钢铁
鋼鐵
강철
IRON & STEEL
2015年
4期
48-52
,共5页
陈健%汪兵%胡亮%刘清友%刘翔
陳健%汪兵%鬍亮%劉清友%劉翔
진건%왕병%호량%류청우%류상
高强度管线钢%氢致开裂(HIC)%M/A%硫化氢
高彊度管線鋼%氫緻開裂(HIC)%M/A%硫化氫
고강도관선강%경치개렬(HIC)%M/A%류화경
high strength pipeline steel%hydrogen induced cracking (HIC)%M/A%hydrogen sulfide (H2S)
通过扫描电镜(SEM)和电子背散射衍射(EBSD)等方法,从组织结构和晶界2个方面,研究了微观组织对高强度管线钢氢致裂纹(HIC)的影响。结果表明:高强度管线钢组织结构中存在数量较多的、大块状的M/A岛时,会显著增加HIC的敏感性,而增加AF组织数量及其均匀性有利于降低HIC的敏感性;高强度管线钢的HIC裂纹沿着大角度晶界的边界扩展,而小角度晶界具有一定的止裂作用。
通過掃描電鏡(SEM)和電子揹散射衍射(EBSD)等方法,從組織結構和晶界2箇方麵,研究瞭微觀組織對高彊度管線鋼氫緻裂紋(HIC)的影響。結果錶明:高彊度管線鋼組織結構中存在數量較多的、大塊狀的M/A島時,會顯著增加HIC的敏感性,而增加AF組織數量及其均勻性有利于降低HIC的敏感性;高彊度管線鋼的HIC裂紋沿著大角度晶界的邊界擴展,而小角度晶界具有一定的止裂作用。
통과소묘전경(SEM)화전자배산사연사(EBSD)등방법,종조직결구화정계2개방면,연구료미관조직대고강도관선강경치렬문(HIC)적영향。결과표명:고강도관선강조직결구중존재수량교다적、대괴상적M/A도시,회현저증가HIC적민감성,이증가AF조직수량급기균균성유리우강저HIC적민감성;고강도관선강적HIC렬문연착대각도정계적변계확전,이소각도정계구유일정적지렬작용。
The influence of microstructure on hydrogen induced cracking (HIC) of high strength pipeline steel was studied through scanning electron microscopy (SEM),electron backscatter diffraction (EBSD) and other testing meth-ods from two aspects:organizational structure and grain boundary structure. The results indicate that high content and big block of M/A island will lead to obvious hydrogen induced cracking (HIC). Instead,the sensitivity of hydrogen induced cracking (HIC) will reduce through increasing the uniformity of organization. Furthermore,HIC of pipeline steel will grow along the large angle grain boundaries. On the contrary,HIC can be partly prevented on small-angle grain boundaries.
