CO32--HCO3-溶液中X80管线钢焊接接头的应力腐蚀开裂分析

采用慢应变速率试验(SSRT)、扫描电镜(SEM)观察研究了国产X80管线钢焊接接头在 0.5 mol/L Na2CO3 1 mol/L NaHCO3 溶液中的应力腐蚀开裂(SCC)敏感性.结果表明,拉伸试样全部断裂在焊缝或热影响区.在所研究的电位区间,拉伸试样随着外加电位正向增加,断面收缩率、断裂时间和断后伸长率增加,而断口部位的裂纹平均扩展速率减小,SCC敏感性降低.试样断口形貌在阴极电位条件下呈准解理断裂,在自腐蚀电位和阳极电位条件下,焊缝试样断口主要是韧性断裂.应力腐蚀机理可以用阳极溶解理论和氢致破裂来解释.     

外加电位对X70管线钢在库尔勒土壤模拟溶液中应力腐蚀开裂敏感性的影响

采用慢应变速率拉仲试验(SSRT)研究了不同外加电位下X70管线钢在库尔勒土壤模拟溶液中的应力腐蚀开裂(SCC)行为,并用扫描电镜分析了不同电位下的断面形貌.结果表明,X70管线钢在库尔勒土壤模拟溶液中具有SCC敏感性;在Ecorr附近施加弱极化时,应力腐蚀开裂敏感性增加;施加强阳极电位时,发生强烈阳极溶解,导致阳极溶解断裂;施加强阴极电位时,析氢过程加强,导致氢致应力腐蚀断裂.     

Stress corrosion cracking behavior of X70 pipe steel in an acidic soil environment

Stress corrosion cracking (SCC) behavior of X70 pipe steel was investigated in an extracted acidic soil solution by slow strain rate test (SSRT), potentiodynamic polarization curve measurements and surface analysis technique. The SCC process and mechanism of X70 steel in the acidic soil solution is mixed-controlled by both anodic dissolution and the hydrogen involvement. With the different applied potentials, the dominance of SCC process changes. At a relatively less negative potential, the steel SCC is based primarily on the anodic dissolution mechanism. When the applied potential is shifted negatively, hydrogen is involved in the cracking process, resulting in a transgranular cracking mode. With the further negative shift of applied potential, the SCC of the steel follows completely a hydrogen-based mechanism, with a river-bed shaped brittle feature of the fracture surface. Heat treatment alters the microstructure of the steel, resulting in a change of SCC susceptibility. In particular, the quenched steel with a bainite microstructure has a high susceptibility to SCC in the acidic soil, while the as-received steel with a ferrite matrix have a low SCC susceptibility.     

外加电位对X70管线钢在近中性pH溶液中的应力腐蚀破裂的影响

采用慢应变速率试验(SSRT)研究了不同电位下X70管线钢在近中性pH溶液中的应力腐蚀破裂(SCC)行为．同时研究丁溶液中通入不同含量CO2对SCC的影响．结果表明．X70管线钢在近中性pH溶液中的开裂方式是穿晶型的．具有准解理特征．并且随着外加阴极电位的降低，SCC敏感性增加；随CO2含量的增加，pH值降低，SCC敏感性增加．均表现为氢致开裂占主导．     

X70管线钢在不同温度近中性pH溶液中的应力腐蚀破裂行为

采用慢应变速率实验(SSRT)研究了不同温度和电位下X70管线钢在近中性pH溶液中的应力腐蚀破裂(SCC)行为．结果表明，不同温度下，X70管线钢在近中性pH溶液中的开裂方式都是穿晶型的，具有准解理特征，并且随着外加阴极电位的降低，SCC敏感性增加，氢致开裂占主导．随温度的下降，溶液pH值略有降低，SCC敏感性增加。     

X100管线钢在酸性土壤模拟溶液中的应力腐蚀行为

采用慢拉伸(SSRT)、动电位极化和SEM观察等方法,研究了在不同的阴极保护电位条件下X100钢在酸性土壤模拟溶液中的应力腐蚀行为.结果表明,X100钢发生穿晶裂纹的应力腐蚀,裂纹的萌生和发展与阴极保护电位有关.完全阳极过程控制时,X100钢无裂纹出现,但出现晶间腐蚀;在混合过程控制时,应力腐蚀敏感性较低,裂纹发展缓慢;在完全阴极过程控制时,氢脆机制起主要作用,裂纹扩展迅速.     

Relationship between electrochemical characteristics and SCC of X70 pipeline steel in an acidic soil simulated solution

Stress corrosion cracking (SCC) of X70 pipeline steel in simulated solution of the acidic soil in Yingtan in China was investigated using slow strain rate test (SSRT), SEM and potentiodynamic polarization technique. Experiment results indicate that X70 steel is highly susceptible to SCC as applied potential reduces, which is manifested in loss of toughness and brittle fracture. Constant polarization current can detect the occurrence of SCC. The lower the polarization current is the sooner stress corrosion cracking occurs. The SCC mechanisms are different at varying potentials. When potential is higher than open circuit potential, anodic process controls SCC, whereas when potential is far lower than open circuit potential, cathodic process controls SCC, and between these two potential regions, a combined electrochemical process controls the SCC. Stress or strain has a synergistic effect with electrochemical reactions to accelerate the cathodic hydrogen evolution process, which makes the X70 pipeline steel to be more susceptible to SCC.     

Effects of testing variables on stress corrosion cracking susceptibility of Al 2024-T351

In the present study, the effects of testing variables on stress corrosion cracking (SCC) susceptibility of Al 2024-T351 in 3.5% NaCl solution were examined using slow strain rate test (SSRT) method with controlled applied potentials and a constant load test (CLT) method. The SSRTs were conducted at various strain rates and applied potential, while the CLTs were performed with different exposure time, with different grain directions of ST (short-transverse) and L (longitudinal) to understand how the testing parameters affected on the SCC susceptibility of Al 2024-T351. The percent reductions in tensile elongation in an SCC-causing environment over those in air tended to express the SCC susceptibility of Al 2024-T351 most properly for both SSRT and CLT. The present fractographic examination suggested that both anodic dissolution and hydrogen embrittlement played a role in the SCC process of Al 2024-T351 in 3.5% NaCl solution at both anodic and cathodic applied potentials, and the contribution of each mechanism could vary with different testing variables. It was also found that the SCC susceptibility of Al 2024-T351 obtained from the CLT result could provide the similar SCC evaluation result obtained by SSRT with a proper selection of testing variables. The metallurgical aspect of SCC behaviour of Al 2024-T351 was also discussed based on the microstructural and fractographic examinations.     

Al—Li—Cu—Mg合金应力腐蚀性能及机理研究

利用恒应变速率方法研究了Al—Li—Cu—Mg合金的应力腐蚀开裂,包括时效条件及外加电位对应力腐蚀的影响,同时研究了试样表面相对氢浓度与外加电位及应力腐蚀时间的关系,实验结果表明,合金的应力腐蚀性能取决于时效条件,其中峰时效条件下最差,自然时效条件下最好,应力腐蚀敏感性及试样表面氢浓度与外加电位有关,阳极电位增加应力腐蚀敏感性,阴极电位低于临界电位时加速应力腐蚀,认为合金在应力腐蚀过程中阳极溶解与氢脆机制联合作用。     

CO_3~(2-)-HCO_3~-溶液中X80管线钢焊接接头的应力腐蚀开裂分析

采用慢应变速率试验(SSRT)、扫描电镜(SEM)观察研究了国产X80管线钢焊接接头在0.5mol/LNa2CO3 1mol/LNaHCO3溶液中的应力腐蚀开裂(SCC)敏感性。结果表明,拉伸试样全部断裂在焊缝或热影响区。在所研究的电位区间,拉伸试样随着外加电位正向增加,断面收缩率、断裂时间和断后伸长率增加,而断口部位的裂纹平均扩展速率减小,SCC敏感性降低。试样断口形貌在阴极电位条件下呈准解理断裂,在自腐蚀电位和阳极电位条件下,焊缝试样断口主要是韧性断裂。应力腐蚀机理可以用阳极溶解理论和氢致破裂来解释。     

X70管线钢在近中性及高pH值溶液中的电化学行为和SCC敏感性

采用动电位极化曲线测试法研究了温度、通气条件和pH值对X70管线钢在NS4溶液和0.5 mol/LNa2CO3 1 mol/L NaHCO3溶液中的电化学极化行为的影响,并用慢应变速率试验(SSRT)研究了X70管线钢在这些溶液中的应力腐蚀破裂(SCC)敏感性。结果表明,X70管线钢在NS4溶液中不出现活化—钝化转变区,随外加电位负移,SCC敏感性增加,表现出氢致破裂(HIC)的特征;在0.5 mol/L Na2CO3 1 mol/L NaHCO3高pH值溶液中出现活化—钝化转变区,在阴极极化区,也表现出氢致破裂(HIC)的特征,但在阳极极化区,发生的是阳极溶解型应力腐蚀破裂(ADSCC)。     

外加电位对X70管线钢在近中性PH溶液中的应力腐蚀破损的影响

采用慢应变速率试验（SSRT）研究了不同电位下X70管线钢在近中性pH溶液中的应力腐蚀破裂（SCC）行为,同时研究了溶液中通往不同含量CO2对SCC的影响。结果表明,X70管线钢在近中性pH溶液中的开裂方式是穿晶型的,具有准解理特征,并且随着外加阴极电位的降低,SCC敏感性增加,随CO2含量的增加,pH值降低,SCC敏感性增加,均表现为氢致开裂占主导。     

Effect of microstructure on the sulphide stress cracking susceptibility of a high strength pipeline steel

The sulphide stress cracking (SSC) susceptibility of a newly developed high strength microalloyed steel with three different microstructures has been evaluated using the slow strain rate testing (SSRT) technique. Studies were complemented with potentiodynamic polarization curves and hydrogen permeation measurements. Material included a C–Mn steel having Ni, Cu, and Mo as main microalloying elements with three microstructures: martensitic, ferritic and ferritic + bainitic. Testing temperatures included 25, 50, 70 and 90 °C. Detailed SEM observations of the microstructure and fracture surfaces were done to identify possible degradation mechanisms. The results showed that in all cases, the corrosion rate, number of hydrogen atoms at the surface and the percentage reduction in area increased with temperature. The steel with a martensitic microstructure had the highest SSC susceptibility at all temperatures, whereas the ferritic steels were susceptible only at 25 °C, and the most likely mechanism is hydrogen embrittlement assisted by anodic dissolution.     

外加电位对316L不锈钢在硼酸溶液中应力腐蚀行为的影响

采用慢应变速率拉伸 (SSRT) 实验,结合不同扫描速率下的动电位极化曲线,对316L不锈钢在动电位极化曲线不同区下的应力腐蚀开裂 (SCC) 敏感性以及腐蚀机理进行了研究。通过断口的SEM形貌进一步分析了316L不锈钢在硼酸溶液中的应力腐蚀开裂机理。结果表明,在近中性硼酸溶液环境下,外加电位对应力腐蚀开裂敏感性具有一定影响;当外加电位处于钝化区和过钝化区时,其SCC机制是由阳极溶解控制,且随着电位的升高其SCC敏感性增大;外加电位为-600 mV时,开裂机制为氢致开裂,此时316L不锈钢有最大SCC敏感性。     

X70钢在酸性土壤模拟溶液中的应力腐蚀行为

在不同的阴极保护电位下,采用慢应变速率拉伸实验、动电位极化方法以及SEM研究了X70钢在酸性土壤模拟溶液中的应力腐蚀行为.结果表明: X70钢发生穿晶应力腐蚀裂纹;应力腐蚀开裂(SCC)萌生与外加保护电位有关,完全受阳极过程控制时X70钢的SCC敏感性较低,但会发生点蚀和严重的均匀腐蚀;受混合电极过程控制和全受阴极过程控制时均能发生SCC;受混合电极过程控制时,SCC二次裂纹与点蚀伴生,裂纹形核密度大;而完全受阴极过程控制时,SCC裂纹附近未见点蚀坑,裂纹形核密度低;混合电极过程控制时比完全阴极电极过程控制下更容易发生SCC裂纹.     

BEHAVIOUR AND MECHANISM OF STRESS CORROSION CRACKING FOR Al-Li-Cu-Mg ALLOY

Studies were made of the influence of aging conditions and applied potentials on thestress corrosion carcking(SCC)susceptibility for an Al-Li-Cu-Mg alloy by slow strainrate technique.The relationship between the relative hydrogen content on specimensurface,the applied potentials and elapsed time has also been examined.The SCCsusceptibility was found to be dependent on aging conditions in which the peak agedcondition gave the worst SCC resistance and the natural aged condition had the best one.The SCC susceptibility and surface hydrogen content relates to the applied potentials.The anodic potentials increase SCC susceptibility,while the cathodic ones below thecritical potential accelerate SCC.It is considered that both the anodic dissolution and     

Stress corrosion cracking susceptibilities of Fe3Al-based iron aluminides

The susceptibilities to stress corrosion cracking (SCC) were investigated using the constant-potential U-bend SCC test. U-bend SCC evaluations were conducted on two iron aluminide compositions based on Fe₃Al and containing 2 and 5 at.% Cr in acid-chloride (pH = 4200 ppm Cl), thiosulfate, and tetrathionate solutions at the freely-corroding conditions. Cracking failures occurred in the thiosulfate and tetrathionate solutions, but not in the acid-chloride solution. The iron aluminides were very susceptible to the sulfur-bearing environments in terms of SCC and aqueous corrosion characteristics. To investigate the effect of applied potential on the cracking behavior, U-bend tests were conducted in the acid-chloride solution at an anodic pitting potential and at cathodic hydrogen-evolution potentials. Cracking occurred within 200 h only at the highly negative cathodic potentials and only for the lower Cr composition. These results indicated that two iron aluminides investigated are susceptible to SCC in acid-chloride solution if the corrosion potential is sufficiently active to generate hydrogen, that the cracking mechanism was related to hydrogen embrittlement. The resistance to hydrogen embrittlement cracking increased with increasing Cr content, i.e., higher Cr levels were beneficial in minimizing this form of cracking. Increased resistance to cracking for the U-bend specimens is influenced by the chemical composition of the passive film. Metallographic examinations by scanning electron microscopy revealed that increasing Cr content decreased the proportion of transgranular cleavage cracking and increased the proportion of intergranular cracking.     

304 不锈钢在模拟深海和浅海环境中的应力腐蚀行为

目的研究304不锈钢在模拟深海和浅海中的应力腐蚀开裂(SCC)行为。方法通过控制不同环境因素模拟南海某海域环境,利用动电位扫描、交流阻抗谱、慢应变速率拉伸(SSRT)及SEM表面分析等手段进行研究。结果 304不锈钢在模拟海水溶液中呈现钝化状态,出现应力腐蚀敏感性,且裂纹扩展方式为穿晶开裂。在深海中的SCC机制为氢致开裂,浅海中的SCC机制主要为阳极溶解。结论 304不锈钢在深海与浅海中的SCC机制不同,但两者的SCC敏感性相近且相对较低,在模拟海水环境中的应用不受海水深度限制。     

外加电位对X80管线钢在鹰潭土壤模拟溶液中应力腐蚀行为的影响

采用电化学动电位极化技术、慢应变速率拉伸(SSRT)实验和SEM对X80管线钢在鹰潭土壤模拟溶液中的应力腐蚀行为进行了研究.结果表明:X80管线钢在酸性土壤环境中具有较高的SCC敏感性,其断口模式为穿晶SCC;SCC机制随外加电位的不同而改变,在外加电位高于-930 mV时,其SCC机制由阳极溶解和氢致腐蚀两种电极过程控制,呈现阳极溶解和氢脆复合机制;当电位低于该电位时,其SCC为氢脆机制.随着外加阴极电位的降低,X80管线钢的SCC敏感性不断增大;与X70钢相比,氢脆作用在X80管线钢SCC过程中发挥了更重要的作用.     

X70管线钢焊缝应力腐蚀破裂的研究

采用慢应变速率试验、扫描电镜试验研究了X70管线钢焊缝拉伸试样在通5％CO2 95％N2的NS4溶液中的应力腐蚀破裂(SCC)敏感性。结果表明断口和柱面SCC裂纹均发生在热影响区(HAZ)。施加阴极电位时，在试样断口观察到明显的准解理断裂特征，断口和柱面有穿晶SCC裂纹。在自腐蚀电位和阳极电位条件下，SCC敏感性很低。在所研究的电位区间，总体趋势是随电位正向增加，断面收缩率、断裂时间和延伸率增加，而断口部位SCC裂纹平均扩展速率减少、即SCC敏感性降低。并利用显微组织变化和电化学理论分析了焊缝试样HAZ的SCC机理。