铁谱技术的原理最早是由美国麻省理工学院的W.W.Seifert和Foxboro公司的V.C.Westcott于1970年提出的。1972年V.C.Westcott取得了这项专利,并由Foxboro公司制成第一台铁谱仪。铁谱技术于1979年传入我国。在这短短的二十年内,铁谱技术在机器设备的磨损工况监控与故障诊断,摩擦磨损的机理研究,润滑剂的评价,机械零件的失效分析与可靠性研究,机械零件的摩擦学设计和医疗工程中得到广泛应用。铁谱技术的运用已产生了可观的经济和社会效益。传统的人工定性分析存在对分析人员专业化程度要求高、难于确定,定量化信息量少、精度低和分析数据和谱片管理困难等缺点,随着计算机信息处理技术的引用,将更广泛地挖掘铁谱技术的潜力,使铁谱技术向高智能的自动识别与诊断方向发展。 The principle of ferrography was first proposed by W.W. Seifert of the Massachusetts Institute of Technology and V.C.Westcott of the Foxboro Company in 1970. 1972. V.C.Westcott obtained this patent, and made the first iron spectrometer by Foxboro. Ferrography came into our country in 1979. In this short period of 20 years, the ferrography technology has been widely applied in the monitoring and fault diagnosis of the wear conditions of machinery and equipment, the mechanism research of friction and wear, the evaluation of lubricants, the failure analysis and reliability research of mechanical parts, the tribology of mechanical parts Design and medical engineering are widely used. The use of ferrography has produced considerable economic and social benefits. The traditional manual qualitative analysis has some shortcomings such as the high degree of professionalization of analysts, the difficulty of determining, the less amount of quantitative information, the low precision and the difficulty of analyzing data and spectrum management. With the reference of computer information processing technology, Digging the potential of ferrography, ferromagnetic technology to the high intelligent automatic identification and diagnosis direction.