共查询到20条相似文献,搜索用时 187 毫秒
1.
2.
3.
提出了一种采用悬臂梁式吸排油阀的超磁致伸缩液压泵结构,针对泵用悬臂梁阀工作时的流固耦合特性,基于单自由度振动理论与流固耦合作用下阀片振动参数等效计算原则,对超磁致伸缩泵悬臂梁被动阀进行了线性化数学建模,并在MATLAB/Simulink环境下进行了仿真研究。为研究其非线性特性,基于流固耦合力学原理,建立了超磁致伸缩泵悬臂梁被动阀流固耦合数值模型,并利用Comsol-CFD对其工作特性进行了数值求解。然后依据求解结果进行了深入分析,得到了阀片主要参数对泵性能的影响规律,为超磁致伸缩泵悬臂梁被动阀的主要结构参数的设计与优化提供相关依据。最后,通过不同厚度悬臂梁阀片在流固耦合作用下开启位移的线性理论结果与非线性数值结果的对比完成了模型验证,实验测试了超磁致伸缩泵的流量特性与阻断压力特性,得到了该泵峰值驱动频率为300Hz左右。 相似文献
4.
超磁致伸缩材料用于换能器后可实现大振幅的超声加工。超磁致伸缩换能器使用时会施加高频电流,内部会产生较大的涡流损耗,引起换能器内部系统的温升,造成不必要的能量损耗,因此对换能器内部进行优化设计,降低换能器内部的涡流损耗,可有效提高能量利用率,减小系统温升,提高换能器的振幅稳定性。建立了超磁致伸缩换能器内部涡流损耗的理论模型,特别分析了超磁致伸缩材料和永磁体切片对涡流损耗的影响。同时借助ANSYS Workbench软件对超磁致伸缩换能器工作时产生的涡流损耗及其引起的换能器整体的温升情况进行了有限元仿真分析,在理论层面得到了换能器内部的涡流损耗规律。最终提出了超磁致伸缩换能器的永磁体切片优化方案,结果表明,切片优化后的换能器涡流损耗明显降低,工作时温升情况得到明显抑制。 相似文献
5.
6.
7.
8.
9.
10.
为减小阀用超磁致伸缩致动器的体积,提出一种新型超磁致伸缩致动器,设计了其关键部件,最后通过实验分析了其静、动态特性.该新型超磁致伸缩致动器采用非磁性不锈钢套筒安装超磁致伸缩筒料和棒料的结构进行位移传递.设计了以碟簧为核心的预压机构、超磁致伸缩棒料和筒料、位移传递套筒、驱动线圈等超磁致伸缩致动器关键部件.实验表明,该致动器在工作区段最大输出位移可达100 μm,且在低频驱动(0 ~200 Hz)下动态特性良好.该新型超磁致伸缩致动器可以在保证与传统超磁致伸缩致动器低频输出特性基本一致的前提下减小了自身体积. 相似文献
11.
Clarence W.DE SILVA 《Instrumentation》2019,(4):72-84
An engineering system may consist of several different types of components,belonging to such physical"domains"as mechanical,electrical,fluid,and thermal.It is t... 相似文献
12.
The intersection of Quantum Technologies and Robotics Autonomy is explored in the present paper.The two areas are brought together in establishing an interdisci... 相似文献
13.
针对具有进油孔的有限长滑动轴承油膜力求解问题,采用变分原理和分离变量法,求得了有限长滑动轴承油膜压力分布的近似解析表达式。将油膜压力分布的近似解析表达式在油膜存在区域上进行积分,即得到了油膜力。将提出的计算有限长滑动轴承油膜力方法与无限长轴承模型、有限元方法的计算结果进行了比较,发现了提出的方法与有限元方法的计算结果很接近。最后,研究了进油孔位置和进油压力对油膜存在区域、油膜力等的影响,研究结果表明进油孔位置和进油压力对油膜存在区域和油膜力有较大的影响。 相似文献
14.
针对实际电网存在着大量的三绕组变压器,但国际上一些著名商业软件,如BPA仿真软件、Matpower这一权威潮流计算开源软件,均只提供双绕组变压器模型,限制了其在具有三绕组变压器的电力系统中的应用的问题,潮流计算是自主开发的电力系统各种应用软件的核心模块,因此依托国际权威开源程序进行二次开发,是一种较好的选择。对Matpower要求的数据格式进行了归纳,对变压器的一般的等值电路及带理想变压器的等值电路和带标幺值的等值电路进行了分析研究,提出了三绕组变压器转换为双绕组等效模型的建模方法,使得原先只适应双绕组变压器的潮流计算软件可以适用于三绕组变压器电网的潮流计算;最后以Matpower软件为例进行了案例计算,并用PSASP仿真软件进行对比验证。研究结果证明,所提出的建模方法是有效的。 相似文献
15.
A computer simulation model for the contact between longitudinally-oriented rough surfaces has been formulated. This model closely duplicates the actual surf ace contact deformation behavior by taking into account the elastic interactions between the asperities. There were no assumptions made about the shapes, or any deformation behavior of the asperities, except for their obeying the laws of elasticity. The plastic deformations on the high asperity peaks were taken into account by setting a ceiling on their contact pressures at the material hardness value. The simulations used real surface profiles which were digitized from unworn circumferentially ground steel surfaces. Each pair of these profiles was mathematically combined to form an equivalent rough profile pressing against an infinitely rigid flat and having the appropriately adjusted elastic modulus. A total of 28 different pairs of profiles were used in the simulations. Each contacting pair was subjected to 30 different load levels and the local contact pressures and deformations were calculated. The contact simulations yielded some important mathematical relationships between parameters, such as the real area of contact, average gap, and average asperity load through statistical curve fitting. Two analytical functions were generated to relate the average load to average gap and the real area of contact to load. 相似文献
16.
INTEGRAL EQUATION METHOD'S APPLICATION IN HOLE-EDGE STRESS OF COMPOSITE MATERIAL PLATE WITH DIFFERENT SHAPED HOLES 总被引:1,自引:0,他引:1
LI Cheng ZHENG Yanping 《机械工程学报(英文版)》2008,21(6):115-118
The strength of composite plate with different hole-shapes is always one of the most important but complicated issues in the application of the composite material. The holes will lead to mutations and discontinuity to the structure. So the hole-edge stress concentration is always a serious phenomenon. And the phenomenon makes the structure strength decrease very quickly to form dangerous weak points. Most partial damage begins from these weak points. According to the complex variable functions theory, the accurate boundary condition of composite plate with different hole-shapes is founded by conformal mapping method to settle the boundary condition problem of complex hole-shapes. Composite plate with commonly hole-shapes in engineering is studied by several complex variable stress fimction. The boundary integral equations are founded based on exact boundary conditions. Then the exact hole-edge stress analytic solution of composite plate with rectangle holes and wing manholes is resolved. Both of offset axis loadings and its influences on the stress concentration coefficient of the hole-edge are discussed. And comparisons of different loads along various offset axis on the hole-edge stress distribution of orthotropic plate with rectangle hole or wing manhole are made. It can be concluded that hole-edge with continuous variable curvatures might help to decrease the stress concentration coefficient; and smaller angle of outer load and fiber can decrease the stress peak value. 相似文献
17.
针对电站锅炉风险等级评价问题,将模糊综合评价技术应用到电站锅炉风险等级评价中。开展了电站锅炉失效影响因素及模糊评价因素的重要程度分析,建立了一套科学合理适于在线评价的电站锅炉风险评价体系,提出了模糊综合评价技术与改进的模糊层次分析法相结合的模糊风险评价方法,利用改进的模糊层次分析法计算了指标体系中各层指标权重。对某一台电站锅炉的实际运行工况影响子因素进行了模糊风险评价,采用模糊合成算子进行模糊综合运算得到电了站锅炉运行工况影响子因素的评价向量。研究结果表明:电站锅炉的运行工况影响子因素的风险评价等级为第6级,失效可能性等级为小,该电站锅炉运行工况良好。 相似文献
18.
30 keV Ga+ focused ion beam induced secondary electron (iSE) imaging was used to determine the relative contrast between several materials. The iSE signal compared from C, Si, Al, Ti, Cr, Ni, Cu, Mo, Ag, and W metal layers does not decrease with an increase in target atomic number Z2, and shows a non-monotonic relationship between contrast and Z2. The non-monotonic relationship is attributed to periodic fluctuations of the stopping power and sputter yield inherent to the ion–solid interactions. In addition, material contrast from electron-induced secondary electron (eSE) and backscattered electron (BSE) images using scanning electron microscopy (SEM) also shows non-monotonic contrast as a function of Z2, following the periodic behavior of the stopping power for electron–solid interactions. A comparison of the iSE and eSE results shows similar relative contrast between the metal layers, and not complementary contrast as conventionally understood. These similarities in the contrast behavior can be attributed to similarities in the periodic and non-monotonic function defined by incident particle–solid interaction theory. 相似文献
19.
The fraction defective of semi-finished products is predicted to optimize the process of relay production lines, by which production quality and productivity ar... 相似文献
20.
The use of hand gestures can be the most intuitive human-machine interaction medium.The early approaches for hand gesture recognition used device-based methods.... 相似文献