一种自润滑镍基合金显微组织和相结构分析

为了进一步优化研制的含硫高温自润滑镍基合金的综合性能，以将其应用于新型高效热引擎和推进系统为目的，利用光学显微镜、扫描电子显微镜、电子探针和Ｘ射线衍射仪等，对一种铸态的含硫高温自润滑镍基合金的显微组织和相结构进行了分析．结果表明：这种合金主要由以合金元素Ｆｅ，Ｃｏ，Ｃｒ和Ｍｏ等固溶强化的镍基固溶体基体相、硫化物相Ｃｒ３Ｓ４和复合碳化物相（Ｍｏ０．９Ｃｒ０．１）２Ｃ所组成，具有三元共晶组织特征的显微组织；这种合金的摩擦磨损性能良好，但因Ｃｒ３Ｓ４多呈粗大网状分布，故其强度和冲击韧性都比较差．这为通过调整合金的成分和制备工艺，或采用适当的热处理及后加工工艺改善合金的性能提供了科学依据     

最优控制与计算结构力学的模拟理论

控制理论和计算力学原来是两个互不相关,独立发展的领域,各有自己的一套理论体系。最近发现,控制理论与结构力学之间存在着一一对应的模拟关系。这一相似性原理的发现使得这两个领域里的成果可以互相促进,特别是用计算结构力学解决最优控制问题已显示出独特的优越性。由此产生了一门模拟理论。本文简要介绍该理论的进展。     

钻孔法测量残余应力过程中钻孔附加应变

本文叙述了钻孔法测量残余应力过程中的附加应变.研究应力水平对附加应变的影响是在单向应力条件下进行的,结果表明,钻孔条件、材料状态以及残余应力达到一定值时,附加应变为零.     

High-temperature creep resistant ternary blends based on polyethylene and polypropylene for thermoplastic power cable insulation

The impact of a small amount of polystyrene-b-poly(ethylene-co-butylene)-b-polystyrene (SEBS) on the thermomechanical and electrical properties of blends comprising low-density polyethylene (LDPE) and isotactic polypropylene (PP) is investigated. SEBS is found to assemble at the PP:LDPE interface as well as within isolated PP domains. The addition of 10 wt% SEBS significantly increases the storage modulus between the melting temperatures of the two polyolefins, 110 and 160°C, and results in improved resistance to creep during both tensile deformation as well as compression. Furthermore, the ternary blends display a very low direct-current (DC) conductivity as low as 3.4 × 10⁻¹⁵ S m⁻¹ at 70°C and 30 kV mm⁻¹, which is considerably lower than values measured for neat LDPE. The here presented type of ternary blend shows potential as an insulation material for high-voltage direct current power cables.     

Janus monolayer TaNF: A new ferrovalley material with large valley splitting and tunable magnetic properties

Materials with large intrinsic valley splitting and high Curie temperature are a huge advantage for studying valleytronics and practical applications. In this work, using first-principles calculations, a new Janus TaNF monolayer is predicted to exhibit excellent piezoelectric properties and intrinsic valley splitting, resulting from the spontaneous spin polarization, the spatial inversion symmetry breaking and strong spin−orbit coupling (SOC). TaNF is also a potential two-dimensional (2D) magnetic material due to its high Curie temperature and large magnetic anisotropy energy. The effective control of the band gap of TaNF can be achieved by biaxial strain, which can transform TaNF monolayer from semiconductor to semi-metal. The magnitude of valley splitting at the CBM can be effectively tuned by biaxial strain due to the changes of orbital composition at the valleys. The magnetic anisotropy energy (MAE) can be manipulated by changing the energy and occupation (unoccupation) states of d orbital compositions through biaxial strain. In addition, Curie temperature reaches 373 K under only −3% biaxial strain, indicating that Janus TaNF monolayer can be used at high temperatures for spintronic and valleytronic devices.     

赣南离子吸附型稀土矿床成矿特征概述

赣南是我国离子型稀土资源的主产区之一,其成矿母岩分布广,成矿条件优越,稀土配分类型多样。本文从成矿背景和矿床分布规律,成矿母岩和矿体赋存特征,以及矿石中稀土的赋存状态和配分类型等方面较为详细地总结了赣南稀土矿床成矿地质特征。     

A disposable laser print-cut-laminate polyester microchip for multiplexed PCR via infra-red-mediated thermal control

Infrared (IR)-mediated thermal cycling system, a method proven to be a effective for sub-μL scale polymerase chain reaction (PCR) on microchips, has been integrated with DNA extraction and separation on a glass microchip in a fully integrated micro Total Analysis System by Easley et al., in 2006. IR-PCR has been demonstrated on both glass and PMMA microdevices where the fabrication (bonding) is not trivial. Polyester-toner (PeT) microfluidic devices have significant potential as cost-effective, disposable microdevices as a result of the ease of fabrication (∼$0.25 USD and <10 min per device) and availability of commercial substrates. For the first time, we demonstrate here the thermal cycling in PeT microchips on the IR-PCR system. Undesirable IR absorption by the black-toner bonding layer was eliminated with a spatial filter in the form of an aluminum foil mask. The solution heating rate for a black PeT microchip using a tungsten lamp was 10.1 ± 0.7 °C s⁻¹ with a cooling rate of roughly −12 ± 0.9 °C s⁻¹ assisted by forced air cooling. Dynamic surface passivation strategies allowed the successful amplification of a 520 bp fragment of the λ-phage genome (in 11 min) and a 1500 bp region of Azospirillum brasilense. Using a centrosymmetric chamber configuration in a multichamber PeT microchip, homogenous temperature distribution over all chambers was achieved with inter-chamber temperature differences at annealing, extension and denaturing steps of less than ±2 °C. The effectiveness of the multichamber system was demonstrated with the simultaneous amplification of a 390 bp amplicon of human β-globin gene in five PeT PCR microchambers. The relative PCR amplification efficiency with a human β-globin DNA fragment ranged from 70% to 90%, in comparison to conventional thermal cyclers, with an inter-chamber standard deviation of ∼10%. Development of PeT microchips for IR-PCR has the potential to provide rapid, low-volume amplification while also integrating PCR with extraction upstream and separation/detection downstream.     

Investigation of the kinetic process of solid phase microextraction in complex sample

The presence of complex matrix in the aquatic system affects the environmental behavior of hydrophobic organic compounds (HOCs). In the current study, an automated solid-phase microextraction (SPME) desorption method was employed to study the effect of 2-hydroxypropyl-β-cyclodextrin (β-HPCD) on the kinetic process of 5 selected polyaromatic hydrocarbons (PAHs) desorbing from the fiber in aqueous sample. The results showed that the added β-HPCD facilitated the desorption rates of PAHs from SPME fiber coating, and the enhancement effect can be predicted by a proposed theoretical model. Based on this model, the kinetic parameters of organic compounds desorbing from the SPME fiber can be determined, and the calculated results showed good agreement with the experimental data. In addition, the effect of temperature on the desorption kinetic was investigated. The results found that the SPME desorption time constant increased as the sampling temperature elevated, and followed the Arrhenius equation. Also, the temperature facilitated the desorption of HOCs from the bound matrix so that increased the lability degrees of the bound compounds. Finally, a calibration method based on the proposed theoretical model was developed and applied for the analysis of unknown sample.     

过渡金属催化多氟芳烃碳氢键直接官能化

多氟芳烃衍生物是一种在医疗和有机半导体材料等方面有重要用途的化合物。本文介绍了近8年来过渡金属钯、铑、铜、镍催化多氟芳烃碳氢键直接官能化反应的进展。