通过金属数据库的用户接口输入材料的基本数据 ,如物理机械性能、化学成分或金相组织 ,对材料进行模糊聚类分析 ,从而使材料迅速定位 ;经材料切削加工性的模糊综合评判后 ,可获得该材料切削加工性的直观、综合了解。以库中查找的相关材料的切削用量为参数 ,用当前参数 (或事先适当调整 )进行试验研究 ,观察切削状况后通常需重新微调参数再进行试验。确定合理的切削用量后输入库中 ,更新数据库。实际证明采用这种方法可节约大量人力物力 ,缩短新材料的研究周期 Through the user interface of metal database, inputting the basic data of material, such as physical and mechanical properties, chemical composition or microstructure, and fuzzy clustering analysis of the material so that the material can be quickly positioned; After the fuzzy comprehensive evaluation of the material machinability, Obtain an intuitive, comprehensive understanding of the machinability of the material. The relevant parameters in the library to find the cutting amount of material as a parameter, with the current parameters (or appropriate adjustments in advance) for the pilot study to observe the cutting conditions usually need to re-adjust the parameters and then test. After determining the reasonable amount of cutting input into the database, update the database. Practical proof of this method can save a lot of manpower and resources, shorten the research cycle of new materials