1995年5月通过对低合金钢——16Mn钢在埕岛海区挂片两年（1992年10月－1994年10月）的腐蚀产物的穆斯堡尔诺测定，研究了低合金钢在飞溅区、潮差区、全没区和海泥区四个不同海洋腐蚀区带的锈层组成和含量。锈层中的FeOOH和Fe3O4的不同含量说明了内锈层中的β－FeOOH为氧化剂参与了阴极作用，加速了干湿交替区低合金钢的腐蚀。另外由于16Mn钢的合金元素的影响，基体表面锈层组成简单，结构致密，形成良好的阻挡层，减缓了钢铁的腐蚀速度。 In May 1995, Mossbauern measurements of the corrosion products of low-alloy steel-16Mn steel for two years (October 1992-October 1994) in Chengdao sea area were carried out to investigate the effects of low alloyed steel on splashing The composition and content of rust layer in four different oceanic corrosion zones in the area, tidal zone, all-zone and marine mud zone. The different contents of FeOOH and Fe3O4 in the rust layer indicate that β-FeOOH in the internal rust layer acts as the cathode and accelerates the corrosion of the low-alloy steel in the alternating wet-dry zone. In addition, due to the influence of alloying elements of 16Mn steel, the rust layer on the surface of the substrate is simple in composition and compact in structure, forming a good barrier layer, slowing down the corrosion rate of the steel.