1·This process was coincident with classic theory of crevice corrosion of metal.
这一过程与经典的金属缝隙腐蚀机理相吻合。
2·The stainless steels exposed to tidal zone were attacked by pitting and crevice corrosion.
在潮汐区暴露的不锈钢受点蚀和缝隙腐蚀破坏。
3·It was concluded that the corrosion of anti-rust aluminum plate was the result of crevice corrosion.
各种分析结果证明,缝隙腐蚀是导致防锈铝板表面发生失效的主要原因。
4·The results indicted that the failure of the stainless steel plates was mainly due to crevice corrosion induced by Cl -.
结果表明,不锈钢板片失效的主要原因是氯离子引起的缝隙腐蚀所致。
5·Pitting corrosion and crevice corrosion in catalyst deposit zone and corrosion deposit zone can also induce stress corrosion cracking.
催化剂沉积区和腐蚀产物沉积区产生的点蚀和缝隙腐蚀会诱发应力腐蚀开裂的产生。
6·Results showed that corrosion potential moved negatively till the lowest value was reached and kept stable during the procedure of copper crevice corrosion.
结果表明,铜发生缝隙腐蚀的过程中,金属腐蚀电位朝负移动,至一最低值并保持不变。
7·The crevice corrosion behavior of X70 steel was studied in the Ku'erle simulated solution of various HCO3- concentrations by using a wedge-shaped crevice model.
在含有不同浓度HCO3-的库尔勒模拟溶液中对X70钢楔形缝隙模拟构型进行缝隙腐蚀实验。
8·The kinetics of crevice corrosion and water-line corrosion of these metals and the effects of inhibitors on crevice corrosion and water-line corrosion were studied.
研究了这些金属的缝隙腐蚀和水线腐蚀的机理,以及添加缓蚀剂对缝隙腐蚀和水线腐蚀的影响。
9·Fig. 8 shows the relationship between crevice corrosion rate and nitrogen content for a low Mn steel, SUS316L, with diverse nitrogen content after forming crevices.
图8表明,在形成缝隙后,不同含氮量的SUS316 L低锰钢其隙间腐蚀率与含氮量之间的关系。
10·Using accelerated chemical and electrochemical corrosion testing methods, the resistance to pitting and crevice corrosion behavior for six stainless steels were evaluated.
采用化学和电化学加速腐蚀试验方法对6种不锈钢的耐点蚀和缝隙腐蚀性能进行了评价。