杜东海等：冷变形316L不锈钢在高温高压水中的应力腐蚀 ·203· Jenssen A,Jansson C.Effects of temperature on crack growth rate [12]Tumbull A.Modelling of crack chemistry in sensitized stainless in sensitized type 304 stainless steel in pure and sulfate bearing steel in boiling water reactor environments.Corros Sci,1997 39 BWR environments /Proceedings of the 10th International Sym- (4)：789 posium Enironmental Degradation Materials Nuclear Power Sys- 03] Andresen PL.SCC growth rate behavior in BWR water of in- tems-Water Reactors.Lake Tahoe,NV,2001:8. creased purity /Proceedings of the Eight International Symposi- 8]Lu Z,Shoji T,Takeda Y,et al.Transient and steady state crack um on Environmental Degradation of Materials in Nuclear Power growth kinetics for stress corrosion cracking of a cold worked 316L Systems-Water Reactors.Amelia Island,Florida,1997:675 stainless steel in oxygenated pure water at different temperatures. [14]Taylor D F.Crevice corrosion of Alloy 600 in high temperature a- Corros Sci,2008,50(2):561. queous environments.Corrosion,1979,35(12):550 ]Andresen PL,Young L M,Angeliu T M.Effect of martensite and [15]Lu Z,Shoji T,Takeda Y,et al.Effects of loading mode and wa- hydrogen on SCC of stainless steels and alloy 600//Corrosion ter chemistry on stress corrosion crack growth behavior of 316L 2001.Houston,2001 HAZ and weld metal materials in high temperature pure water. [10]Andresen P L.Morra MM.IGSCC of non-sensitized stainless Corros Sci,2008,50(3):625 steels in high temperature water.Nucl Mater,2008,383 (1): [16]Lu Z,Shoji T,Takeda Y,et al.The dependency of the crack 97 growth rate on the loading pattem and temperature in stress cor- [11]Andresen P L,Young L M.Characterization of the roles of elec- rosion cracking of strain-hardened 316L stainless steels in a sim- trochemistry,convection and crack chemistry in stress corrosion ulated BWR environment.Corros Sci,2008,50(3):698. cracking Seventh International Symposium on Enrironmental [17]Lu Z,Takeda Y,Shoji T.Some fundamental aspects of thermal- Degradation of Materials in Nuclear Power Systems-Water Reac- ly activated processes involved in stress corrosion cracking in tors:Proceedings and Symposium Discussions.Houston,1995: high temperature aqueous environments.J Nucl Mater,2008, 579 383(1):92杜东海等: 冷变形 316L 不锈钢在高温高压水中的应力腐蚀 ［7］ Jenssen A，Jansson C． Effects of temperature on crack growth rate in sensitized type 304 stainless steel in pure and sulfate bearing BWＲ environments / / Proceedings of the 10th International Sym￾posium Environmental Degradation Materials Nuclear Power Sys￾tems—Water Ｒeactors． Lake Tahoe，NV，2001: 8． ［8］ Lu Z，Shoji T，Takeda Y，et al． Transient and steady state crack growth kinetics for stress corrosion cracking of a cold worked 316L stainless steel in oxygenated pure water at different temperatures． Corros Sci，2008，50( 2) : 561． ［9］ Andresen P L，Young L M，Angeliu T M． Effect of martensite and hydrogen on SCC of stainless steels and alloy 600 / / Corrosion 2001． Houston，2001 ［10］ Andresen P L，Morra M M． IGSCC of non-sensitized stainless steels in high temperature water． J Nucl Mater，2008，383( 1) : 97 ［11］ Andresen P L，Young L M． Characterization of the roles of elec￾trochemistry，convection and crack chemistry in stress corrosion cracking / / Seventh International Symposium on Environmental Degradation of Materials in Nuclear Power Systems—Water Ｒeac￾tors: Proceedings and Symposium Discussions． Houston，1995: 579 ［12］ Turnbull A． Modelling of crack chemistry in sensitized stainless steel in boiling water reactor environments． Corros Sci，1997 39 ( 4) : 789 ［13］ Andresen P L． SCC growth rate behavior in BWＲ water of in￾creased purity / / Proceedings of the Eight International Symposi￾um on Environmental Degradation of Materials in Nuclear Power Systems—Water Ｒeactors． Amelia Island，Florida，1997: 675 ［14］ Taylor D F． Crevice corrosion of Alloy 600 in high temperature a￾queous environments． Corrosion，1979，35( 12) : 550 ［15］ Lu Z，Shoji T，Takeda Y，et al． Effects of loading mode and wa￾ter chemistry on stress corrosion crack growth behavior of 316L HAZ and weld metal materials in high temperature pure water． Corros Sci，2008，50( 3) : 625 ［16］ Lu Z，Shoji T，Takeda Y，et al． The dependency of the crack growth rate on the loading pattern and temperature in stress cor￾rosion cracking of strain-hardened 316L stainless steels in a sim￾ulated BWＲ environment． Corros Sci，2008，50( 3) : 698． ［17］ Lu Z，Takeda Y，Shoji T． Some fundamental aspects of thermal￾ly activated processes involved in stress corrosion cracking in high temperature aqueous environments． J Nucl Mater，2008， 383( 1) : 92． · 302 ·