首页> 美国政府科技报告 >Understanding the Atomic Scale Mechanisms that Control the Attainment of Ultralow Friction and Wear in Carbon-Based Materials.

【24h】

Understanding the Atomic Scale Mechanisms that Control the Attainment of Ultralow Friction and Wear in Carbon-Based Materials.

机译：了解控制碳基材料中超低摩擦和磨损的原子尺度机制。

获取原文

页面导航

著录项
相似文献
相关主题

著录项

作者
Carpick, R.; Jeng, Y.;
展开▼
作者单位

展开▼
年度 2016
页码 1-16
总页数 16
原文格式 PDF
正文语种 eng
中图分类
关键词
Diamonds; Nanocrystals; Wear; Experimental design; Tribology; Multiscale modeling; Nanoscale mechanics; M&s(modeling and simulation); Uncd(ultrananocrystalline diamond); Atomic level removal mechanisms; Run in period; Contact stresses; Pe61102f;

机译：钻石;纳米晶;磨损;实验设计;摩擦学;多尺度建模;纳米尺度力学; m＆s（建模和模拟）; Uncd（超微晶金刚石）;原子水平去除机制;运行期;接触应力; pe61102f;

相似文献

外文文献
中文文献
专利

1. Atomic Scale Mechanisms of Friction Reduction and Wear Protection by Graphene [J] . Klemenz Andreas, Pastewka Lars, Balakrishna S. G., Nano letters . 2014,第12期

机译：石墨烯减摩和磨损保护的原子尺度机理
2. Atomic Scale Interface Manipulation, Structural Engineering, and Their Impact on Ultrathin Carbon Films in Controlling Wear, Friction, and Corrosion [J] . Dwivedi Neeraj, Yeo Reuben J., Yak Leonard J. K., ACS applied materials & interfaces . 2016,第27期

机译：原子尺度界面操纵，结构工程及其对控制磨损，摩擦和腐蚀的超薄碳膜的影响
3. Microanoscale friction and wear mechanisms of thin films using atomic force and friction force microscopy [J] . B.Bhushan, S.Sundararajan Acta Materialia . 1998,第11期

机译：原子力和摩擦力显微镜观察薄膜的微米/纳米级摩擦磨损机理
4. Understanding the mechanism for the friction modifier suppressing wear-type rail corrugation from the viewpoint of friction-induced vibration [C] . G. X. Chen, W. J. Qian, X. L. Cui, International Conference on Noise and Vibration Engineering . 2014

机译：从摩擦振动的观点来了解摩擦改进器抑制磨损型轨道波纹的机制
5. Mechanisms controlling friction and adhesion at the atomic length-scale [D] . Liu, Xin Zhou 2015

机译：在原子长度尺度上控制摩擦和粘附的机制
6. Triboemission of hydrocarbon molecules from diamond-like carbon friction interface induces atomic-scale wear [O] . Yang Wang, Naohiro Yamada, Jingxiang Xu, 2019

机译：类金刚石碳摩擦界面的碳氢化合物分子的摩擦发射引起原子级磨损
7. Towards an improved understanding of plasticity, friction and wear mechanisms in precipitate containing AZ91 Mg alloy [O] . Deepak Kumar, Saurav Goel, Nitya Nand Gosvami, 2020

机译：朝着含有AZ91mg合金的沉淀物中的可塑性，摩擦和磨损机制的改进了解

Understanding the Atomic Scale Mechanisms that Control the Attainment of Ultralow Friction and Wear in Carbon-Based Materials.

著录项

相似文献

相关主题

期刊订阅