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35CrMo和00Cr13Ni5Mo硫化氢环境应力腐蚀开裂被引量：12: 2008年; 用慢应变速率拉伸实验和U形试样浸泡实验、电化学极化技术并结合微观分析手段,在湿硫化氢介质中研究了35CrMo和00Cr13Ni5Mo两种钢的应力腐蚀开裂行为规律。结果表明,35CrMo和00Cr13Ni5Mo钢在实验条件下均具有一定应力腐蚀开裂(SCC)敏感性,其敏感性随着溶液pH的降低和H2S浓度的增大而增大;00Cr13Ni5Mo在实验条件下抗SCC的能力均高于同条件下的35CrMo,在pH3.0的溶液中,二者性能比较接近,在pH4.5的溶液中,00Cr13Ni5Mo耐H2S环境SCC的性能明显提高,高于35CrMo,这主要是因为00Cr13Ni5Mo中的耐蚀合金元素增强了其钝化膜的稳定性、降低了氢脆作用所致。; 刘智勇董超芳李晓刚王立贤梁平; 关键词：硫化氢应力腐蚀开裂

热塑性变形条件下碳钢氢腐蚀裂纹的愈合被引量：1: 2007年; 采用热压愈合的实验方法,对碳钢氢腐蚀裂纹的愈合行为进行研究.结果表明,在热塑性变形条件下,经1000℃、压下率为40%、15 min短时间处理,能够基本消除碳钢试样内的氢蚀裂纹,局部未修复裂纹呈现为尺寸4μm^8μm的透镜状.与单纯高温愈合处理(1000℃循环热处理10 h)的实验结果相比,塑性形变可大大缩短裂纹愈合所需要的热处理时间。热塑性变形下的裂纹愈合进程及程度加大,且氢蚀裂纹内高压甲烷气体的分解不是裂纹愈合过程的控速步骤.; 董超芳李晓刚; 关键词：碳钢氢腐蚀愈合

H2S环境中UNS J91540不锈钢的电化学行为对SCC的影响被引量：3: 2009年; 应用慢应变速率拉伸试验和电化学方法研究了湿硫化氢溶液中UNS J91450不锈钢的电化学行为对应力腐蚀开裂的影响.结果表明,本实验条件下UNS J91540不锈钢具有较高的SCC敏感性,并随着溶液pH的降低而明显增大.该不锈钢的电化学行为对它的腐蚀开裂(SCC)敏感性具有重要影响.开路电位下该不锈钢的SCC行为同时受氢脆作用和裂纹尖端阳极溶解作用的影响.在pH较低的介质中析氢电流较高而裂纹尖端阳极溶解作用略低,而在pH较高的介质中析氢电流较低而裂纹尖端的阳极溶解作用相对增强.氢脆作用对UNS J91540不锈钢SCC敏感性影响更显著.; 刘智勇董超芳李晓刚王立贤; 关键词：UNS 硫化氢电化学行为应力腐蚀开裂

Hydrogen induced cracking of X80 pipeline steel被引量：7: 2010年; The hydrogen-induced cracking （HIC） behavior of X80 pipeline steel was studied by means of electrochemical charging, hydrogen permeation tests, tension test, and scanning electron microscopy （SEM）. The experimental results indicate that the increase of charging time and charging current density or the decrease of the solution pH value leads to an increase of the hydrogen content in X80 steel, which plays a key role in the initiation and propagation of HIC. It is found that the majority of macro-inclusions within the as-used X80 steel do not constitute a direct threat to HIC except aluminum oxides, which directly or indirectly lead to HIC. The hydrogen trap density at room temperature is estimated to be pretty high, and this is an essential reason why the steel is sensitive to HIC. After hydrogen charging, the elongation loss rate and area reduction of X80 steel decline obviously, taking a noticeable sign of hydrogen-induced plasticity damages. It is demonstrated that the losses of these plastic parameters have a linear relation to the fracture size due to hydrogen.; Chao-fang Dong Kui Xiao Zhi-yong Liu Wen-jing Yang Xiao-gang Li; 关键词：FRACTURE

硫化氢环境下两种不锈钢的应力腐蚀开裂行为被引量：33: 2009年; 用U形弯试样浸泡和慢应变速率拉伸实验研究了3Cr17Ni7Mo2SiN和00Cr22Ni5Mo3N(2205)不锈钢在硫化氢介质中的应力腐蚀开裂(SCC)行为.2205不锈钢的SCC萌生孕育期较长,在pH较低的饱和H2S溶液中具有明显的SCC敏感性,其SCC敏感性随溶液pH值的升高或H2S含量的降低而迅速降低.3Cr17Ni7Mo2SiN的SCC孕育期均低于2205不锈钢,在pH≤4.5、H2S的质量浓度≥103mg·L-1的H2S介质中均具有明显的SCC敏感性,其SCC敏感性受pH值和H2S含量变化影响较小.3Cr17Ni7Mo2SiN的SCC以沿晶裂纹萌生,扩展后转变为穿晶应力腐蚀开裂;2205不锈钢近表面处首先发生奥氏体-铁素体相间氢致开裂,并促进SCC萌生,其SCC为穿晶应力腐蚀开裂.; 刘智勇董超芳李晓刚王立贤郅青梁平; 关键词：不锈钢硫化氢应力腐蚀开裂慢应变速率拉伸

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国家自然科学基金(50401016)