Monte-Carlo Simulation of Surface Crack Growth Rate for Offshore Structural Steel E36-Z35

The Monte- Carlo method is used to simulate the surface fatigue crack growth rate for offshore structural steel E36-Z35, and to determine the distributions and relevance of the parameters in the Paris equation. By this method, the time and cost of fatigue crack propagation testing can be reduced. The application of the method is demonstrated by use of four sets of fatigue crack propagation data for offshore structural steel E36-Z35. A comparison of the test data with the theoretical prediction for surface crack growth rate shows the application of the simulation method to the fatigue crack propagation tests is successful.

Fatigue damage reliability analysis for Nanjing Yangtze river bridge using structural health monitoring data

To evaluate the fatigue damage reliability of critical members of the Nanjing Yangtze river bridge, according to the stress-number curve and Miner’s rule, the corresponding expressions for calculating the structural fatigue damage reliability were derived. Fatigue damage reliability analysis of some critical members of the Nanjing Yangtze river bridge was carried out by using the strain-time histories measured by the structural health monitoring system of the bridge. The corresponding stress spectra were obtained by the real-time rain-flow counting method. Results of fatigue damage were calculated respectively by the reliability method at different reliability and compared with Miner’s rule. The results show that the fatigue damage of critical members of the Nanjing Yangtze river bridge is very small due to its low live-load stress level.

STUDY ON THE SURFACE CRACK GROWTH BEHAVIOR IN 14MnNbq BRIDGE STEEL

Three-dimensional crack closure correction methods are investigated in this paper.The fatigue crack growth tests of surface cracks in 14MnNbq steel for bridge plate subjected to tensile and bending loadings are systematically conducted.The experimentally measured fatigue crack growth rates of surface cracks are compared with those of through-thickness cracks in detail.It is found that the crack growth rates of surface cracks are lower than those of through-thickness cracks.In order to correct their differences in fatigue crack growth rates, a dimensionless crack closure correction model is proposed.Although this correction model is determined only by the experimental data of surface cracks under tensile loading with a constant ratio R=0.05, it can correlate the surface crack growth rates with reasonable accuracy under tensile and bending loadings with various stress ratios ranging from 0 to 0.5.Furthermore, predictions of fatigue life and crack aspect ratio for surface cracks are discussed, and the predicted results are also compared with those obtained from other prediction approaches.Comparison results show that the proposed crack closure correction model gives better prediction of fatigue life than other models.

Methodology to Estimate Remaining Service Life of Steel Structure by Possibilistic Reliability Theory

Steel structure system of crane deteriorates over time due to environmental effects, material fatigue, and overloading. System structural reliability and remaining service life assessment methods are developed during the few decades. But until now estimating remaining service life methods of crane steel system by reliability theory begin to develop. Safety assessment of existing steel structure system requires the development of a methodology that allows for an accurate evaluation of reliability and prediction of the remaining life. Steel structures are the supporting elements in the special equipment such as hoisting machinery. Structure reliability and remaining service life safe assessment are important for steel structures. For finding the reason which caused the failure modes （such as fatigue strength failure, stiffness failure and stability failure）, incremental loading method based on possibilistic reliability is applied into dynamic structure failure path research. Through reliability analyzing and calculating for crane, it is demonstrated that fatigue damage is the most common failure mode. Fuzzy fatigue damage accumulation theory is used for basis theory and Paris-Eadogan equations are used for mathematical modeling. All fatigue parameter values of the welding box girder of bridge cranes are determined and fatigue remaining life formulas are deduced. After field test and collecting working parameters of numerous cranes, typical fatigue load spectrum was compiled for the dangerous point of box girders used in the area. Fatigue remaining life is assessed for different types and lifting capacities. Safety for steel structure system of bridge crane is assessed by two quantitative indexs： reliability and remaining life. Therefore, the evaluation means is more comprehensive and reasonable. The example shows that the two quantitative indexs are mutually correlated. Through analyzing the 120 t-22.5 m bridge crane of a certain enterprise, a new methodology to estimate remaining service life of steel structure by possibilistic reliability theory is introduced for safety evaluation of structure system.

1Cr15Ni4Mo3N不锈钢表面显微硬度演化与疲劳性能研究

目的研究1Cr15Ni4Mo3N高强不锈钢服役过程中表面硬度演化规律及其疲劳极限。方法采用疲劳拉伸试样,在应力比为0.1条件下对不锈钢开展0、2000、10^(4)、10^(5)、10^(6)、5×10^(6)、10^(7)次循环的疲劳试验,使用显微硬度计测试试件表面显微硬度;采用逐级载荷加载法测试不锈钢疲劳极限并用统计学方法验证试验结果的可靠性;使用扫描电镜观察分析疲劳断口形貌特征。结果在0~10^(4)次循环下,硬度由433.39HV1提高至459.43HV1,当循环至10^(7)次时,硬度下降至326.11HV1,试验得到不锈钢疲劳极限为765.7 MPa。断口宏观形貌表明,裂纹源位于试件表面层,断面具备裂纹源区、扩展区、瞬断区3个典型疲劳特征,扩展区表面比较平整,微观下扩展区呈河流状花样向四周放射扩展,伴随有大量二次裂纹发生和少量二相粒子析出,有明显的疲劳辉纹。瞬断区相对粗糙,有大范围等轴韧窝,且韧窝内存在大量二相粒子析出。结论在疲劳加载过程中,低循环周期表现为循环硬化,高循环周期表现为循环软化。疲劳极限统计结果具有可靠性。在不锈钢塑性变形时,第二相粒子周围出现裂纹形成微孔并不断扩大聚集最终导致韧性断裂。

激光冲击强化冲击次数对8Cr4Mo4V钢表面状态和力学性能的影响

为了研究激光冲击强化(LSP)不同冲击次数对8Cr4Mo4V钢表面状态和力学性能的影响,采用激光器对8Cr4Mo4V钢表面进行激光冲击强化,并且借助光学显微镜、扫描电子显微镜(SEM)、粗糙度测量仪、显微硬度仪、残余应力检测仪及旋转弯曲疲劳试验机对不同冲击次数的8Cr4Mo4V钢试样的表面状态和力学性能进行表征。结果表明:随着冲击次数的增加,经LSP处理后的8Cr4Mo4V钢表面冲击痕迹占比逐渐增大,最大可占比11.28%,冲击次数超过3次可对8Cr4Mo4V钢造成凹坑损伤;LSP后的8Cr4Mo4V钢表面显微硬度最大可提升4.8%,表面残余压应力最大可达870 MPa,疲劳极限可提升47.30%。

结构钢表面疲劳损伤演化过程的显微硬度研究方法

通过对疲劳过程中结构钢表面显微硬度测试结果的检验，证明了不同疲劳阶段的显微硬度测试值服从正态概率分布。依据损伤力学的基本理论建立了用显微硬度定义疲劳损伤变量的概率表达式，并应用于材料表面的损伤行为研究。分析表明，材料微观性能劣化是导致材料表面萌生显微裂纹的主要原因，而在微细观尺度上材料的损伤演化将呈现出显著的不均匀性和概率统计特征。并从疲劳裂纹萌生的无损检测角度指出了显微硬度方法是一种较方便和灵敏的表面测试技术。

钢桥面沥青混合料铺装体系疲劳特性的损伤力学分析

用损伤力学原理及方法,从力学近似法角度分析了单纯的沥青混合料铺装层矩形截面梁疲劳损伤特性,推导出梁的应变场和疲劳寿命预测公式。按抗弯刚度等效简化原则,将疲劳试验复合梁模型中的实际桥面用钢板简化为沥青混合料铺装层叠加到下面的沥青混合料铺装层上,共同组成准单纯的沥青混合料铺装层矩形截面梁,应用该原理及方法推导出梁底缘的应变场,以南京长江第二大桥钢桥面环氧沥青混凝土铺装体系复合梁疲劳试验为例,进一步推导出复合梁的疲劳寿命预测公式。通过实例分析,表明损伤力学原理及方法可用于分析钢桥面沥青混合料铺装体系疲劳特性,其疲劳寿命预测结果是较为精确的,它的实际应用还需给出相应的修正,此外指出了环氧沥青混凝土铺装具有很好的抗疲劳性能。

氮气含量对CrN_x薄膜相结构及摩擦磨损性能的影响

采用电弧离子镀技术,在45钢基体上制备了不同氮气含量的CrNx薄膜。采用X射线衍射技术(XRD)、扫描电子显微镜(SEM)、努氏硬度计和UMT型球-盘摩擦试验机,分别测试了薄膜相结构、表面形貌、显微硬度和摩擦磨损性能。结果表明:CrNx薄膜主要由CrN和Cr2N相组成;随着N2含量的增加,薄膜中Cr2N(211)衍射峰强度逐渐减弱,CrN(220)衍射峰强度逐渐增强;薄膜表面颗粒逐渐减少,表面趋于平整,薄膜硬度出现两个峰值,对应于薄膜为单相Cr2N和CrN的相组成处;与钢基体相比,氮气含量为35%时,CrNx薄膜具有良好的表面质量、最佳的硬度、优良的耐磨损性能。

考虑荷载影响面的钢桥面板顶板-U肋焊缝疲劳损伤分析

为研究荷载影响面对钢桥面板顶板-U肋连接焊缝疲劳损伤的影响,建立了钢桥面板有限元节段模型,通过施加车轮荷载,研究了顶板-U肋连接焊缝疲劳损伤特征;对比分析了在车轮荷载不同横向位置e作用下焊缝的纵向应力分布,研究了顶板-U肋连接焊缝的荷载影响面,分析了过焊孔构造对顶板-U肋连接焊缝的疲劳损伤度D的影响;在考虑轮迹横向分布的基础上,计算了车轮荷载作用下焊缝的疲劳损伤度D,并与规范的计算结果进行了对比。研究表明:顶板-U肋连接焊缝的应力横向影响范围e=750 mm,纵向影响范围约为2个横隔板之间距离;设置过焊孔可降低焊缝局部应力,但将大幅度增大焊缝处的疲劳损伤度。建议选取荷载横向分布彫响范围e=750 mm,由此计算的疲劳损伤度D比按规范计算的结果大10%以上,更全面地考虑了轮迹横向分布对顶板-U肋连接焊缝疲劳损伤的影响。

表面状态对60Si2CrVAT弹簧钢疲劳性能的影响

对表面脱碳与喷丸状态不同的60Si2CrVAT弹簧钢进行了疲劳性能对比试验,结果表明:860℃-50 min加热,试样表层形成约0.1 mm的脱碳层,但未观察到对疲劳寿命产生明显影响;适度喷丸在试样表层形成压应力使疲劳寿命大大提高;过度喷丸虽使表面粗糙度减小,但使表层材料受到损伤,因此疲劳寿命平均值降低.

钢筋混凝土桥梁的钢筋锈蚀与疲劳耦合损伤

钢筋混凝土桥梁在运营过程中同时承受环境侵蚀作用和荷载疲劳作用,导致承载力衰变.通过对钢筋混凝土梁的钢筋锈蚀损伤和疲劳损伤过程的相互影响分析,建立了钢筋锈蚀与疲劳损伤耦合效应下的钢筋截面综合损伤计算模型.对空心板梁的计算分析表明,锈蚀作用造成钢筋疲劳寿命显著减小.因此,钢筋截面综合损伤计算模型可为钢筋混凝土桥梁结构时变承载力评价提供依据.

喷丸强度对不同粗糙度表面超高强度钢疲劳性能的影响

不同方式加工的高强度钢零件具有不同的表面状态,对其采用相同的喷丸工艺是否合理尚不明确。对不同表面粗糙度23Co14Ni12Cr3Mo E超高强度钢作不同强度的喷丸强化。采用扫描电镜及白光干涉仪观察了喷丸试样的表面形貌,采用金相显微镜观察喷丸试样的表面组织,采用旋弯疲劳试验机测试了喷丸试样的疲劳性能,采用X射线衍射残余应力测试仪测试喷丸试样的残余应力。研究了喷丸强度对不同表面粗糙度超高强度钢的表面组织、形貌、残余应力场及疲劳性能的影响。结果表明:喷丸过程可以细化表面组织,引入残余压应力场,改变表面形貌特征,从而引起表面应力集中状况的改变,其改善效果与原始表面状态有关;对于初始表面粗糙度Ra≤0.4μm的表面,喷丸强化过程能有效提高材料的疲劳寿命,促使疲劳裂纹源内移;随表面粗糙度的提高,当应力集中状况过于严重时,表面组织细化和残余压应力对疲劳性能的提升作用会被抑制,喷丸工艺对疲劳寿命的提升效果大幅下降,疲劳裂纹源均位于表面。

汽车板簧疲劳失效的金相分析

通过金相显微镜对60Si2Mn钢制汽车板簧疲劳损坏的过程进行显微组织分析,研究了疲劳裂纹萌生的位置、扩展过程和扩展途径,探索提高汽车板簧疲劳寿命的有效方法。

10CrNiMo结构钢悬臂弯曲加载低周疲劳表面裂纹的扩展特性

通过COD位移规控制悬臂弯曲加载试样表面裂纹前缘的应变,采用逐级递增应变的试验方法,研究了10CrNiMo结构钢的低周疲劳表面裂纹的扩展特性,并用扫描电镜对断口形貌进行了观察。结果表明:表面裂纹扩展速率与裂纹前缘总应变范围之间满足良好的幂律关系;裂纹源附近出现轮胎花样,裂纹扩展初期挤压严重,扩展中期发现较多的二次裂纹,扩展后期疲劳辉纹清晰可见,最后断裂区具有典型的韧窝;裂纹按照锐化-钝化机制扩展,最后断裂模式为韧性断裂。

深水钢悬链立管的双向涡致疲劳损伤时域模型

针对深水钢悬链立管(SCR)的双向涡激振动的疲劳损伤问题,采用点涡强度计算流体对结构的横向和顺流向脉动水作用力,进而推导出一种新的尾流振子模型来预报立管结构的双向涡激振动响应.使用该模型对深水钢悬链立管的双自由度涡激振动问题进行数值计算.结果表明,在均匀流作用下,立管横向和流向振动呈现稳定的驻波振动形态;在剪切流作用下,立管各节点的运动轨迹可能不会得到稳定的"8"字形,沿管方向的驻波振动形态被打破,形成贯穿结构整体、同时各处振幅趋于均匀的行波振动状态.相比仅考虑横向疲劳而言,双向涡致疲劳分析更能全面评估结构的疲劳损伤情况,尤其在深水钢悬链立管的结构分析中,顺流向疲劳问题应给予充分的关注.

4.5Ni钢表面裂纹的低周疲劳扩展行为研究

采用悬臂弯曲加载方式，以总应变范围作为受检和控制参数，分析了高强度４．５Ｎｉ钢表面裂纹的低周疲劳扩展行为，给出了裂纹扩展速率ｄ（２ａ）／ｄＮ与总应变范围ΔεＴ的关系式及关系曲线。同时对弯曲加载条件下低周疲劳损伤断口微观形貌进行了观察分析。指出４．５Ｎｉ钢的低周疲劳裂纹扩展方式主要是穿晶，疲劳辉纹为晶体学延性辉纹，疲劳裂纹扩展属于塑性钝化模型机制。

基于时变可靠度和疲劳效应的井架钢结构剩余寿命分析

为准确预测在役井架钢结构剩余服役年限的长短，建立了基于时变可靠度和疲劳效应的剩余寿命预测理论。推导了杆件等效截面积与损伤缺陷随时间变化的函数关系，建立了井架钢结构抗力时变模型；编制了井架钢结构的疲劳载荷谱，并应用S-N曲线法及雨流计数原理等相关理论，建立了基于疲劳效应的寿命预测理论。对JJ220／42-K型井架钢结构进行了剩余寿命预测，结果表明，综合考虑腐蚀与初弯曲影响时的寿命明显低于仅考虑腐蚀时的寿命，说明局部损伤对寿命影响较大；结构的可靠度寿命明显低于疲劳寿命。

800MPa级钢悬臂弯曲加载低周腐蚀疲劳表面裂纹扩展特性研究

在悬臂弯曲加载方式下,研究了800MPa级10CrNiMo结构钢在3.5%NaCl水溶液中的低周腐蚀疲劳表面裂纹扩展特性,采用金相显微镜、扫描电子显微镜及X射线能谱仪观察并分析了腐蚀疲劳试样断口,与空气中相同加载方式下该材料的低周疲劳表面裂纹扩展速率进行了比较,结果表明,在表面裂纹扩展初期,在3.5%NaCl水溶液中的表面裂纹扩展速率较空气中的快,但随着总应变范围的增加,这种快的趋势在逐渐减小,当总应变范围达到约1%时,在两种环境中的表面裂纹扩展速率基本相当;在表面裂纹扩展的后期,裂纹内部聚集了大量的腐蚀产物,该腐蚀产物主要为铁的氧化物,氧化物的存在增加了裂纹扩展的闭合效应,减缓了表面裂纹的扩展。

船体结构钢低周疲劳表面裂纹扩展规律

采用悬臂弯曲加载方式，以总应变范围（ΔεＴ）作为受检参数和控制参数，对船体结构钢低周疲劳表面裂纹扩展行为进行了研究，得到表面裂纹扩展速率ｄ（２ｃ）／ｄＮ与ΔεＴ的关系，提出了结构疲劳寿命指标的估算方法和表面裂纹低周疲劳扩展机制。