氧化石墨烯纳米带与氧化石墨烯增强热塑性聚氨酯薄膜的制备及性能

利用纵向裂解多壁碳纳米管制备了氧化石墨烯纳米带,并采用溶液成型的方法制得氧化石墨烯纳米带-氧化石墨烯(GONRs-GO)/热塑性聚氨酯(TPU)复合材料薄膜。场发射扫描电镜和X射线衍射分析结果显示,GONRs与GO间相互剥离并均匀地分散在TPU基体中;氧气透过率(OTR)和力学性能测试表明,GONRs和GO具有协同增强TPU复合材料薄膜的阻隔和力学性能的作用。当GONRs和GO在TPU中添加量均为1.5%(质量分数)时,GONRs-GO/TPU复合材料薄膜的阻隔和力学性能达到最佳。相比于纯TPU薄膜,该GONRs-GO/TPU复合材料薄膜的OTR降低了83.94%,拉伸断裂强度、屈服强度、扯断伸长率则分别提高了59.28%,59.54%和15.0%。     

纳米石墨负载功能化石墨烯纳米带/EVA复合材料薄膜的性能及表征

采用十二烷基硫酸钠改善纳米石墨(CNPs)在水溶液中的分散性,使其均匀负载至功能化石墨烯纳米带(EGNRs)上,制得功能化石墨烯纳米带-纳米石墨复合体(EGNRs_(75%)-CNPs),随后利用溶液涂覆成膜工艺在涂膜机上制得EGNRs_(75%)-CNPs/乙烯-醋酸乙烯共聚物(EVA)复合材料薄膜。采用FTIR、XRD、XPS、TEM、FESEM、氧气透过仪、高阻计对不同EGNRs_(75%)-CNPs含量的EGNRs_(75%)-CNPs/EVA复合材料薄膜进行了结构和性能表征。研究表明:EGNRs_(75%)-CNPs以3D网络形式存在,能够抑制纳米带团聚,说明其与EVA基体相容性好。当EGNRs_(75%)-CNPs质量分数为1%时,EGNRs_(75%)-CNPs/EVA复合材料薄膜的氧气透过率降低了67.6%,阻隔性能提高明显;当质量分数为0.8%时,CNPs负载到EGNRs构建3D导电网络,协同发挥增强作用,EGNRs_(75%)-CNPs/EVA复合材料薄膜导电性能提升了约8个数量级,表现出了优良的室温导电性能。     

功能氧化石墨烯纳米带/热塑性聚氨酯复合材料薄膜的制备及阻隔性能

以氧化解压多壁碳纳米管的方法制备了氧化石墨烯纳米带(GONRs),然后用异氟尔酮二异氰酸酯(IPDI)对GONRs化学修饰得到功能氧化石墨烯纳米带。采用溶液成形的方法在涂膜机上制备了功能氧化石墨烯纳米带(IPGONRs)/热塑性聚氨酯(TPU)复合材料薄膜,研究了IP-GONRs对TPU薄膜阻隔性能的影响。扫描电镜和X射线衍射的数据表明,IP-GONRs完全剥离地均匀分散在TPU基体中,并且基本沿着纳米复合材料薄膜表面平行分布。仅添加3.0%(质量分数,下同)的IP-GONRs时,TPU薄膜的氧气透过率便下降67%,因此获得了具有优异阻隔性能的IPGONRs/TPU纳米复合材料薄膜。这种具有优异阻隔性能的复合材料薄膜在食品包装和轻量气体存储容器方面有潜在的应用。     

3D氧化石墨烯纳米带-碳纳米管/TPU复合材料薄膜的制备与性能

利用溶液成型法制得3D功能化氧化石墨烯纳米带-碳纳米管(pGONRs-CNTs)/热塑性聚氨酯(TPU)复合材料薄膜。采用FTIR,XRD,XPS和TEM对所得pGONRs-CNTs的结构及性能进行表征,并结合所得TPU复合材料薄膜的氧气透过率和拉伸性能测试以及表面形貌观察,研究GONRs与CNTs的协同作用以及不同含量pGONRs-CNTs对TPU复合材料薄膜阻隔和力学性能的影响。结果表明:pGONRs-CNTs复合体具有独特的3D交织状结构,其中GONRs间通过CNTs链接,二者间较强的π-π键使得这种结合形态牢固紧密,同时CNTs的存在也起到支撑骨架的作用,防止GONRs的滑移与团聚;通过异氰酸苯酯的改性处理,pGONRs-CNTs复合体的亲油性得到明显提高,同时较为庞大的异氰酸根的引入,使得GONR-GONR间的层间距得到了进一步的提高,更有利于其在聚合物基体中实现均匀分散。当pGONRs-CNTs质量分数为0.5%时,pGONRs-CNTs/TPU复合材料薄膜的氧气透过率和拉伸强度相比纯TPU薄膜分别降低了63.08%和提高了46.55%,阻隔性能和力学性能均得到显著改善。     

氧化石墨烯纳米带/TPU复合材料薄膜制备及性能表征

采用氧化法将碳纳米管纵向切割成氧化石墨烯纳米带,利用溶液成形在涂膜机上制备氧化石墨烯纳米带/TPU复合材料薄膜。FT-IR、拉曼光谱、XRD、FE-SEM、TEM等测试表明,碳纳米管成功地被纵向切割成带状结构的氧化石墨烯纳米带。力学测试表明,当氧化石墨烯纳米带用量为2%(质量分数)时,复合材料薄膜弹性模量与拉伸强度相比TPU薄膜提高了160%与123%。氧气透过率测试表明当氧化石墨烯纳米带用量为2%(质量分数)时,复合材料薄膜氧气透过率降低77%,阻隔性能明显提高。     

功能化石墨烯纳米带-纳米碳纤维/热塑性聚氨酯薄膜的制备及性能

利用溶液涂覆成膜工艺在涂膜机上制得功能化石墨烯纳米带-纳米碳纤维/热塑性聚氨酯(FGNRs-CNFs/TPU)复合材料薄膜。采用红外光谱、X射线衍射、X射线光电子能谱、透射电镜对所得FGNRs-CNFs的结构与性能进行表征,并结合复合材料薄膜的氧气透过率和体积电阻率测试以及断面形貌观察,研究了不同含量的FGNRs-CNFs对TPU复合材料薄膜阻隔和抗静电性能的影响。结果显示,KH-550成功接枝在GNRs上,并且FGNRs附着在骨架CNFs上形成稳定的FGNRs-CNFs网络结构,这有利于其在TPU中均匀分散;相比于纯TPU薄膜,当FGNRs-CNFs质量分数为1%时,FGNRsCNFs/TPU复合材料薄膜的氧气透过率降低了68.8%,阻隔性能得到大幅度提升;石墨烯纳米带与纳米碳纤维构建导电网络,当添加量为0.6%时,复合材料薄膜导电性能提升了7个数量级,表现出优良的室温导电性能。     

层叠状功能化石墨烯纳米带/TPU复合材料薄膜的制备与性能

利用溶液涂覆成膜工艺在涂膜机上制得层叠状功能化石墨烯纳米带（SF-GNRs）/热塑性聚氨酯（TPU）复合材料薄膜。采用FTIR、XRD、XPS、TEM和FE-SEM对SF-GNRs的结构进行表征,并结合复合材料薄膜的氧气透过率、体积电阻率测试及表面形貌观察,研究了不同质量分数的SF-GNRs对TPU复合材料薄膜阻隔和抗静电性能的影响。结果表明:所得高比表面积SF-GNRs在TPU基体中分散良好;当SF-GNRs质量分数为1.0%时,SF-GNRs/TPU复合材料薄膜的氧气透过率相比纯TPU薄膜降低了67.76%,阻隔性能得到明显改善;当SF-GNRs质量分数达到1.0%～1.5%时,SF-GNRs/TPU复合材料薄膜出现了电渗流行为,表现出优良的室温导电性能。      

功能化石墨烯/聚乙烯复合材料薄膜的制备及表征

采用改进Hummers法制备了氧化石墨烯(GO),并采用异佛尔酮二异氰酸酯(IPDI)对GO进行改性,制得功能化氧化石墨烯(IP-GO);再利用水合肼对IP-GO进行还原,制得IP-RGO纳米复合材料。最后通过溶液成型方法制备了IP-RGO/聚乙烯复合材料薄膜。用FT-IR、XRD、XPS、FE-TEM和数字高阻计研究了复合材料薄膜的结构与性能。研究表明,IP-RGO纳米复合材料上保留了异氰酸酯基团,同时GO上的含氧基团大部分被还原,恢复了导电性。IP-RGO以均匀的状态分散在聚乙烯树脂基体中;当IP-RGO添加量为4%时,IP-RGO/聚乙烯复合材料薄膜的体积电阻相比于纯PE体积电阻下降了约7个数量级,抗静电性能得到明显改善。     

氧化石墨烯纳米带杂化粒子和石墨烯纳米带的研究进展

氧化石墨烯纳米带杂化粒子是将氧化石墨烯纳米带(GONRs)与其他纳米粒子经π-π键、氢键等结合方式复合在一起,通过这种特殊的结合形态一方面可以有效地防止GONRs的聚积,另一方面新的纳米粒子的引入能够赋予该杂化材料某些特殊的性能,从而有利于充分发挥GONRs杂化材料在聚合物改性等领域的综合性能。本文综述了氧化石墨烯纳米带杂化粒子的制备方法、性能和应用现状。此外,针对GONRs的还原产物石墨烯纳米带(GNRs)的结构、性能、制备方法及其应用领域也进行了系统性地论述。相关研究表明,氧化石墨烯纳米带杂化粒子的设计与制备是氧化石墨烯纳米带迈向实用领域的一个有效途径,而石墨烯纳米作为石墨烯的一种特殊结构的二维变体,继承了石墨烯优良的导电和导热等性能,同时特殊的边缘效应,因而呈现出了更广阔的应用潜力。     

EVA/PMMA透明复合材料制备与性能研究

以乙烯-醋酸乙烯共聚物(EVA)、甲基丙烯酸甲酯(MMA)和过氧化二苯甲酰(BPO)为原料,采用原位本体聚合法制备EVA/PMMA复合材料。通过红外光谱(FT-IR)、玻璃化温度(Tg)、热失重(TG)、邵氏硬度、抗弯强度、冲击强度和可见光透过率研究EVA/PMMA复合材料性能。研发发现,EVA对EVA/PMMA复合材料的Tg、分解温度和抗弯强度影响不大,5%~7%EVA与PMMA聚合可制得综合性能优异的高韧EVA/PMMA透明复合材料。其中,硬度由88HD提高到90HD,冲击强度由0.99kJ/m2提高到3.41~4.04kJ/m2,800~400nm波长范围内透过率均大于85%。     

Insertion of triangulated surfaces into a meccano tetrahedral discretization by means of mesh refinement and optimization procedures

In this paper, we present a new method for inserting several triangulated surfaces into an existing tetrahedral mesh generated by the meccano method. The result is a conformal mesh where each inserted surface is approximated by a set of faces of the final tetrahedral mesh. First, the tetrahedral mesh is refined around the inserted surfaces to capture their geometric features. Second, each immersed surface is approximated by a set of faces from the tetrahedral mesh. Third, following a novel approach, the nodes of the approximated surfaces are mapped to the corresponding immersed surface. Fourth, we untangle and smooth the mesh by optimizing a regularized shape distortion measure for tetrahedral elements in which we move all the nodes of the mesh, restricting the movement of the edge and surface nodes along the corresponding entity they belong to. The refining process allows approximating the immersed surface for any initial meccano tetrahedral mesh. Moreover, the proposed projection method avoids computational expensive geometric projections. Finally, the applied simultaneous untangling and smoothing process delivers a high‐quality mesh and ensures that the immersed surfaces are interpolated. Several examples are presented to assess the properties of the proposed method.     

From Industry 4.0 to Research 4.0. Development of High Performance Fibers in the Light of Digitization

We associate a variety of innovations with the term ＂Industry 4.0＂. The pioneer of many 4.0 modifications forms the basisfor the trend towards the integrated di...     

Roman iron and steel: A review

ABSTRACT

The production of ferrous metal increased during the Roman Late Republican period, Principate and Empire. The direct bloomery process was used to extract the metal from its ores using slag-tapping and slag-pit furnaces. The fuel was charcoal and an air blast was introduced by bellows-operated tuyères. Iron formed as a bloom, often as a spongy mass of metal, which contained impurities from the smelting process, including unreacted ore, fuel, slag and fragments from the furnace walls, while the metal was often inhomogeneous with varied carbon contents. Blooms were either smithed directly into bars or ingots or they were broken up, which also allowed the removal of gross impurities and a selection of pieces with similar properties to be made. These could then be forge-welded together and formed into characteristically shaped ingots. Making steel in the furnace seems to have been achieved: it depended on the ore and the furnace and conditions within it. Surface carburization was also carried out. Iron and steel were used extensively in construction and for tools and weapons. Fire welding was often used to add pieces of steel to make the edges of tools and weapons, which could be heat-treated by quenching to harden them.     

The Research of Anti-Wear Properties of Organomolybdenum Compounds in the Engine Oils

A four-ball tester was used to evaluate the anti-wear performance of three kinds of organomolybdemun compounds in the engine oils, i. e., molybdenum dialkyldithiophosphate (MoDDP), molybdenum dialkyldithiocarbamate ( MoDTC), and sulphur and phosphorus freeorganomolybdeum (Molybdate). The results indicate that a low concentration of MoDDP doesn' t improve the anti-wear properties of the commercial engine oils, but a high concentration of MoDDP can obviously improve the anti-wear properties and the load-carrying capacity of the engine oils. MoDTC doesn' t improve the antiwear properties of the engine oils, but worsens the anti-wear properties of the oils. Signifi can timprove ment of frictional and wear characteristics is obtained with Molybdate added in the commercial engine oils and the formulated oils.     

Certification Institutions Expected to Update and Transfer Information on Present Standards

Standards are the basis for production enterprises to organize production, ex-factory inspection, trade (delivery) and technical exchanges, product certification, quality arbitration and supervision.……     

Flow calorimeter for enthalpy increment measurements on condensed gases

A flow calorimeter for enthalpy increment measurements on condensed gases is presented. A better knowledge of the properties of the liquefied natural gas is needed, and therefore a liquid loop has been designed for our flow calorimeter. The fluid loop in the calorimeter is designed in order to avoid the two-phase region, since two phases would give compositional disturbances in the measurements. The avoidance of the two-phase region is made possible by increasing the pressure of the test fluid after the measurement section, then heating the fluid at super-critical pressure past the critical point. Finally, the fluid is throttled to the low-pressure gas state at the inlet condition of the compressor that circulates the fluid. To perform the pressure increase, a new cryogenic pump has been designed. To evaluate the new equipment, measurements were taken on liquid ethane over the temperature range 146–256 K at pressure between 0.9 and 5.1 MPa.     

Synthesis of Alumina-Zirconia Nanocomposites by Solgel Process

Al₂O₃-ZrO₂ nanocomposites were developed starting with the solgel process. Composite alumina-zirconia nanopowders were synthesized from metallorganic precursors (Aluminium secondary butoxide and zirconium Iso propoxide) using the solgel process. The parameters affecting the synthesis—solvent, concentration of precursor, R/H ratio (i.e., dilution of water in solvent)—were varied as also the temperature and pH. BET and TEM were used to measure nanosize. Diffuse reflectance spectroscopy and also qualitative optical absorption led to identical particle size estimate. The variation of process parameters was used to study the effect and interdependence of process parameters. Artificial Neural Networks was used to rigorously analyze the process. Although this led to confirmation of interdependence of parameters, the presence of a single overwhelming solvent variable was also established. Then the optimal process was used to synthesize more nanopowder. To produce bulk nanocomposite the nanopowders were sintered by varying the temperature and time period. The sintered lithoids were probed with a vickers hardness tester to measure elastic modulus, hardness, and fracture toughness. The results showed high elastic modulus, modest hardness, and very high fracture toughness.     

Refrigerators Enter a New Era of Health Preservation Frestech initiates the establishment of China's first standard for household sterilization refrigerators

On November 30, 2007, the China Association for Standardization (CAS) held a press conference at Beijing Diaoyutai State Guest House. Leaders from the China Household Electric Appliance Research Institute, the China Household Electric Appliance Association, and the China Consumers' Association attended and made speeches.……     

Friction Stir Processing Strategies for Uniform Distribution of Reinforcement in a Surface Composite

Friction stir processing (FSP) is an important technique for preparing surface composites. Fabricating defect-free surface composites with uniform particle distribution by FSP is a challenging task. In this study, silicon carbide particles reinforced AA5083 alloy surface composites was fabricated using different FSP strategies including variation in process parameters, dual-tool processing and tool offset overlapping. Material flow of the processed material with reinforcement particles demonstrated that the distribution of particles was influenced by the stirring action of the probe as well as the extrusion of the plasticized material due to the movement of the tool. Process parameters, particularly rotational speed, showed a dominant influence on the distribution of silicon carbide particles.