Deformation behaviour in advanced heat resistant materials during slow strain rate testing at elevated temperature

In this study, slow strain rate tensile testing at elevated temperature is used to evaluate the influence of temperature and strain rate on deformation behaviour in two different austenitic alloys. One austenitic stainless steel （AISI 316L） and one nickel-base alloy （Alloy 617） have been investigated. Scanning electron microscopy related techniques as electron channelling contrast imaging and electron backscattering diffraction have been used to study the damage and fracture micromechanisms. For both alloys the dominante damage micromech- anisms are slip bands and planar slip interacting with grain bounderies or precipitates causing strain concentrations. The dominante fracture micromechanism when using a slow strain rate at elevated temperature, is microcracks at grain bounderies due to grain boundery embrittlement caused by precipitates. The decrease in strain rate seems to have a small influence on dynamic strain ageing at 650℃.

SCC investigation of low alloy ultra-high strength steel 30CrMnSiNi2A in 3.5wt% NaCl solution by slow strain rate technique

To evaluate stress corrosion cracking（SCC） mechanism of low alloy ultra-high strength steel 30CrMnSiNi2 A in environment containing NaCl, SCC behavior of the steel in 3.5wt% NaCl solution is investigated by slow strain rate technique（SSRT） with various strain rates and applied potentials, surface analysis technique, and electrochemical measurements. SCC susceptibility of the steel increases rapidly with strain rate decreasing from 1 · 10 5s 1to 5 · 10 7s 1, and becomes stable when strain rate is lower than 5 · 10 7s 1. SCC propagation of the steel in the solution at open circuit potential（OCP） needs sufficient hydrogen which is supplied at a certain strain rate.Fracture surface at OCP has similar characteristics with that at cathodic polarization 1000 mVSCE, which presents characteristic fractography of hydrogen induced cracking（HIC）.All of these indicate that SCC behavior of the steel in the solution at OCP is mainly controlled by HIC rather than anodic dissolution（AD）.

Effects of Strain Rate on Stress Corrosion of S355 Steel in 3.5% NaCl Solutions

The stress corrosion of S355 steel in 3.5% NaCl solution under the different strain rates was analyzed with the slow strain rate test（SSRT）, the stress corrosion cracking（SCC） behaviors of S355 steel under the different strain rates in the solution were investigated, and the fracture morphologies and compositions of corrosion products under the different strain rates were analyzed with scanning electron microscopy（SEM） and energy dispersive spectrometerry（EDS）, respectively. The experimental results show that the SCC sensitivity index is the highest when the strain rate is 2×10-6, and the medium corrosion is the main reason resulting in the highest SCC sensitivity index. The SCC sensitivity index is the least when the strain rate is 5×10-6, and the stress is the main reason resulting in the stress corrosion. The SCC sensitivity index is the middle when the strain rate is 9×10-6, the interaction of stress and medium is the stress corrosion fracture mechanism.

构造应力化学——慢地震震源机制解的一种可能途径

慢地震震源机制研究主要建立在脆性变形基础上。然而高纵、横波速度比、异常高泊松比等特征表明其震源区物质黏度较大,更易发生塑性变形。固体力学研究认为塑性变形的起点是位错,塑性应变能无法释放。分子尺度上,原子通过化学键结合形成矿物结构。应力化学研究显示机械力可以直接作用于化学键,化学键断裂时体系位于能量高位。塑性变形的位错机制可能始于化学键的变化,再通过断裂、重组,形成亚颗粒、细粒化,能量的转化过程可能是机械能首先转化为体系内能,即原子势能;随着加载继续,原子势能突破化学键的束缚,转化为塑性应变能。化学键的重建会释放能量,塑性变形过程中可能会释放一部分化学能,这是否与慢地震有关,是个值得探索的科学问题。

Abnormal Phenomena of Volume Strain before Large Earthquakes

This paper studies the imminent anomalies observed by the Sacks volume strainmeter in Erzhangying station and Tiantanghe station before 80 earthquakes with Ms≥ 7. 0 which took place from January 2011 to April 2014 all over the world. Then, preconditions for anomaly identification are put forward for complex earthquake cases. Statistical results show that volume strain observation has a better earthquake reflecting ability for earthquakes with magnitudes larger than 7. 0 and epicentral distance within 8000kin. In addition, these results also reflect that the volume strain observation can better reflect precursory anomalies of such earthquakes. Based on categorization and description of those anomalies, we divide the anomalies into three types, that is, earth tide distortion type, abrupt change type and slow earthquake type. Furthermore, the paper makes a statistical analysis of these types and preliminarily discusses their mechanical properties as well. According to research, volume strain anomaly has an indicative significance to future strong earthquakes in the world.

氯离子质量浓度对Inconel 740H合金应力腐蚀开裂性能的影响

采用慢应变速率拉伸试验和应力腐蚀裂纹扩展试验方法,研究了630~700℃高参数先进超超临界机组候选镍基合金Inconel 740H在0、1、20 mg/L氯离子水环境中的应力腐蚀开裂性能及规律,并探讨了高质量浓度氯离子促进应力腐蚀裂纹的萌生和扩展的相关机理。结果表明:高质量浓度氯离子促进740H合金的应力腐蚀开裂,合金应力腐蚀敏感性指数断后伸长损失I_(scc(δ))随氯离子质量浓度升高而增大;当氯离子质量浓度升高至20 mg/L时,断口中部和断口边缘均呈沿晶脆性断裂特征,断口附近有大量沿晶二次裂纹,此时合金发生了应力腐蚀开裂。在20 mg/L氯离子水环境中裂纹平均扩展速率达1.15×10^(–6) mm/s,是高纯水中裂纹平均扩展速率的111.7倍。

Analysis of Sacks Body Strain Interference at Beida No.200 Station in Changping and Earthquake Case Study

The relationship between Sacks body strain deformation at Beida No. 200 station in Changping and tidal solids,atmospheric pressure and water level is analyzed in this paper. Sacks body strain deformation data before the M_S8. 0 Wenchuan earthquake is studied based on the analysis of the interference. The short-impending anomaly of the body strain deformation is considered to be reliable. The anomaly characteristics conclude:( 1) The trend anomaly as extensional change of the body strain deformations on a quasi 1 year time scale before the Wenchuan earthquake was recorded, and the accumulative amount was about 4000 × 10^(-9). Correspondingly,the short-term precursor of earthquake was manifested as an extensional abrupt change.( 2) The extensional intermittent anomalous abrupt change was recorded by body strainmeters between March1 and May 7 in 2008.( 3) Four compressional abrupt changes were recorded in the intermittent distortions recorded between April 13 and May 11.( 4) High frequency components were increased in the distortion process in May 1 to 3,5,7,and 9 to 12,caused by slow earthquakes before the Wenchuan earthquake according to wavelet analysis. The abnormal phenomena are summarized and the mechanics discussed in this paper. Strain solid tide distortions in body strain observations,the continuous repeated extensional and compressional abrupt changes accompanying these distortions,and the increase of high frequency components can be regarded as the index of short term and impending earthquake prediction,based on analysis of interference factors such as air pressure and water level.

条形缺陷对L360管线钢环焊缝硫化物应力腐蚀开裂敏感性的影响

通过抗硫化物应力腐蚀试验、慢应变速率拉伸试验、氢含量测试等方法研究条形缺陷对H_(2)S环境下L360管线钢环焊缝硫化物应力腐蚀开裂敏感性的影响。结果表明,环焊缝在72%、85%和110%SMYS(最小屈服强度)应力水平下,热影响区出现裂纹且裂纹长度随加载应力增大而增大;条形缺陷环焊缝试样在屈服点后快速发生断裂,其断裂应变(0.024)仅为非缺陷环焊缝试样的21.05%;条形缺陷存在促进氢离子在裂纹尖端聚集从而加剧发生开裂倾向,消氢处理技术可以有效降低氢含量,降低环焊缝抗硫化物应力腐蚀开裂敏感性降低。

Ti-2.5Al-2Zr-1Fe在慢应变速率下的氢脆行为与机理研究

通过慢拉伸、恒位移等加载方法,评估了含氢Ti-2.5Al-2Zr-1Fe合金的力学性能衰减行为及氢脆敏感性的变化.利用扫描电子显微镜对断口微观形貌特征进行了分析,并采用二次离子质谱仪对氢的宏观分布进行了表征,揭示了断口脆性区域与氢宏观分布之间的内在联系.此外,结合位错载氢运动模型及扩散方程,探讨了氢的扩散机制以及慢应变速率对氢扩散过程产生的影响.为了进一步探索氢化物的存在性,利用透射电子显微镜对表面高氢浓度层和裂纹尖端及其附近物相进行了表征分析,最终未发现氢化物相的析出,综合上述实验数据和微观物相结构分析,对Ti-2.5Al-2Zr-1Fe合金的氢脆机制进行了探讨,认为该合金的氢脆机制由HEDE机制主导.

硅酸锌车间底漆对船体钢在海水中氢脆行为的影响研究

目的 研究硅酸锌车间底漆对船体钢在海水中氢脆行为的影响,为船舶建造涂装工艺提供数据支撑。方法 采用电化学测试、慢应变速率试验(SSRT)、断口微观形貌观察,考察带有硅酸锌车间底漆的船体钢在海水中的氢脆行为。结果 自腐蚀状态下,船体钢及其涂层试样的SSRT断口均以韧性断裂为主,氢脆系数均小于10%,没有明显的氢脆敏感性。–0.94 V阴极保护状态下,船体钢及其涂层试样的SSRT宏观断口均出现了不同程度的撕裂痕,微观断口出现小解理面特征。以硅酸锌涂层做底漆的试样,撕裂痕以及解理面特征最显著,氢脆系数增大最为明显。当船体钢/硅酸锌/环氧耐磨涂层表面出现破损时,氢脆敏感性系数进一步增大。结论 阴极保护状态下,硅酸锌底漆会增加船体钢在海水中的氢脆敏感性。

高温水蒸气环境中TP439不锈钢的应力腐蚀开裂敏感性

目的 研究TP439不锈钢在高温水蒸气环境中的应力腐蚀开裂行为,并探讨水蒸气和温度对其应力腐蚀开裂敏感性的影响规律。方法 采用慢应变速率拉伸试验方法研究了TP439不锈钢在400~600℃水蒸气环境中的应力腐蚀开裂行为,利用SEM和EDS分析试样断口区域的形貌及元素分布。结果 同一应变速率(2×10^(-5) s^(-1))下,随着温度在400~600℃范围内升高,TP439不锈钢在空气和水蒸气环境中的屈服强度、抗拉强度和断裂能均逐渐降低,延伸率逐渐增大。400℃和500℃时,试样在水蒸气环境中的抗拉强度较空气环境中有所降低,而延伸率较空气环境中增大。600℃时试样在水蒸气环境中的力学性能较空气环境中无明显差别。试样在400、500、600℃水蒸气环境中的应力腐蚀开裂敏感性指数分别为0.7%、1.2%和-2.8%,应力腐蚀开裂敏感性较低。试样在400~600℃水蒸气环境中的断口均呈现韧性断裂特征,断口形貌整体由韧窝和微孔组成,颈缩现象显著,断口附近未发现二次裂纹。温度在400~600℃范围内升高时,断口的韧窝特征更加明显,颈缩程度逐渐增大,600℃时断口侧面的氧化膜表面Cr含量明显降低,主要由Fe的氧化物形成。结论 水蒸气对TP439不锈钢的应力腐蚀开裂行为起促进作用。基于应力腐蚀开裂敏感性指数和断口的分析,在应变速率为2×10^(-5) s^(-1)的400~600℃水蒸气环境中,TP439不锈钢的应力腐蚀开裂敏感性较低。

不同温度下6082铝合金的抗应力腐蚀性能

采用慢应变速率拉伸试验方法研究了6082铝合金板材在不同温度下的抗应力腐蚀性能,采用光学显微镜和透射电镜观察其显微组织,采用扫描电镜对其进行断口分析。结果表明:6082铝合金板材在70℃,3.5%(体积分数)NaCl溶液中的应力腐蚀敏感性指数为6.6%,在50℃,3.5%(体积分数)NaCl溶液中的应力腐蚀敏感性指数为2.3%;试样断口均无应力腐蚀特征,合金晶内析出了弥散分布的细小Mg2Si相,晶界析出了不连续分布的Mg2Si相,不能形成连续的沿晶腐蚀通道,试样表现为较好的抗应力腐蚀性能;温度升高使试样在腐蚀溶液中的抗拉强度下降幅度较大,试样在70℃下的应力腐蚀敏感性指数偏高。

掺氢天然气输送用X52管线钢的氢脆行为研究

将氢气以一定比例掺入现有天然气管网进行大规模长距离输送是氢能储运较为高效和经济的方式之一,但是在氢气环境中管线钢会发生氢脆现象,导致管线钢的力学性能发生退化,给管道的安全运行带来隐患。针对不同氢气含量环境条件下管线钢的氢脆行为进行研究,对X52管线钢进行慢应变速率拉伸试验和准静态断裂韧性试验,并结合断口形貌分析掺氢比对管线钢力学性能的影响。结果表明:在管道压力为7.5 MPa,掺氢比为3%、5%、10%的条件下,X52管线钢与无氢环境相比断后总伸长率下降程度小于8%;断口形貌表明在掺氢比小于10%的条件下,以韧性断裂为主,没有典型脆性断口形貌;随着氢气含量的增加X52管线钢的劣化程度增加。

时效和回归处理对7075铝合金力学及腐蚀性能的影响

用维氏硬度计和慢应变速率拉伸 (SSRT)技术研究了 70 75铝合金以不同制度时效和回归处理后的强度和应力腐蚀断裂 (SCC)行为。结果表明 :70 75铝合金的强度 ,硬度和SCC敏感性与时效温度和时间密切相关。对于单级时效 ,峰时效 70 75 T6铝合金的强度最大 ,但其SCC敏感性也最大。过时效T735 1及A180能显著提高合金的耐SCC性 ,SSRT拉伸断裂强度却下降约 2 0 %。多级时效 ,回归再时效 (RRA)不仅能降低 70 75铝合金的应力腐蚀敏感性 。

应变速率对X80管线钢应力腐蚀的影响

利用慢应变速率拉伸试验研究了应变速率对X80管线钢在土壤模拟溶液中的应力腐蚀的影响。采用的模拟溶液以我国西北部碱性土壤的化学成分为基础,在不同应变速率条件下进行试验。样品断裂后利用扫描电镜对断口形貌以及断口侧面二次裂纹进行观察。研究结果表明:X80钢在1.0×10-6s-1应变速率下表现出最高的应力腐蚀敏感性。低于该应变速率下,应力腐蚀敏感性略有降低;而高于该应变速率下,应力腐蚀敏感性明显减小。不同应变速率下应力腐蚀敏感性的差异主要是由应力腐蚀过程中腐蚀和力学作用的影响程度不同造成。应变速率低于1.0×10-6s-1时,腐蚀作用影响更大,较长的腐蚀时间造成裂纹被腐蚀,裂纹扩展受到影响,因此应力腐蚀敏感性略有降低。当应变速率高于1.0×10-6s-1时,力学作用主导整个过程,形成的裂纹没有受到足够腐蚀的情况下,在力学作用下发生快速机械扩展、断裂,因此产生了明显降低的应力腐蚀行为。

X80管线钢在近中性pH溶液中的应力腐蚀开裂

采用电化学动电位扫描技术、慢应变速率拉伸(SSRT)试验和扫描电镜观察研究了X80管线钢及焊接接头在NS4溶液中的应力腐蚀行为.电化学实验结果显示,X80管线钢及焊接接头在NS4溶液中的极化曲线具有典型的活性溶解特征.SSRT试验结果表明,随着外加电位的负移,断裂时间、断面收缩率、应变量都明显变小,X80管线钢及焊接接头的应力腐蚀开裂敏感性增加,应力腐蚀断口呈现穿晶准解理特征.施加相同外加电位时,焊接接头较母材的应力腐蚀敏感性增加,其断裂位置全部落在焊缝或HAZ处.

热处理对2519铝合金应力腐蚀开裂敏感性的影响

通过慢应变速率拉伸测试、扫描电镜及透射电镜分析等研究了2519铝合金在T6、T8热处理状态下,在空气和3.5%(质量分数)的NaCl溶液中的应力腐蚀开裂(SCC)行为,研究了应变速率对2519铝合金SCC行为的影响。结果表明:同一热处理状态下,2519铝合金在3.5%的NaCl溶液中应力腐蚀开裂敏感性高于干燥空气中;在应变速率为1.33×10-5s-1时,其SCC敏感性比应变速率为6.66×10-5s-1时的敏感性大;同一应变速率下,T6状态比T8状态SCC敏感性大,T8状态时抗应力腐蚀性能比T6状态时好。

阴极极化对7050铝合金应力腐蚀行为的影响

采用阴极极化、慢应变速率拉伸试验(SSRT)和定氢仪研究阴极极化对7050铝合金应力腐蚀行为的影响。结果表明:当阴极极化电位高于-1100 mV时,7050铝合金的应力腐蚀敏感性(Iscc)随着极化电位的负移而升高;而当阴极极化电位低于-1100 mV时,Iscc则随着极化电位的负移而下降。外加极化电位对不同时效状态7050铝合金Iscc的影响程度不同,即阴极极化对欠时效状态下铝合金的Iscc影响显著,对过时效状态铝合金Iscc的影响最小,对峰时效状态下铝合金Iscc的影响居中。铝合金的应力腐蚀机理为阳极溶解和氢脆共同作用,且氢对铝合金应力腐蚀的作用随着氢浓度的增加而增加。

304控氮不锈钢应力腐蚀过程中声发射信号聚类分析

研究了304控氮不锈钢试样在酸性氯化钠溶液中慢应变速率拉伸过程的声发射特征。采用基于自组织映射神经网络和K-均值聚类算法对长时间慢拉伸实验的声发射信号进行聚类分析,通过分析各类信号的持续时间、上升时间、振铃、能量、幅值、波形、频带能量等特征,从中找出了裂纹信号。将分类后的信号作为样本训练神经网络,对短时间慢拉伸实验检测到的声发射信号进行识别,找出了应力腐蚀初期的裂纹萌生信号,且与长时间慢拉伸实验检测到的声发射信号特征一致。研究结果表明,304控氮不锈钢应力腐蚀过程中的声发射测试结果与电化学噪声测试结果一致;304控氮不锈钢在酸性氯化钠溶液中的应力腐蚀过程主要会产生包括裂纹在内的3类声发射信号,通过聚类分析方法可以将3类声发射信号区分出来,找出裂纹信号。

电极极化对铝合金应力腐蚀断裂敏感性的影响

为了探讨极化对铝合金应力腐蚀断裂 (SCC)敏感性的影响,采用慢应变速率拉伸技术研究了不同恒电位极化条件下 7075T6, 7075T7351, 7075RRA铝合金的应力腐蚀行为。结果表明,在-1 200^-735mV(vsSCE)电位范围内,无论是阳极极化还是阴极极化,甚至弱极化,都会增加7075铝合金在 3. 5% NaCl溶液中的应力腐蚀断裂敏感性,无论哪一种热处理状态的 7075铝合金在极化电位下的ISSRT均明显高于腐蚀电位下的ISSRT。同时,有阴极极化时ISSRT值随电极极化增强而减小,阳极极化时ISSRT值有随电极极化增强而增大的趋势。但不同热处理状态的 7075铝合金受极化电位的影响程度不同。由此认为,阳极溶解和氢效应都是导致 7075铝合金应力腐蚀开裂的重要因素,电化学保护方法并不适用于 7075铝合金应力腐蚀断裂的防护。