Friction plays a vital role in energy dissipation, device failure, and even energy supply in modern society. After years of research, data and information on tribology research are becoming increasingly available. Because of the strong systematic and multi-disciplinary coupling characteristics of tribology, tribology information is scattered in various disciplines with different patterns, e.g., technical documents, databases, and papers, thereby increasing the information entropy of the system, which is inconducive to the preservation and circulation of research information. With the development of computer and information science and technology, many subjects have begun to be combined with information technology, and multi-disciplinary informatics has been born. This paper describes the combination of information technology with tribology research, presenting the connotation and architecture of tribo-informatics, and providing a case study on implementing the proposed concept and architecture. The proposal and development of tribo-informatics described herein will improve the research efficiency and optimize the research process of tribology, which is of considerable significance to the development of this field.

摩擦在现代社会的能量耗散，设备故障甚至能量供应中都起着至关重要的作用。经过多年的研究，有关摩擦学研究的数据和信息越来越多。由于摩擦学具有很强的系统性和多学科耦合性，因此摩擦学信息分散在各个学科中，具有不同的模式，例如技术文档，数据库和论文，从而增加了系统的信息熵，不利于信息的保存。和研究信息的传播。随着计算机和信息科学与技术的发展，许多学科已开始与信息技术结合，多学科信息学已经诞生。本文描述了信息技术与摩擦学研究的结合，介绍了摩擦信息学的内涵和体系结构，并提供了一个实现所提出的概念和体系结构的案例研究。本文所述的摩擦学信息学的提出和发展将提高摩擦学的研究效率，优化摩擦学的研究过程，对摩擦学的发展具有重要意义。