【摘 要】
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The susceptibility to hydrogen embrittlement in high strength mooring chain steel with different boron content(0,0.003%,0.008%)were investigated by electrochemical hydrogen charging technique and tens
【机 构】
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Institute of Materials,Shanghai University,Shanghai 200072,China
论文部分内容阅读
The susceptibility to hydrogen embrittlement in high strength mooring chain steel with different boron content(0,0.003%,0.008%)were investigated by electrochemical hydrogen charging technique and tensile test.The results revealed that appropriate boron content can effectively depress hydrogen induced embrittlement.Precharged with a low current density,this effect seemed to be unobvious.It gradually became clearly with the increasing current density.The increase of resistance to the hydrogen embrittlement for 3B and 8B after adding appropriate boron was attributed to three facts.The first was that the segregation of boron atoms along grain boundaries reduced the grain boundary segregation of phosphorus,which prohibited hydrogen concentration at the grain boundaries,depressing the possibility of the intergranular fracture due to H.The second was that the segregation of boron increased intergranular cohesion,enhanced grain boundary strength,and refined the final microstructure.The third was that the addition of boron changed the state of hydrogen traps,leading to the small amount of diffusible hydrogen.That is to say,hydrogen transferred to these defects by dislocations was accordingly decreased,which led to the low sensitive of hydrogen induced cracking.
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