拟线性常微分方程在半无限区间的边值问题

Existence of positive solution is established for boundary value problems of non-singular for a class quasi-linear ordinary differential equation on the semi-infinite interval. The results are obtained by using the nonlinear alternative of Leray-Schauder method.     

One-pot synthesis of N-aryl propargylamine from aromatic boronic acid,aqueous ammonia,and propargyl bromide under microwave-assisted conditions

A facile,one-pot synthesis of N-aryl propargylamine from aromatic boronic acid,aqueous ammonia,and propargyl bromide has been achieved under microwave-assisted conditions.The reactions can be smoothly completed within a total 10 min through a two-step procedure,including copper-catalyzed coupling of aromatic boronic acids with aqueous ammonia and following propargylation by propargyl bromide.     

砂岩方梁断裂过程区范围的实验确定方法

裂纹前端的断裂过程区是引起岩石非线性断裂及尺寸效应的主要原因。利用数字图像相关技术对砂岩开展了三点弯曲梁实验,获得观测区域高精度的全场位移和应变数据,根据断裂韧带区域水平位移和水平应变的分布特征,结合裂尖岩石颗粒变化的微观分析,提出采用裂纹尖端水平位移波动性和水平应变突变性所得到的波动系数和水平应变突变值,确定断裂过程区形状和临界尺寸的方法。结果表明:砂岩断裂过程区的形状为不规则的狭长带状区域,断裂过程区的临界长度为11~13mm,临界宽度为1.58~2.36mm。断裂过程区区域内形变在趋向裂尖时呈指数增加,但其单位区域内的形变增量呈波动状态。该方法能够更加准确判断岩石断裂过程区的范围,有助于分析岩石的非线性断裂特性。     

对甲氧基苯磺酰氯柱前衍生测定尿中游离羟脯氨酸与脯氨酸

以对甲氧基苯磺酰氯为衍生试剂,建立了分离测定人尿中游离羟脯氨酸和脯氨酸的高效液相色谱方法。考察了衍生温度、衍生缓冲液pH值、衍生时间、衍生剂用量对衍生反应的影响以及流动相组成、流动相缓冲液浓度、pH值和柱温对分离的影响。在优化条件下,羟脯氨酸和脯氨酸分别在5～100μmol/L和5～250μmol/L范围内呈良好线性,相关系数分别为0.999 4、0.999 5,检出限(S/N=3)分别为0.50 nmol/L和0.20 nmol/L,回收率(n=5)分别为95%～99%和96%～102%,相对标准偏差分别为2.1%～4.3%和2.0%～4.8%。该方法可用于人尿中游离羟脯氨酸和脯氨酸的定性定量分析。     

镁合金空心螺钉内固定治疗股骨颈骨折的有限元分析研究

利用有限元分析方法探究镁合金空心螺钉内固定治疗股骨颈骨折的生物力学特性, 旨在为临床治疗股骨颈骨折提供一种新的思路. 选取一例青年健康志愿者的下肢CT数据建立股骨三维模型, 在Mimics插件3-matic中建立股骨网格并赋予网格材料属性, 利用Solidworks 17.0软件建立空心螺钉模型, 将上述2个三维模型导入Workbench 2020软件中, 分别赋予空心螺钉镁合金、钛合金材料属性, 进行对比分析, 记录股骨及空心螺钉的峰值、应力分布值和股骨位移. 结果表明, 钛合金螺钉内固定模型最大应力为357.27MPa, 最大位移为0.034mm; 镁合金螺钉内固定模型最大应力为311.27MPa, 最大位移为0.034mm; 2组不同材料的空心钉结果数值差异不大. 研究表明镁合金空心螺钉和传统钛合金空心螺钉力学性能相似, 且镁合金更加亲和人体, 在临床方面可以镁合金空心螺钉代替钛合金空心螺钉治疗股骨颈骨折.     

Effect of Zn substitution for Co on the transport properties of Y BaCo4O7

Electrical resistivity and Seebeck coefficients of Y BaCo_4−xZn_xO₇ (x=0.0,0.5,1.0,2.0) were investigated in the temperature range 350-1000 K. It was found that the electrical resistivity and activation energy increase with increasing Zn concentration, while Seebeck coefficients do not increase but decrease when electrical resistivity increases. We explained the increase of electrical resistivity and the drop of Seebeck coefficients for Zn-substituted samples by the decrease of carrier mobility, rather than of carrier concentration. The effect of oxygen absorption and desorption on the electrical resistivity and Seebeck coefficients was also investigated. An abrupt change of transport properties happens at about 650 K for x=0.0 and 0.5 samples measured in oxygen. For x=1.0 and 2.0 samples, however, such change disappears and the transport behavior in oxygen is almost same as that in nitrogen due to the significant suppression of oxygen diffusion caused by the higher Zn concentration in these samples.     

基于加速度反馈的上反稳瞄系统最优控制研究

针对某车载上反稳瞄系统中火炮瞄准线稳定精度0.2 mrad的要求,提出在惯性速率稳定闭环内增加高增益的加速度闭环校正,形成多闭环的控制回路,并通过ITAE(integral of time-weightde absolute error)最优控制对系统控制回路的PID参数进行整定。对上反稳瞄系统构成进行分析,对控制系统的负载、陀螺和无刷力矩电机等闭环回路进行建模仿真;利用ITAE最优控制器对多闭环控制系统的PID控制参数进行调节;对系统添加随机干扰和单位阶跃响应,测试其相关性能。测试结果表明:相比传统的调整PID参数和单速度环控制系统,基于加速度多闭环ITAE最优控制器可以使系统抗扰动性能提高约78%,超调量减小约23%,摇摆稳定精度提高约29%,可较好地满足上反稳瞄系统稳定性能的要求。     

新型镁合金螺钉体外腐蚀降解及细胞活性研究

研究了基于NZ30K合金开发的新型Mg-3Nd-0.2Zn-0.4Zr-0.2Mn镁合金耐腐蚀性、体外降解行为特性及浸提液细胞生物毒性. 采用金相显微镜得到新型镁合金金相显微图, 采用扫描电镜(Scanning Electron Microscope, SEM)获取SEM图; 采用武汉科思特电化学工作站进行电化学测试, 并绘制动电位极化曲线, 以磷酸盐缓冲液(Phosphate Buffer Solution, PBS)模拟体液环境, 记录氢气析出体积并计算腐蚀速率; 利用细胞完全培养基测定pH值、重量变化曲线; 获取大鼠骨髓间充质干细胞(Bone Mesenchymal Stem Cells, BMSCs), 并利用完全细胞培养基制作新型镁合金浸提液, 检测细胞生物活性, 以ZA75镁合金为基础添加0.3%Mn元素制成合金作为对照组, 比较腐蚀电位、体外降解情况以及细胞活性. 结果表明: 新型Mg-3Nd-0.2Zn-0.4Zr-0.2Mn镁合金横截面等轴晶体组织细小均匀性较好, 纵截面呈长条状组织均匀性稍差; 自腐蚀电位较高, 为-1.3912V; 自腐蚀电流密度较低, 为7.37×10-7 A?cm-2; 体外析氢量低, 失重量、pH值变化幅度相对较小; 降解速率下降后呈现小范围上升后趋于平缓; 具有良好的细胞相容性, 可以促进BMSCs细胞增殖分化.     

Synthesis and Esterification of 3‐Ferrocenyl Acrylic Acid in Ionic Liquid

3‐Ferrocenyl acrylic acid, synthesized from ferrocenecarboxaldehyde and propandioic acid in water‐insoluble ionic liquid (1‐butyl‐3‐methylimidazolium hexafluorophosphate, [BMIM]PF₆) at 85 °C in high yield, was transformed to a series of 3‐ferrocenyl acrylate of alcohols and phenols in water‐soluble ionic liquid (1,3‐dimethylimidazolium dimethylphosphate, [DMIM]Me₂PO₄) at room temperature in the presence of dicyclohexylcarbodiimide (DCC) and 4‐dimethylaminopyridine (DMAP).     

High-temperature electronic transport properties of La1−xCaxMnO3+δ (0.0?x?1.0)

La_1−xCa_xMnO_3+δ (0.0?x?1.0) samples were prepared and their resistivity and Seebeck coefficients were measured in the high-temperature range. Ca doping changes the ratio of Mn³⁺/Mn⁴⁺ and influences the electronic transport behavior markedly. With the increase of Ca concentration, the samples change from a p-type semiconductor to an n-type one and Seebeck coefficient becomes increasingly negative. Low doping (x=0.2) and high doping (x=0.8) induces the drop of the resistivity compared with undoped LaMnO_3+δ and CaMnO_3+δ samples due to the rise of carrier concentration. However, the resistivity of moderate-doped samples (x=0.4, 0.6) is larger than low- and high-doped samples because dopant scattering decreases carrier mobility.