载荷条件

  • 网络loading condition
载荷条件载荷条件
  1. 模型的边界和载荷条件根据车辆前碰撞实验条件确定。

    The boundary and loading conditions were applied according to frontal impact test setup .

  2. 不同载荷条件对后牙单种植体义齿下颌骨应力的影响

    Influence of various loading conditions from posterior single tooth implant on stress distribution in the mandibula

  3. 另外,单独设定了Han驯an骨折的载荷条件,计算分析结果与预期接近。

    Additionally , the Hangman atlas fracture was simulated and the calculation gave the expected results .

  4. 以不同粒度的SiC为磨料,在不同载荷条件下利用销&盘磨损试验机测试了复合材料的二体磨料磨损性能。

    Pin on disk two body abrasion tests have been performed with different size of SiC abrasive under different loads .

  5. 钢网增强HDPE复合材料的受拉伸与弯曲载荷条件下的形变与破坏机理。

    It obtains the deformation and failure mechanism of the steel skeleton reinforced HDPE under tension and bending load conditions .

  6. 冲击载荷条件下FAE装药的应力计算

    The Stress Computation of FAE Charge under Condition of Impact Loading

  7. 在给定裂纹尺寸与载荷条件下,利用断裂评定程序对一裂纹缺陷进行了评定,得到了海底管线失效评定曲线(FAD图)。

    Under given crack dimensions and load condition , to appraise to cracks defects with fracture appraisal program and obtained submarine pipeline failure appraisal diagram ( FAD ) .

  8. 针对单个MWNTs在两种不同载荷条件下的扭转屈曲特性的研究,给出了临界扭转载荷的显式表达式。

    The torsional buckling characteristics of individual MWNTs under two different forms of loading are examined , and the explicit expressions of critical torsional load are given .

  9. 用MM-200磨损试验机对纯PTFE板料、3层复合材料(DU)及钉板型复合材料的工作层在干摩擦定载荷条件下的磨损性能进行了研究;

    Under dry friction condition and constant load , the wear properties of pure PTFE material , three-layer composite and copper nail plate composite were studied by MM-200 wear tester .

  10. 评定是在给定裂纹尺寸和载荷条件下,应用有限元分析,根据CTOD(裂纹尖端张开位移)试验结果进行的。

    Given crack size and load , the assessment was carried out according to the crack tip opening displacement test result and using finite element analysis .

  11. 应用改进的KR蠕变损伤本构方程,分析在550℃、恒载荷条件下的试样中心挠度、应变等随时间的变化规律以及试样蠕变损伤的发展与断裂过程。

    Modified K-R ( Kachanov-Rabotnov ) creep damage constitutive equations are used to analyze variation of central deflection and creep strain with time and the evolution of creep damage subjected to constant forces .

  12. 然后按照结构静力学分析流程,借助HyperMesh有限元软件对内滚筒进行静力学分析,计算其在静态载荷条件下的应力和变形。

    Secondly , according the structure of static anslysis process , use finite element software HyperMesh to calculate the statics stress and deformation of the internal drum .

  13. 在2700N轴向压缩载荷条件下,分别对各有限元模型的峡部、小关节应力、小关节接触力以及椎间盘负载进行测试。

    The isthmic stress , facet contact force and load transmission through disc were investigated under axial compression 2700N .

  14. 在不同的塑性指数和载荷条件下,该模型与GW弹性模型和CEB弹塑性模型就实际接触面积和法向距离的预测结果进行了对比。

    The model developed is compared with the GW elastic model and CEB elastic-plastic model on their predicted real contact area and mean separation for a wide range of contact load and plasticity index .

  15. 论文探讨了多孔AAO模板和在模板上纳米碳结构薄膜的制备工艺参数,并讨论了多孔AAO模板上生成的定向纳米碳管薄膜在微载荷条件下的摩擦性能。

    The preparation parameters of both the porous AAO template and carbon nanostructure synthesized on the template were obtained . The tribological properties of the film of well-aligned carbon nanotubes synthesized on the porous AAO template at relatively low loads were also evaluated .

  16. 论证了在实际工况热载荷条件(0.2MW)下,电流带辐射面温度及电流带整体结构强度满足设计要求。

    It is demonstrated that the radiation surface temperature and overall structure strength of the straps under the real thermal load ( 0.2MW ) satisfy the design requirements .

  17. 结果表明:在低载荷条件下摩擦系数较高,随着载荷升高摩擦系数降低;当滑动速度小于3.52m/s时,摩擦系数基本稳定在0.030;

    It has been found that the friction coefficients are relatively high at low load and decrease with the increase of load , then stabilize around 0.03 at a sliding speed below 3.52m/s .

  18. 通过不同边界条件和载荷条件的算例,探索了MWS最优权函数支持域的形状和大小、检验了中厚板静力分析MWS法的有效性和可行性。

    Through examples with various supported conditions under various loads , the optimal shape and size of the support domain of weighted functions are discussed , and the validity and the feasibility of the MWS method in the solution of the static problem for moderately thick plates are examined .

  19. 集中载荷条件下的履带车辆转向分析

    Steering Analysis of Tracked Vehicles with Concentrated Loads Contact Ground Distribution

  20. 循环载荷条件下岩石塑性滞回环的演化规律

    Evolvement of Plastic-loop of Fine-sandstone Under the Loading and Unloading Conditions

  21. 复杂循环载荷条件下金属的应力、应变规律

    The Stress - Strain Behaviors of Metals under Complex Cyclic Loading

  22. 轮胎侧偏特性在时变载荷条件下的试验设计

    Design on Test of Tire Cornering Properties Under Time Varying Load Conditions

  23. 非稳定载荷条件下疲劳强度的一种实用可靠性设计方法

    A Practical Reliability-Based Design Method for Fatigue Strength under Unsteady Loading Condition

  24. 双向载荷条件下Ⅰ型裂纹的疲劳扩展

    Growth of mode I fatigue cracks under biaxial loads

  25. 循环载荷条件下切槽试样断裂声发射检测技术研究

    AE Testing Technique Research on the Fracture of Grooving Sample under Cyclic Load

  26. 柴油机活塞在复杂载荷条件下的强度研究

    Intensity Studying of Desiel Engine Piston Under complex load

  27. 两种载荷条件下扁挤压筒的应力比较

    Comparison of stresses in the flat extrusion container under two different boundary conditions

  28. 结构静特性有限元解析中的一种边界载荷条件处理方法

    A Method of Determining Boundary Conditions in Analyzing Structural Static Behaviours with FEM

  29. 高载荷条件下石墨-石墨摩擦副的摩擦学特性研究

    Tribological Behavior of Self-mated Graphite Pair in Overload Conditions

  30. 高载荷条件下的材料表面摩擦因数测量

    Material Surface Friction Coefficient Measurements at Higher Pressure