由27Al的核磁共振谱看高岭土与针铁矿的胶结本质

通过对高岭土与针铁矿的人工胶结样的²⁷ Al核磁田共振谱的分析,认为氢键生成是胶结本质。     

陕北晋西砂黄土的胶结物与胶结作用研究

在野外调查的基础上,采用SEM、XRD、土壤物理和土壤化学等方法,对陕北晋西12个县市的48个马兰黄土样品进 行了全分散法粒度组成测定、聚集体分析以及黄土胶结物组成的测试分析。结果表明,砂黄土中的粘土矿物和超细碳酸盐、 游离氧化物和有机质等胶结物质主要是以聚集体包膜的形式存在于碎屑颗粒表面,并构成砂黄土骨架间的结构联结,具有弱 胶结特性。砂黄土中粘土矿物和有机质为非水稳性胶结物质,仅在干燥状态具有较弱的胶结作用;黄土中的CaCO3呈粗颗粒 骨架和细分散超细碳酸钙两种形式存在,并分别起着骨架作用和胶结作用,超细碳酸钙为不可逆的胶结材料,在聚集体形成、 保存以及聚集体与碎屑颗粒之间的联结方面发挥着重要作用;非晶质游离氧化物(SiO2、Fe2O3、Al2O3)含量虽低,但由于他们 是以薄膜形式分布在颗粒表面,在黄土胶结作用中也是不可忽视的,并与上述各种胶结物共同起作用。通过统计分析认为, 凝聚系数可以较好地反映黄土的胶结程度,成为联系黄土胶结特性与黄土物理力学性质之间的桥梁。黄土胶结物组成及其 胶结机理的研究不仅有助于深化砂黄土工程特性的认识,而且对揭示黄土高原表生地球化学环境具有重要意义。     

由29Si NMR谱看高岭土与针铁矿的胶结本质

通过对高岭土与针铁矿的人工胶结样的²⁹Si NMR谱的分析,认为氢键生成是胶结本质.     

高岭土与针铁矿胶结样中27Al、29Si NMR谱与其原子电荷关系

由NMR谱实验得高岭土与针铁矿胶结样中²⁷Al、²⁹Si的化学位移较单一高岭土分别正移了2.7ppm和2.33ppm.由CNDO/2方法计算得到胶结样中Al、Si原子电行比高岭土分别减少了0.0787和0.0286.胶结样中Al、Si原子电荷的减少与²⁷Al、²⁹Si NMR谱化学位移相吻合,可以认为在高岭土与外铁矿的界面上形成了氢键而呈现胶结态.     

激光无损检测钣金胶接结构缺陷大小的判定

本文以周边固定、均匀加载的圆形薄板为钣金胶接结构脱胶的缺陷模型,在不同的实验条件下分别计算了全息与剪切散斑干涉术的条纹分布,从而建立了判定缺陷大小的经验公式。理论与实践符合较好。     

Morphology and Roughness of Silver Deposit Formed by Cementation at Various Temperatures in Pure Sulfuric Acid

The morphology and surface roughness of silver (Ag) deposit formed on metallic copper (Cu) by cementation conducted in a 0.5M H₂SO₄ solution was investigated at various temperatures above 25°. The influence of the presence or absence of oxygen (O₂) on Ag morphology was studied at an initial Ag⁺ concentration of 20 mg/dm³. An analysis of distribution diagrams of the surface height calculated from scanning‐electron‐microscope (SEM) top‐view images was performed. The cementation reaction results in a non‐homogeneous Ag deposit formed on the surface independently of the presence or absence of O₂ in solution. The Ag deposit covers Cu mainly with a uniform and compact layer with separated germs of predendrites, but also a huge ‘fern‐leaf‐shaped’ and ‘lycopodium‐twigs‐shaped’ dendrites appear occasionally on the surface. The presence of O₂ in the system and temperature do not affect significantly the morphology of Ag dendrite as well as a deposit formed on the smooth part of the surface. The roughness of surface with Ag cement varies with temperature only under aerobic conditions where the enhanced Cu corrosion increases the size of anodic sites. The results obtained from the surface‐height‐distribution diagrams constructed for anaerobic conditions showed that the reaction between Cu⁺ and Ag⁺ does not start in the bulk of the solution even at the highest studied temperature.     

Use of multiscale particle simulations in the design of nuclear plant decommissioning

The application of a digital modelling method that can faithfully take account of three-dimensional shape and inherent physical and chemical properties of each particulate component provides an essential tool in decommissioning design. This is useful in handling of high, medium and low level radioactive waste. The processes involve making decisions on where to cut existing plant components and then how to pack these components into boxes, which are then cemented and kept for long term storage as the level of radioactive declines with time. We illustrate the utility of the method and its ability to take data at plant scale (m-scale) and then deduce behaviours at sub millimetre scale in the packed containers. A variety of modelling approaches are used as a part of this approach including cutting algorithms, geometric and dynamic (distinct element) force models, and lattice Boltzmann methods. These methods are applicable to other complex particulate systems including simulation of waste, building recycling, heap leaching and related minerals processes. The paper introduces the basic concepts of this multi-scale and multi-model approach.     

由￣（27）Al的核磁共振谱看高岭土与针铁矿的胶结本质

通过对高岭土与针铁矿的人工胶结样的￣（２７）Ａｌ核磁田共振谱的分析，认为氢键生成是胶结本质。     

Surface‐Roughness Evolution During the Cementation of Silver Ions on Solid Copper in Aqueous Sulfuric Acid Solution

The evolution of the surface roughness during cementation of Ag⁺ conducted either in O₂‐free or O₂‐saturated aqueous H₂SO₄/CuSO₄ was investigated at two different initial concentrations of Ag⁺. The kinetics data of the process determined previously in the rotating cylinder were linked directly with scanning‐electron‐microscope (SEM) images and surface‐height‐distribution diagrams calculated for various cementation times. It was found that, at the beginning of the process, the surface roughness decreases due to formation of a flat Ag layer on the top of the surface, independent of the presence or absence of O₂ in the system. With increasing reaction time, an increase in the surface roughness was observed. The rate enhancement of the process is mainly responsible for the increase of the surface roughness in the O₂‐saturated solutions, especially at the higher initial Ag⁺ concentration (100 mg/dm³). The rate enhancement observed at a latter stage of the process, connected with the increase of the effective surface area of the cathodic sites, was separated from the rate enhancement induced by the competitive chemical process occurring in O₂‐free solution. The difference in the mechanisms of the processes conducted under aerobic and anaerobic conditions was reflected in the surface‐heigth distributions calculated from the SEM images.     

Temperature Influence on the Morphology and Roughness of Silver Deposit Formed by Cementation

The morphology and surface roughness of silver deposits formed by cementation in 0.5M H₂SO₄ solution containing 0.5M CuSO₄ was investigated at various temperatures. The influence of O₂ on the morphology of deposited Ag on the Cu surface was studied in solutions containing 20 or 100 mg/dm³ initial Ag⁺. Surface‐height‐distribution diagrams were calculated from scanning‐electron‐microscopic (SEM) images. For the lower Ag⁺ concentration, the formation of granular deposits occurred in the presence of O₂. In contrast, under anaerobic conditions, rather flat deposits with tiny Ag crystals were observed. For the higher Ag⁺ concentration, the presence of O₂ did not significantly affect the morphology of the Ag deposit, but increasing temperature resulted in more‐compact and denser dendrites. Differences in the Ag‐deposit morphology and surface roughness were attributed to a different mechanism in the absence of O₂. Under anaerobic conditions, a competitive reaction between Ag⁺ and Cu⁺ occurs in bulk solution, which consumes additional Ag⁺ ions. The SEM images and, especially, distribution diagrams of the surface height provided useful information on the formation and expansion of anodic sites on the Cu surface at various temperatures.