Synthesis of 1,5-dinitroaryl-1,4-pentadien-3-ones under ultrasound irradiation

1,5-Dinitroaryl-1,4-pentadien-3-ones were synthesized with ultrasound irradiation in the presence of K(2)CO(3) as catalyst. The reaction mechanism and the factors influencing the product were also discussed. The present procedure is more convenient with shorter reaction time and higher yields compared with conventional methods.     

Beam-helicity asymmetry in photon and pion electroproduction in the Δ(1232)-resonance region at Q2 = 0.35(GeV/c)2

The beam-helicity asymmetry has been measured simultaneously for the reactions p→epγ and p→epπ ⁰ in the Δ(1232)-resonance region at Q ² = 0.35(GeV/c)². The experiment was performed at MAMI with a longitudinally polarized beam and an out-of-plane detection of the proton. The results are compared with calculations based on dispersion relations for virtual Compton scattering and with the MAID model for pion electroproduction. There is an overall good agreement between experiment and theoretical calculations. The remaining discrepancies may be ascribed to an imperfect parametrization of some γ ^(*) N→πN multipoles, mainly contributing to the non-resonant background. The beam-helicity asymmetry in both channels (γ and π ⁰) shows a good sensitivity to these multipoles and should allow future improvement in their parametrization.     

阵不变量匹配主动声呐目标深度辨识

水面/水下目标深度辨识可以在主动声呐探测过程中快速筛选感兴趣目标。根据目标多径返回信号到达时间与目标深度的关联性,该文提出了基于水平线阵的主动脉冲响应匹配目标深度辨识方法,该方法利用主动信号传播特性结合阵不变量理论提取脉冲响应,并与拷贝声场匹配实现目标深度估计。在校正了目标多径回波的方位变化后,该方法提取的时域特征较为稳定,并且只在时延估计距离处进行深度搜索。通过水平阵收集的宽带实验数据,在连续的多次回波中实现了对水面/水下目标92%的辨识成功率,验证了该方法在浅海环境下的目标深度估计能力。     

200℃偶极发射换能器研究

高温偶极子发射换能器是200℃高温多极子阵列声波测井仪器研发需要攻克的主要核心关键技术问题之一。针对这一问题,该文从材料选型和工艺改良两个方面开展技术攻关,研发了耐温达200℃偶极子发射换能器,样机耐温性能测试表明其能够在200℃下连续工作12 h而不损坏,声性能测试样机最大发射电压响应为124 dB,具有与现用换能器相当的辐射性能,样机尺寸及工作频率与现用换能器几乎完全一致,可以方便地对现用仪器进行升级。目前搭载该样机的仪器已经通过孤古8实验井测试,并在新疆顺北油田现场近9000 m井下取得高质量数据,达到设计目的。该文为开展更高温换能器研发提供了详细的研究思路。     

Up-to-constants comparison of Liouville first passage percolation and Liouville quantum gravity

Science China Mathematics - Liouville first passage percolation (LFPP) with the parameter ξ > 0 is the family of random distance functions $${\left\{ {D_h^\epsilon} \right\}_{\,...     

Improving the luminous efficiency of quantum dot-converted LEDs by doping boron nitride nanoparticles

Optical Review - Quantum dot-converted LEDs (QCLEDs) are a new type of LED device. However, the low luminous efficiency of the QCLED cannot meet the requirements for practical applications. In this...     

贮液椭圆筒在水中的横向自由振动

本文研究贮液椭圆筒在水中的横向自由振动问题,给出了贮液椭圆筒在水中横向自由振动的振型函数和固有频率的精确计算公式,结果可由计算机解出。同时指出,内外液体对椭圆筒振动的影响等效一附着于筒体上的广义分布质量.     

组合单元法在砂井地基有限元分析中的应用

针对砂井地基的平面应变有限元分析，本文首次将组合单元法引入到砂井地基的分析中，提出砂墙组合单元。该单元对常规等参元进行改进，在单元内部同时考虑砂井的涂抹作用和井阻作用，从而克服了常规有限元法在计算砂井地基时单元数和节点数过多的缺点。将砂墙组合单元加入USAP有限元计算软件，工程算例分析结果表明：与已有的各砂井地基的平面应变解答和荷兰的基础工程有限元分析软件PLAXIS相比，解答合理并有效地考虑砂井的涂抹作用和井阻作用；与常规有限元法相比，在保证计算精度的前提下，减少了可观的单元数和节点数，降低了计算的工作量。     

三维裂纹体应力强度因子的计算

本文采用塌缩三棱柱形奇异单元的位移计算应力强度因子，给出了一个新的全三维外推公式，它是Ｃｈｅｎ和Ｋｕａｎｇ公式〔１３〕的全三维推广，特例证明，它的精度比Ｉｎ－ｇｒａｆｆｅａ和Ｍａｎｕ的公式〔８〕高一阶。数值计算表明，结果稳定和对单元尺寸改变不敏感     

镍基合金－碳化铬复合涂层耐磨特性的研究

用真空熔烧法在４５＃钢表面制取了镍基合金－碳化铬复合涂层，用扫描电子显微镜和Ｘ射线衍射仪分析了这种涂层的微观结构、物相组成和性能，并对这种涂层的耐磨特性进行了试验研究．结果表明：镍基合金－碳化铬复合涂层与底材形成了牢固的冶金结合，同时还含有较高比例的硬质相；碳化铬的加入使涂层的耐磨性显著提高，在给定的试验条件下分别于干摩擦和２０＃机械油润滑时，镍基合金－碳化铬复合涂层的耐磨性比４５＃钢的分别高５倍和１０倍以上