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.     

冲击荷载下C型G550冷弯钢的断裂机理研究

以C型G550薄壁冷弯钢构件为研究对象, 通过材料在不同应变率下的拉伸实验和数值模拟数据得到Johnson-Cook (J-C)本构模型和Johnson-Cook失效模型参数. 通过Abaqus软件模拟了不同冲击荷载作用下C型冷弯钢构件撕裂破坏的全过程, 利用落锤装置轴向冲击试验进行对比, 其实验结果与有限元数值模拟结果有良好的一致性. 此外, 对冲击试样撕裂断口进行微观形貌分析, 得到构件的断裂机理. 结果表明: 随着冲击速度的提高, 冲击力对构件的加载时间增加, 构件需要较大的塑性变形来吸收冲击能量; 冲击速度越高, 裂纹扩展功所占吸收冲击能量的比例越大, 显示出高速下裂纹扩展的能力越好; 冲击速度较高时, 以脆性断裂为主, 断口出现解理面, 甚至在高速变形时发生了绝热剪切破坏.     

Spinor Green’s functions via spherical means on products of space forms

We explicitly compute the Green’s function of the spinor Klein–Gordon equation on the Riemannian and Lorentzian manifolds of the form _M0×?×_MN$M_0\times ?\times M_N$, with each factor being a space of constant sectional curvature. Our approach is based on an extension of the method of spherical means to the case of spinor fields and on the use of Riesz distributions.     

Study of the sintering behaviour of MgB2 superconductor during hot-pressing

The densification behaviour of MgB₂ was studied when commercial powder was hot-pressed in the temperature range 1070–1190 °C. The mechanisms active during sintering were investigated by continuously recording the shrinkage vs. time and elaborating the data on the basis of Kingery’s model for liquid phase sintering. XRD and SEM analysis on final dense bodies were used to evaluate secondary phases formation during sintering and the effect of magnesium sublimation. AC magnetic susceptibility measurements were also performed to correlate the microstructural and morphological modifications induced by hot-pressing and the superconducting properties.     

永磁体空间磁场的分析计算及其在永磁磁力轴承中的应用

在介绍三种永磁体空间磁场计算模型的基础上,利用泛函理论分别推导出等效磁荷模型和等效电流模型对应的变分形式,并就等效磁荷模型详细地介绍了有限元法．由于等效磁荷模型使用仅有一个自由度的标量磁位,因而计算起来比具有三个自由度的矢量磁位的等效电流法更简便．从永磁磁力轴承磁场的计算算例中可以看出,用等效磁荷模型的有限元法计算永磁体空间磁场是非常简便和有效的．     

光刻物镜波像差检测平台移相装置的研制

针对基于剪切干涉原理的光刻投影物镜波像差检测设备中相移测量的需求,设计了一种移相装置.该装置采用了桥式放大机构,获得了较大放大比和相对紧凑的结构.从原理上对桥式放大机构进行了分析和讨论,得到了输入位移与其放大比之间的函数关系,并得到了其关系曲线.经过非线性有限元分析,对该装置的变形、受力和模态特性进行了验证.验证结果满足检测平台移相要求.     

高温超导电缆终端预制式应力锥的设计与分析

高温超导电缆终端是高温超导电缆系统的重要组成部分。借鉴常规电缆终端预制式应力锥的设计理论,结合高温超导带材的特殊工作特性,选用耐低温的绝缘材料,对高温超导电缆终端预制式应力锥进行设计。运用有限元分析软件ANSYS对设计的高温超导电缆终端预制式应力锥进行建模和仿真计算,得到终端处的电场和电位分布,并将仿真结果和理论计算结果进行对比分析,验证设计的可行性,为进一步的研究奠定了基础。     

电力机车用高温超导变压器电流引线导热路径延伸方法的研究

按照车用高温超导变压器对电流引线的要求,以有限元体传热学为分析基础,对电流引线进行了传热计算,给出了初步设计方案。针对车载变压器的有限空间,提出了通过将引线绕制成螺线管状的方法来解决引线的导热路径长度较长与空间可用高度不够的矛盾,并通过热损耗分析得出下端绕制方式优于上端绕制方式的结论。     

Combined wave and ray based room acoustic simulations of audio systems in car passenger compartments,Part I: Boundary and source data

The present series of papers summarizes the results of a three-year research project on the realistic simulation of car audio sound in car passenger compartments using a combined Finite Element (FE) and Geometrical Acoustics (GA) approach. The simulations are conducted for the whole audible frequency range with the loudspeakers of the car audio system as the sound sources. The challenges faced during the project relate to fundamental questions regarding the realistic sound field simulation in small enclosures with strong modal and diffraction effects.The paper denoted here as Part I focuses on boundary and source representations in the FE and GA domain and suggests guidelines for a best-possible acquisition of the required data. Since a straight-forward determination of the boundary and source characteristics is mostly hampered by the immense complexity and inhomogeneity of the materials and loudspeaker configurations inside a car compartment, different measurement and calculation methods have been applied to determine the required data and quantify the corresponding uncertainty. The paper clearly points out the strength and weaknesses of the applied methods depending on the considered frequency range and material characteristics. In order to keep the complexity of the FE simulations at a manageable level, all passive boundaries were considered as locally reacting with impedance conditions.Part II of the study applies the obtained data in combined FE-GA room acoustic simulations and compares the simulated room impulse responses (RIR) with corresponding measurement results. In a final step the observed differences in the RIRs are related to the uncertainty and inherent errors in the boundary and source representation.     

The effect of local electronic interaction on the optical properties of boron–nitride nanotubes

We investigate the behavior of optical absorption of boron–nitride nanotubes (6,0) in the context of Hubbard model at the paramagnetic sector. GW approximation has been implemented in order to make self-energy matrix of electronic system. Afterwards, the real and imaginary parts of transverse dielectric functions have been obtained using linear response theory. The results show that the frequency gap in the optical absorption decreases with Coulomb repulsion strength. Moreover the results show that the local Coulomb interaction leads to the appearance of the excitonic effects in the optical spectrum. Finally the effects of electronic concentration on the frequency behavior of imaginary part of dielectric function have been investigated.