磨粒

mó lì
  • grains;abrasive particle
磨粒磨粒
磨粒[mó lì]
  1. 重点设计了FF监控网络、在线润滑油质量检测电路和铁磁性磨粒检测电路。

    We focused on the FF predicting network , the on-line detecting circuit of the lubricant quality and the detecting circuit of the ferromagnetic abrasive particle .

  2. 不同磨粒对ZTA结构陶瓷冲蚀磨损性能的影响

    Effect of Different Abrasive Particle Hardness on Erosion Resistant Performance of ZTA Structure Ceramics

  3. 基于Matlab聚类分析的磨粒分类识别研究

    Wear Debris Classifying Study Based on Matlab Clustering Analysis

  4. Al2O3+30m%TiC基复合陶瓷磨粒磨损性能

    Abrasion properties of al_2o_3 + 30m % tic matrix composites

  5. 单磨粒作用下Al2O3-TiC-TiN复合陶瓷的摩擦磨损特性

    Friction and Wear Properties of the Al_2O_3-TiC-TiN Composite Ceramic under Single Abrasive

  6. PEN薄带在沙尘环境中磨粒磨损分形特征研究

    Fractal Characteristics of Abrasive Wear of PEN Tape in Sand Dust Environment

  7. Fisher评价准则下的彩色磨粒图像自动分割

    Color Debris Image Automatic Segmentation Under Fisher Evaluation Criterion

  8. 人工髋关节UHMWPE磨粒形态研究

    Study on UHMWPE Wear Debris Morphology in Artificial Hip Joints

  9. 油润滑时,AlMoSi2材料的磨损机制主要表现为疲劳点蚀和磨粒磨损。

    Under oil lubrication , the main wear mechanism of Al / MoSi 2 composite is explained in terms of fatigue pitting and abrasive wear .

  10. 稀土和Mo5Si3强韧化MoSi2材料的磨粒磨损特性

    Abrasive wear behaviors of MoSi_2 reinforced by rare earth and Mo_5Si_3 under dry friction

  11. 分析了刀具的磨损形貌和磨损机理,新型Ti(C,N)金属陶瓷刀具的主要磨损机理为后刀面磨粒磨损。

    It can be concluded from the tool wear photograph that the main wear mechanisms of Ti ( C , N ) tools are abrasive wear on tool flank .

  12. 基于面向对象规则模板的MCD磨粒诊断ES研究

    A study of the MCD debris diagnosis ES based on an object-oriented rule template

  13. 基于残余应力分布优选钎焊CBN磨粒出露高度

    Optimization for the Exposing Height of Brazed CBN Grit Based on Residual Stress Distribution

  14. 本文研究了常见规则几何形状金刚石磨粒的切削位置概率、加权2θc角和可能磨损面的平均原子密度。

    In this paper , studies are made on the cutting positions probability , weighted angle 2 θ c and atomic mean density of easy-to-wear surfaces of diamond grains with common regular geometries .

  15. Sialon陶瓷的冲蚀磨损及磨粒磨损行为

    Erosion and Abrasion Behavior of Sialon Ceramic

  16. 本文利用MLS-23胶轮磨损试验机对超高分子量聚乙烯(UltraHighMolecularWeightPolyethylene)的磨粒磨损性能进行了研究。

    In this paper , the rubber wheel abrasion rig of MLS 23 type was employed to study the abrasion of ultra high molecular weight polyethylene ( UHMWPE ) .

  17. Sialon陶瓷的磨粒磨损行为

    Abrasive wear behavior of Sialon ceramic

  18. WC-Co热喷涂中温处理涂层的磨损机理为脆性微剥落和磨粒磨损。

    The wear mechanics of WC-Co mid-temperature sintered coating is brittle spalling and abrasive wear .

  19. 基于LS-SVM的柴油机润滑油中磨粒含量预测

    Forecasting of Wear Particle Concentration in Diesel Engine Lubricating Oil by Least Squares Support Vector Machine

  20. Ni-Cr合金钎焊金刚石磨粒的试验研究

    Experimental study of diamond grain brazing

  21. 利用单摆划痕法的冲击加载特性,研究了Ni-P化学镀层的冲击磨粒磨损性能。

    Impact abrasive wear behavior of electroless Ni-P coating was researched by means of single-pass pendulum scratching test characterized by impact loading .

  22. 干摩擦条件下,MoS2/SiC复合涂层不同程度降低钢基体的摩擦系数,磨损机制呈现粘着磨损和磨粒磨损综合作用。

    MoS_2 / SiC composite coatings declined the friction coefficient under the dry condition , and produced the adherence wear and abrasive wear .

  23. PTFE和纳米高岭土的加入使PPS的主要磨损方式由粘着磨损转变为磨粒磨损。

    The main wear mode of PPS is changed from adhesive wear into abrasion wear with the addition of PTFE and kaolin nanoparticles .

  24. SEM分析表明,刀具的主要失效形式为后刀面磨损、前刀面月牙洼磨损和刀刃微崩,刀具磨损的主要讲理是粘结磨损和磨粒磨损。

    SEM anlyses show that the tool failure types are main flank wear , face wear and tool tip chip . The principal wear mechanisms are bonding wear and abrasive wear .

  25. 通过对材料磨损表面的形貌分析可知,Si3N4陶瓷的磨损机制主要为粘着磨损、磨粒磨损和微裂纹疲劳。

    It is known from the observation of wear surface the wear mechanism of Si_3N_4 ceramics were adhesive wear , abrasive wear and micro-crack fatigue rupture .

  26. 熔注层的耐磨性为Q235钢的4.1倍,磨损机理主要为磨粒磨损。

    Mechanism of wear is adhesion and abrasion .

  27. Ni/WC喷焊层室温时的失效机理主要是氧化磨损和氧化物的疲劳剥落磨损,高温失效机理是氧化磨损和氧化物的疲劳剥落磨损以及磨粒磨损。

    Failure mechanisms of Ni / WC coating at room temperature were oxidation wear and spalling wear of oxides , while at elevated temperature , grinding abrasion was added .

  28. 当w(WC)大于50%时,WC的加入使喷熔工艺性能变得极差,喷熔层的硬度和耐低应力磨粒磨损性能降低。

    When WC content is more then 50 % , spray-fusing technological property becomes worse , hardness of sprayed coating and low-stress abrasive particle wear resistance are weaken .

  29. 其高温塑性流变磨损特点主要是WC粒脱落和磨粒磨损。

    The behaviour of high temperature plastic flow wear of WC-steel composite material behaves mainly the sepa - ration of WC particles and abrasive grain wear .

  30. 由于WC硬而脆的性能和在喷熔层显微组织中起分割基体的作用,喷熔层耐冲击磨粒磨损性能随w(WC)的增大而降低。

    Impact abrasive particle wear resistance of sprayed coating is also decreased with the increasing of WC content due to existing of hard and brickle WC which separating substrate .