1) self-recovery
自修补
1.
In this paper,the recovery mechanism,characteristics and application of composites is introduced and the self-recovery system and material is also mentioned.
阐述了自修补复合材料的修补机理、特点与应用,自修补体系的构成与材料选择;重点研究了室温、高温、不同修补时间及多次修补后的修补效率。
2) self-mended and self-recovered coatings
自修补和自愈合涂料
3) Self-taught
自修
4) self-repair
自修复
1.
Analog measueament of fracture feature of capsuling self-repairing smart composites;
微胶囊自修复智能复合材料断裂特性的模拟实验研究
2.
Research progress in microcapsule with self-repair composite;
自修复聚合物材料用微胶囊的研究进展
3.
Study on the policy for self-repair of smart materials and structures;
智能材料结构自修复的策略研究
5) automatic restoration
自修复
1.
In order to study the automatic restoration action for wear of nano-TiO2 and the influence of frictional condition on automatic restoration,the repairing action to worn steel surface of nano-TiO2 as an addtive in 350SN oil was tested using an HQ-1 wear machine.
为研究纳米TiO2的磨损自修复作用及摩擦条件对修复的影响,将纳米TiO2作为添加剂加入350 SN基础油中,采用HQ-1环块摩擦磨损试验机考察了纳米TiO2对磨损表面的修复作用,在不同载荷、转速、修复时间条件下进行了磨损试验,以质量变化及粗糙度变化来评价添加剂的修复效果。
2.
In order to study the influence of load,slide velocity on automatic restoration capability of nanometer zinc powder that added to 350SN lubricating oil.
在HQ-1摩擦磨损实验机上进行自修复实验,考察了载荷、转速、修复时间对纳米Zn添加剂自修复性能的影响。
3.
In order to study the influence of load,slide velocity and restoration time on automatic restoration capability of composite nanometer MgO/SiO2 additive that added to 350SN lubricating oil.
以纳米MgO/SiO2作为添加剂,在HQ-1摩擦磨损实验机上进行自修复实验。
6) self-repairing
自修复
1.
Research on Wear-self-repairing Nanometer Tin Lubricating Coating;
磨损自修复纳米锡润滑涂层的研究
2.
Preparation and tribological performances of nano-Cu self-repairing additive;
纳米铜自修复添加剂的制备及其摩擦学性能
3.
Experiment and research on permeable crystallization self-repairing performance of concrete;
混凝土的渗透结晶自修复试验与研究
参考词条
补充资料:自调自净自度
【自调自净自度】
(术语)同自调项。
(术语)同自调项。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。