计策略，并对开发持久高效的中空碳基电解水催化剂进行了总结和展望。