Calculation of strain amplification matrix for strain invariant failure theory based on representative volume element models with periodical boundary condition

Strain invariant failure theory (SIFT) is a micro-mechanics-based failure theory for multi-scale failure analysis of composite materials originally proposed by Gosse and Christensen. In this paper, the approach for obtaining strain amplification matrix which is a key step for the execution of SIFT is improved by adopting representative volume element (RVE) finite element models considering periodical boundary condition, based on which more actual deformation mode is reflected. The deformation modes and strain data at the characteristic points of the centroid cell of multi-cell RVE model are analyzed and taken as a reference. It can be concluded that more reasonable deformation mode and relationship between the micro-mechanical and macro-mechanical strain states are obtained by employing the new model. Finally, numerical examples are provided to illustrate the determination of strain amplification factors within the RVEs considering periodical boundary condition at the characteristic points.     

Gain and noise figure analysis of Er<Superscript>3+</Superscript>-doped YAG transparent ceramic microchip amplifier

The rate equations and the power evolution equations based on excited state absorption (ESA) and cooperative upconversion (CUC) of high concentration erbium-doped yttrium aluminum garnet (YAG) transparent ceramic waveguide amplifier are set up to analyze the effects of the pump power, active ion concentration and waveguide length on the amplifier gain and noise figure (NF). The numerical analysis predicts that with a pump power of 100mW, an active ion concentration of 1.0×10²⁶ ion/m³ and a waveguide length of 3 cm, a small-signal gain of 30 dB and an NF of 5 dB can be achieved in the micro-chip amplifier.     

Design Consideration and Reconstruction Method for Double-source Double-multislice Spiral CT

To accelerate the scan speed and improve the image quality, a new type of CT configuration, "double-source double-multislice spiral CT" (DSDMS-CT), which is based on two sets of single-source multislice spiral CT was proposed with a special reconstruction algorithm. Simulation results using the fan-beam filtered backprojection algorithm with a special interpolation method were presented for both single-source multislice spiral CT and DSDMS-CT. The results of new CT model show that it scans faster than the traditional spiral CT and has a better slice sensitivity profile (SSP) with larger pitch value.     

超深塑排技市在软土地基加固工程中的应用

在洋山深水港软土地基加固中应用了超深塑排技术.介绍了该工程的概况和地质资料.阐述了设计技术要求.然后详细介绍了塑料排水板的主要工艺流程和施工方法,阐述了安全控制和质量控制的方法,对今后大面积的超深塑排施工有一定的借鉴意义.     

浅谈秦皇岛港煤五期码头设备的管理与维护

介绍了秦皇岛港煤五期工程投入生产以来,在设备管理和保养方面的一些具体方法。指出加强对码头设备维护保养,对提高作业效率和企业竞争力的重要意义。     

直流电源分配柜供电可靠性的分析与改进

本文分析了直流电源分配柜采用二极管耦合并联供电方式的可靠性,在此基础上提出采用专用直流电源切换装置以消除二极管耦合对直流电源可靠性的影响,并对新切换装置进行了相关说明.经测试验证,该装置满足了所述分配柜系统运行可靠性要求.     

铁路重载货车转向架技术应用探究

铁路重载货车转向架为铁路重载运输提供保障.由于铁路重载货车的重载质量不断增加,运行的速度越来越快速,从而造成了轮轨的损坏,这就需要加强对转向架技术的深入研究.对我国铁路重载货车转向架技术发展的历程进行阐述,详细分析了铁路重载货车转向架技术的应用,并对铁路重载货车转向架的发展趋势进行阐述.     

基于PMS理论的常规潜艇任务可靠性研究

针对常规潜艇功能复杂、任务多变的特点,将多阶段任务系统(phased mission system,PMS)理论引入到其任务可靠性的分析中.深入分析常规潜艇的鱼雷攻击任务,建立任务可靠性模型,用马尔可夫过程法进行了任务可靠度计算,为常规潜艇任务可靠性模型的建立提供一种新方法.     

舰船开孔流动噪声控制措施研究

基于计算流体软件,采用大涡模拟方法计算了给定来流速度条件下表面开孔的非定常流场,分析了流场的非定常流频谱特性,采用边界元方法模拟了噪声源特征,对各种流动噪声控制措施进行了对比分析.计算结果表明,开孔形式的改变会直接影响流噪声的水平,设计结果可以为舰船流水孔的降噪设计提供参考.     

OpenGL在挖泥船疏浚仿真中的应用

在Visual Basic可视化集成开发环境下实现OpenGL的调用,并在OpenGL中读取3DS MAX挖泥船模型信息,实现绞吸式挖泥船疏浚动态显示。