乌拉尔的工作实践表明,在金属矿床物理-地质模型的建立过程中,及时采用多因素、多层次模拟可以提高地质勘探工作方法及其工作量投入的针对性,并可缩短工期以及通过发现新矿床而使储量得到增长。本文试以普查和勘探磁铁矿和黄铁矿型铜矿床为例来说明模拟研究方法上的不同。在普查和勘探磁铁矿型铁矿床时,广泛采用了磁场数学模拟。这是因为,磁异常的性质 Ural’s work practice shows that adopting multi-factor and multi-level simulations in time can help improve the geotechnical prospecting methods and the workload of geotechnical exploration, shorten the construction period and discover new deposits The reserves have increased. This paper attempts to census and exploration of magnetite and pyrite copper deposits as an example to illustrate the difference in the simulation method. Magnetic field mathematical simulations are widely used in census and exploration of magnetite-type iron deposits. This is because of the nature of magnetic anomalies