微观力学

  • 网络micromechanics;Micro-Mechanics
微观力学微观力学
  1. 高延性水泥基复合材料(engineeredcementitiouscomposite,ECC)是经系统的微观力学设计,在拉伸和剪切荷载下呈现高延展性的一种纤维增强水泥基复合材料。

    Engineered cementitious composite ( ECC ) is a fiber reinforced cement based composite material systematically designed on the basis of micromechanics and engineered to achieve high ductility under tensile and shear loading . ECC as an emerging con - struction material is overviewed .

  2. 复合固体推进剂非线性粘弹本构方程的微观力学分析

    Micromechanics Analysis on Nonlinear Viscoelastics Constitutive Model for Composite Solid Propellant

  3. 分析了TaC涂层中游离C对涂层微观力学性能的影响。

    The effects of free C on mechanical properties of TaC coating were also studied .

  4. SiO2非金属夹杂物对镍基粉末高温合金微观力学行为的影响

    Effect of SiO_2 Non-Metallic Inclusion on Micro-Mechanical Behavior of Nickel-Base P / M Superalloy

  5. PVDNiAl涂层微观力学性能的测定

    Measurement of Micromechanical Properties of PVD NiAl Coating

  6. 对MgO/Ni系梯度功能材料(PCM),分别用实验和微观力学模型测定和计算了用于热应力缓和设计的各物性参数。

    The material properties of MgO / Ni FGM used in the thermal stress optimization design during the processing were tested and calculated by a two-phase micromechanical model .

  7. 目前,由于对单晶MgO的微观力学特性和加工损伤机制以及MgO基片的精密加工技术缺乏系统研究,影响了单晶MgO的应用。

    However , the micromechanical characteristics , the damage mechanism and the precision processing technology of MgO substrates have not been systematically studied , the applications of single crystal MgO have been limited .

  8. 根据孔洞增长和与主裂纹顶端会合的微观力学分析,用蠕变J积分参量和裂纹张开位移速率推导出蠕变裂纹扩展公式。

    Based on micromechanical analysis of the cavity growth and coalescence with the main crack tip , creep crack growth formulas were derived by using creep J integral parameter J and COD rate parameter δ .

  9. 金属材料表面形貌对微观力学行为的影响

    Effect of Surface Topography on Micro-Mechanical Behavior for Different Metallic Materials

  10. 坡莫合金/铜磁性多层膜微观力学性能的研究

    Study on Micromechanical Behavior of Permalloy / Cu Magnetic Multilayers

  11. 镍基高温合金蠕变裂纹扩展的微观力学分析

    Micromechanical analysis of creep crack growth on a nickel-base superalloy

  12. 金属材料计算微观力学网格自动生成

    Automatic meshing of the computational micro mechanics in metal material

  13. SiC/W纳米多层膜的微结构和微观力学性能

    Microstructure and Micro Mechanics Analysis of SiC / W Nano Laminated Films

  14. 类金刚石梯度膜的微观力学性能研究

    Study on the micro-mechanical behavior of diamond like carbon-based functionally gradient film

  15. 连续纤维增强金属基复合材料界面区域微观力学特性的研究

    Micromechanical properties in interfacial region of continuous fiber reinforced metal matrix composites

  16. 高周疲劳裂纹萌生的非线性微观力学模型

    An Nonlinear Micromechanics Models of the Fatigue Crack Initiation under High Cycles

  17. 复合材料中启裂的微观力学分析与实验观察

    Micromechanical analysis and experimental observations on crack initiation in metal matrix composites

  18. 颗粒堆内微观力学结构的离散元模拟研究

    Discrete element simulation of the microscopic mechanical structure in sandpile

  19. 微压入法在纸张微观力学性能研究中的应用

    Application of Micro-indentation Techniques in the Fiber Properties Study

  20. 三维缝合复合材料微观力学模型研究进展

    Research Progress on Micromechanical Model of 3D Stitched Composites

  21. 多孔沥青路面微观力学特性与空隙衰变行为研究

    Study on the Micromechanical Characteristic and Void Reduction Behavior for Porous Asphalt Pavement

  22. 光纤-含筋混凝土复合体微观力学非线性分析

    Nonlinear Analyses of Micro-mechanical Behavior of Fiber-reinforced Concrete Complex

  23. 冻材主方向弹性模量微观力学求解理论

    Microscopic Dynamic Theory Solution Method of Freezing Wood Elastic Modulus in Main Direction

  24. 涂层/基体型复合材料微观力学行为的研究

    Study on micromechanical behavior of coating / matrix interface

  25. 中间退火使疲劳损伤钢延寿的微观力学解释

    Micro-mechanics explanation of prolonging remains life by intermediate annealing for fatigue damage steel

  26. 基于计算微观力学的金属/陶瓷梯度材料性能研究

    Research on Properties of Metal / Ceramic FGMs Based on Computational Micromechanics Method

  27. 复合材料微观力学研究进展

    A Review on the Micromechanical Study of Composites

  28. 低碳微合金钢中针状铁素体的微观力学性能及其组织稳定性

    Micro mechanical properties and stability of acicular ferrite in a low carbon microalloyed steel

  29. 先进复合材料的宏微观力学与强韧化设计:挑战与发展

    Macro-and micro-mechanics and strengthening and Toughening Design for advanced composite materials : challenges and development

  30. 纯金属镍导电颗粒的微观力学性能分析

    Micromechanical Properties of Pure Nickel Conductive Particles