316不锈钢和825镍基合金在超临界水氧化毒死蜱介质中的腐蚀

在连续式超临界水氧化试验装置中，测量了316不锈 钢和825镍基合金在150℃～450℃分解杀虫剂毒死蜱过程中的腐蚀速度.两种合金的均匀腐蚀 速度随温度升高而增加，825镍基合金的腐蚀速度比316不锈钢的腐蚀速度小，450℃下316不 锈钢和825镍基合金的均匀腐蚀速度分别达143 μm/h和125 μm/h；200℃以上发生孔蚀 ，在较高分解温度下，由于孔蚀和均匀腐蚀的同时进行，形成相互贯穿的敞口蚀坑腐蚀形貌 .热力学分析表明，Fe-Cr-Ni合金在高温氧化性介质中是不稳定的，并且低熔点金属氯化物 的产生也可能是合金在超临界条件下出现高腐蚀速度的原因之一.

CORROSION OF 316 STAINLESS STEEL AND 825 NICKEL BASE ALLOY IN MEDIUM OF SUPERCRITICAL WATER FOR OXIDIZING CHLORPYRIFOS

Corrosion of 316 stainless steel and 825 nickel base alloy in medium of supercritical water oxidizing (SCWO) a pesticide chlorpyri fos has been studied at temperature 150～450℃ in a continuous SCWO facili ty.General corrosion rates of the alloys increase with increase of temperature.8 25 nickel base alloy has smaller corrosion rate than 316 stainless s teel.At 450℃corrosion rates were 143μm/h and 125μm/h respectively for 316 stainless steel and 825 nickel base alloy.Pitting corrosion occurs at temperatu re higher than 200℃.Pitting corrosion plus general dissolution at higher temper atures results in wide open pit corrosion morphology.Thermodynamic analysis show s that Fe-Cr-Ni alloys is not stable in SCWO conditions because Cr2O3 is not stable in these conditions.Formation of low melt po int metal chlorides may also be a reason for the high corrosion rates of the all oys.