基于虚拟仪器的惯性敏感器自动测试系统

介绍了基于虚拟仪器技术的惯性敏感器自动测试系统的实现方法.系统可用于对多种敏感器进行测试,具有X-Y和V-T两种测试方式.系统除了能完成测试任务之外,还添加了仿真模块,可根据用户设定的敏感器指标模拟输出测试曲线,用于与实际测试情况进行比较.在数据处理与分析中建立了各种敏感器参数的解算模型,用户可根据实际测试需要进行动态选取.对测试需求进行了分析,提出了系统的总体方案与组成结构,对硬件配置作了说明,介绍了软件的模块化设计方案,列出了软件运行流程图,最后给出了测试实例.应用证明,该系统在功能、操作性、通用性及可靠性等方面达到了预期效果.     

天然纤维增强复合材料力学性能及其应用

本文介绍了天然纤维的化学成分、结构以及力学性能;综述了天然纤维的表面处理方式,分析了其作用机理,并讨论了表面处理对其复合材料力学性能的影响;从增强体形式出发,介绍了短纤维、纤维毡、纤维织物以及单向纤维增强复合材料,并研究了成型工艺、纤维含量和表面处理等对其拉伸、弯曲、界面性能和冲击强度以及断裂韧性的影响;最后总结了天然纤维增强复合材料在汽车、建筑土木等领域的应用现状,并展望了其发展和应用前景。     

利用声波干涉抑制旋转式压缩机的辐射噪声

压缩机是制冷设备的主要噪声源之一,其辐射噪声的抑制很有必要.理论分析了两列声波在自由场和管道中传播特性,证实了在管道中的两列声波能够产生有效干涉从而降低声压幅值.将压缩机储液器内的双管吸气改为了单吸气,数值分析表明了改进后壳体辐射噪声得到了明显抑制.声学实验验证了数值计算结果和理论分析,单吸气压缩机总声压级降低了约1.2dB(A).     

缝合复合材料层板刚度预报

提出了缝合复合材料层板的刚度预报模型,该模型考虑了缝合针脚处的孔洞对刚度的影响,描述了缝合孔洞的几何形态,建立了孔洞形态与纤维弯曲的关系,采用平均刚度法和经典层合板理论进行了刚度预报,获得了与试验数据相吻合的预报结果,表明了该模型的有效性,详细探讨了缝合孔洞对缝合层板刚度的影响规律,得到一些有益结论。     

无风条件下马蹄波波面演化特征的实验研究

在实验室无风条件下对马蹄波进行了实验研究. 得到了L2型的马蹄波,也发现了两种新的类似马蹄波的波型,给出了马蹄波的横向波长和波高参数的几何特征,分析了马蹄波演化的过程中波面时间历程和振幅谱特征,讨论了马蹄波产生的机理和条件.      

在普通力学课程中开展研究性学习的探索

 讨论了研究性学习的内涵,给出了力学研究性学习的部分参考课题,通过 教学案例归纳了研究性学习中的师生互动的6个步骤,并对教师的角色转变进行了分析.通过 研究性学习的实施,学生学习力学的积极性得到了提高,创新意识和能力得到了增强.为在力 学课程中开展研究性学习提供了重要的参考和借鉴.     

绿色润滑油的发展概况

概述了绿色润滑油的发展状况,阐述了绿色润滑油的含义,阐述了绿色润滑油的含义,介绍了生物降解试验方法,通过对绿色润滑油基础油及基适用的添加剂的综述,提出了绿色润滑油发展过程中存在的主要问题,并对将来的发展趋势进行了展望。     

线圈炮电枢（圆柱壳）的屈曲分析

对线圈炮的电枢在径、轴向复合非均布电磁荷载作用下的弹性屈曲问题进行了有限元分析。采用八节点等参元，建立了圆柱坐标下的计算模型，给出了电磁力的计算，处理了剪切锁定与荷载移置等问题，编写了完善圆柱薄壳的屈曲分析程序ＳＢＴ。并对某五级炮的电枢进行了计算，获得了三个典型时刻的临界荷载。     

两斜交圆柱壳应力分析的边界元法

本文研究了两斜交圆柱壳的边界元法。提出了用板的基本解叠加级数形式的修正项构成圆柱壳的基本解,提高了计算精度,缩短了计算时间。对区域积分进行特殊处理,从而避免了内部网格的划分,大大减少了数据准备工作量和占机内存。并编制了FORTRAN计算程序,进行了数值计算。     

硅对激光的响应

综述了硅材料在激光辐照下出现的各种效应研究结果。重点探讨了硅对激光的吸收机制,给出了波长、温度、声子能量、激光强度、自由载流子浓度等因素对吸收系数的影响机理。探讨了载流子及能量的输运过程和载流子复合机理,分析了各种复合机制的重要程度,探讨了损伤特性与激光参数的关系。     

Effect of secondary zone dimensions on melt fracture manifestations of high density polyethylene

An experimental study was performed on melt fracture phenomena in extrusion of high density polyethylene. The purpose of the work was to study the sensitivity of melt fracture driven roughness to the size of recirculation zones, viz. secondary zones. The experimental apparatus consists of a right angle die and a hypodermic needle used as a capillary. The position of the needle relative to the die was adjusted using a special fixture. The roughness of the extrudate was studied as a function of penetration depth. A developed procedure provides a comparison between profile lengths of extruded strands. The computed mean, median, and mode values for roughness were presented as a function of capillary position. A qualitative analysis was conducted for the force oscillations during extrusion with a separate set of dies, equipped with the fixed capillaries of identical lengths and different depths of penetration. It was observed that the oscillatory pattern is sensitive to the sizes of the secondary zones. This qualitative observation supports the conclusions from the quantitative analysis that the roughness of the extrudate can be controlled through an adjustment of the secondary zone sizes.Partly presented at the 58th Annual Meeting of the Society of Rheology, Tulsa, Oklahoma, October 20–23, 1986     

Rainwater rivulets on a cable subject to windFilets d'eau de pluie sur un câble soumis au vent

Rainwater rivulets appear on inclined cables of cable-stayed bridges when wind and rain occur simultaneously. In a restricted range of parameters this is known to cause vibrations of high amplitudes on the cable. The mechanism underlying this effect is still under debate but the role of rainwater rivulets is certain. We use a standard lubrication model to analyse the dynamics of a water film on a cylinder under the effect of gravity and wind load. A simple criterion is then proposed for the appearance and position of rivulets, where the Froude number is the control parameter. Experiments with several geometries of cylinder covered with water in a wind tunnel show the evolution of the rivulets with the Froude number. Comparison of the prediction by the model with these experimental data shows that the main mechanism of rivulet formation and positioning is captured. To cite this article: C. Lemaitre et al., C. R. Mecanique 334 (2006).     

A physico-mechanical approach to modeling of metal forming processes—part I: theoretical framework

A combined physico-mechanical approach to research and modeling of forming processes for metals with predictable properties is developed. The constitutive equations describing large plastic deformations under complex loading are based on both plastic flow theory and continuum damage mechanics. The model which is developed in order to study strongly plastically deformed materials represents their mechanical behavior by taking micro-structural damage induced by strain micro-defects into account. The symmetric second-rank order tensor of damage is applied for the estimation of the material damage connected with volume, shape, and orientation of micro-defects. The definition offered for this tensor is physically motivated since its hydrostatic and deviatoric parts describe the evolution of damage connected with a change in volume and shape of micro-defects, respectively. Such a representation of damage kinetics allows us to use two integral measures for the calculation of damage in deformed materials. The first measure determines plastic dilatation related to an increase in void volume. A critical amount of plastic dilatation enables a quantitative assessment of the risk of fracture of the deformed metal. By means of an experimental analysis we can determine the function of plastic dilatation which depends on the strain accumulated by material particles under various stress and temperature-rate conditions of forming. The second measure accounts for the deviatoric strain of voids which is connected with a change in their shape. The critical deformation of ellipsoidal voids corresponds to their intense coalescence and to formation of large cavernous defects. These two damage measures are important for the prediction of the meso-structure quality of metalware produced by metal forming techniques. Experimental results of various previous investigations are used during modeling of the damage process.      

Bag breakup of nonturbulent liquid jets in crossflow

An experimental investigation of the bag breakup of round nonturbulent liquid jets in gaseous crossflow at room temperature and pressure is described. Pulsed photography, pulsed shadowgraphy, and high-speed imaging were used to observe the column and surface waves along the liquid jet and the formation and breakup of bags. Measurements included: wavelengths of column and surface waves, jet velocities, the number of bags along the liquid jet, the number of nodes per bag, droplets sizes and velocities, and trajectories of droplets. Present results show that the column waves of a nonturbulent liquid jet in crossflow within bag breakup regime can be explained based on Rayleigh–Taylor instability. The number of nodes per bag affected the breakup mechanism of the bags. Three distinctive sizes of droplets were produced due the breakup of the bag membrane, the ring strings and the ring nodes. The size of the droplets resulting from the breakup of the bag membrane was constant independent of the crossflow Weber number. Finally different trajectories were observed for the three groups of droplets.     

弹性体摩擦的黏滞疲劳理论及实验研究

为了更好地解决弹性体摩擦学方面的问题,建立了弹性体摩擦的黏滞疲劳理论,阐明了弹性体摩擦是粘附的表面拉伸效应和迟滞的体积变形效应的综合作用,揭示了弹性体磨损的本质机理是周期性疲劳破坏,解释了弹性体在摩擦过程中的各种特征现象.实验论证了黏滞疲劳理论在摩擦和磨损方面的可行性和精确性.通过建立的公式计算了弹性体的摩擦系数和摩擦力,并控制误差在6%的范围内;计算了弹性体的表观单位磨损率,并控制误差在7%的范围内.     

Formulation of a linear three-dimensional hydrodynamic sea model using a Galerkin-eigenfunction method

The three dimensional linear hydrodynamic equations which describe wind induced flow in a sea are solved using the Galerkin method. A basis set of eigenfunctions is used in the calculation. These eigenfunctions are determined numerically using an expansion of B-splines. Using the Galerkin method the problem of wind induced flow in a rectangular basin is examined in detail. A no-slip bottom boundary condition with a vertically varying eddy viscosity distribution is employed in the calculation. With a low (of order 1 cm²/s) value of viscosity at the sea bed there is high current shear in this region. Viscosities of the order of 1 cm²/s) value of viscosity at the sea bed there is high current shear in this region. Viscosities of the order of 1 cm²/s near the sea bed together with high current shear in this region are physically realistic and have been observed in the sea. In order to accurately compute the eigenfunctions associated with large (of order 2000 cm²/s at the sea surface to 1 cm²/s at the sea bed) vertical variation of viscosity, an expansion of the order of thirty-five B-splines has to be used. The spline functions are distributed through the vertical so as to give the maximum resolution in the high shear region near the sea bed. Calculations show that in the case of a no-slip bottom boundary condition, with an associated region of high current shear near the sea bed, the Galerkin method with a basis set of the order of ten eigenfunctions (a Galerkin-eigenfunction method) yields an accurate solution of the hydrodynamic equations. However, solving the same problem using the Galerkin method with a basis set of B-splines, requires an expansion of the order of thirty-five spline functions in order to obtain the same accuracy. Comparisons of current profiles and time series of sea surface elevation computed using a model with a slip bottom boundary condition and a model with a no-slip boundary condition have been made. These comparisions show that consistent solutions are obtained from the two models when a physically relistic coefficient of bottom friction is used in the slip model, and a physically realistic bottom roughness length and thickness of the bottom boundary layer are employed in the no-slip model.     

Effect of triaxial stress constraint on the deformation and fracture of polymers

One purpose of this paper is to give a brief overview on the research status of deformation, fracture and toughening mechanisms of polymers, including experimental, theoretical and numerical studies. Emphasis is on the more recent progresses of micromechanics of rubber particle cavitation and crazing, and the development of fracture criteria for ductile polymers. The other purpose is to study the effect of triaxial stress constraint on the deformation and fracture behavior of polymers. Polycarbonate (PC), acrylonitrile-butadienestyrene (ABS) and PC/ABS alloy are considered in this investigation. A series of circumferentially blunt-notched bars are used to experimentally generate different triaxial stress fields. The fracture surfaces of specimens with different notch radius are examined by scanning electron microscope (SEM) to study the fracture and toughening mechanisms of polymer alloy. It is shown that the triaxial stress constraint has a significant effect on the deformation, fracture and toughening of PC, ABS and PC/ABS alloy. We will also discuss the extent to which a micromechanics criterion proposed by the first author can serve as a fracture criterion for ductile polymers. A new ductile fracture parameter is emphasized, which can be employed to evaluate the fracture ductility of polymers. Stress state independence of the parameter for the PC, ABS and PC/ABS alloy has been experimentally verified. The project supported by the National Natural Science Foundation of China (10125212), the Trans-Century Training Program Foundation and the Key Research Fund of the Education Ministry of China (01159)     

Structure initiale et propriétés de liquéfaction statique d'un sableInitial structure and static liquefaction properties of sand.

Based on the use of two different preparation procedures for reconstituting triaxial samples of sand, i.e. wet tamping and dry pluviation, significant differences in associated mechanical behaviour are observed on a reference sand with respect to the phenomenon of ‘static’ liquefaction. Wet tamping favours the initiation of liquefaction instability, whereas dry pluviation favours a more stable behaviour, less susceptible to liquefaction. Microscopic observation of corresponding sand specimens allows us to identify two well differentiated structures, i.e., for wet tamping, an irregular structure with predominance of aggregates (aggregated grains) and macropores, very contractant and unstable and, for dry pluviation, a more regular structure, without macropores, more dilatant and more stable. These observations show the importance of further characterization, based on the introduction of appropriate parameters, of the initial structure of sandy materials, strongly dependant upon their mode of formation (natural or artificial). To cite this article: N. Benahmed et al., C. R. Mecanique 332 (2004).