59式57mm高射炮炮管疲劳寿命的工程分析

本文应用Schmitt-Keim方法对59式-57mm高射炮炮管内壁表面裂纹的疲劳寿命进行计算,并对计算结果进行回归分析,得出计算该炮管各种裂纹疲劳寿命的近似公式。结果表明当内壁具有常见的短而浅的裂纹时,其疲劳寿命大于磨损寿命。     

关于陆寅初同志《应用断裂力学估计结构寿命的一个新方法》的若干浅见

作者通过对疲劳裂纹扩展速率公式的变换,得到一个估计结构剩余寿命的简便公式,并建议根据裂纹扩展的实际观测,按统计方法确定公式中的常数。从而避免了种种繁琐计算,而所得结果,很可能要比原有算法更为切合实际一些。当然,这里还需要加进足够的实际数据,来验证算法的可靠性。下面提几点肤浅的看法: (1) 到目前为止,通过计算和测试来估算结构物疲劳寿命的方法已经比较多,但真正     

921A 钢结构低周疲劳裂纹扩展特性试验研究

采用预制缺口的平板和加筋板结构试样,对 921A 钢进行了拉伸疲劳载荷作用下的低周疲劳试验得到了拉伸疲劳载荷作用下舰体结构破口裂纹扩展规律,提出了破损舰体结构在疲劳载荷作用下裂纹开裂和后续扩展的判据.该试验结果可直接用于分析和预报破损舰船结构在波浪中航行时的裂纹扩展情况,并为破损舰船的剩余疲劳寿命预报奠定了基础.     

椭圆状裂纹应力强度因子确定及抽油杆疲劳寿命预测

借助实验数据和公式逼近得到了带有椭圆状裂纹,承受拉-拉载荷的抽油杆的应力强度因子。将此应力强度因子代入Paris公式,即可预测抽油杆的剩余疲劳寿命。计算表明,当抽油杆上初始裂纹尺寸α_0<1.90mm时,预测疲劳寿命与实验值可较好地吻合。     

含裂纹钢板复合材料修补疲劳寿命数值分析

用ANSYS有限元软件对复合材料修复含边裂纹、中心裂纹和切口的钢板的疲劳寿命进行了数值分析.研究了边裂纹、中心裂纹长度对钢板疲劳寿命的影响,分析了碳纤维增强复合材料对3种损伤钢板疲劳寿命的修复效果.计算结果显示,修补后结构件的疲劳寿命可延长3～50倍.     

用能量法确定层状复合材料疲劳裂纹的扩展方向

含裂纹体疲劳寿命的预测,必须首先了解裂纹扩展路径的全过程,而在层状复合材料中,裂纹扩展的路径非常复杂,不仅可以拐弯,而且可以分叉.因此,首先提出一个简单、适用、统一的裂纹扩展方向的相对强度准则,即应变能释放率比值判据;然后,利用有效解决高梯度问题的数值方法--任意线法,对实测试件的关键时刻(例如,拐弯或进入界面),进行了数值分析;并对典型试件进行了疲劳断裂实验研究.3方面的结果,得到相互的验证.这种一致性,不仅初步证明了这一方法的正确性和适用性,而且为疲劳裂纹扩展全过程的解决,提供了必要的基础.     

LD10cs 铝合金焊接接头疲劳裂纹扩展速率的研究

本文研究用表面裂纹法测试LD10cs铝合金板材焊接接头各部位疲劳裂纹扩展速率。结果表明:焊接接头各部位疲劳裂纹扩展速率随焊接热循环引起的金属组织变化而变化,有一定规律性。熔合线和焊趾处疲劳裂纹扩展速率较其他部位大。焊缝加强高的存在,引起焊趾处应力集中,使该处疲劳性能进一步恶化,成为焊接接头疲劳性能最差的部位。结合金相组织和扫描电镜分析,对影响焊接接头各部位疲劳裂纹扩展速率的各种因素作了较详细的探讨,并提出了改进焊缝质量的建议。     

飞机结构疲劳可靠度贝叶斯组合预测

在实际工程中,常常需要利用模型去描述和分析问题。然而模型亦存在不确定性,即可能存在多个描述同一现象的模型,例如多个疲劳分析的模型。针对飞机结构的疲劳可靠性问题,提出在考虑三种裂纹扩展模型下基于贝叶斯公式的疲劳可靠度组合预测方法。针对不同应力水平下飞机结构试件的裂纹扩展数据建立了三种随机裂纹扩展模型;在考虑模型参数不确定性条件下,采用贝叶斯模型平均方法对三种模型进行组合;基于组合模型分析结构的可靠度。所提方法在分析飞机结构疲劳可靠度上,采用了组合模型,能够最大限度保障结果的稳定性。此外,考虑了模型参数的不确定性,能够得到更为合理的裂纹扩展预测分布和可靠度预测值。给出的实例及分析结果表明所提方法可行。     

应用断裂力学估计结构寿命的一个新方法

传统的计算结构寿命的断裂力学方法,将材料的断裂韧性(K_(1c)或K_c)及裂纹亚临界扩展速率(da/dN)应用于疲劳寿命计算时,必须对结构物进行应力分析求出结构物的名义应力分布,以及对裂纹体进行断裂力学分析求出裂纹端部的应力强度因子(K)。由于实际结构的外载条件,构件几何和裂纹几何的复杂性,构件的应力分析和裂纹体的应力强度计算常常是很困难的。本文试图避开这一困难问题,提出一个不用应力分析和裂纹应力强度计算直接估计带裂纹结构寿命的方法。     

LD10cs薄板表面裂纹弹塑性疲劳扩展速率实验技术研究

本文提出用有机颜料着色法检测表面裂纹疲劳扩展时的尺寸和形状,其结果表明,这是铝合金薄板表面裂纹测深行之有效的方法;且对表面裂纹弹塑性疲劳扩展中的其它问题,即韧带、背表面屈服、裂纹形状变化规律和裂纹穿透点进行了研究,最后用线弹簧模型处理了疲劳数据,并得出了一些结论。     

A probability model for initial crack size and fatigue life of gun barrels

With constant firing, metal fatigue produces cracks in a gun barrel. The useful life of the barrel comes to an end when a crack develops to a critical size. The theory of Fracture Mechanics suggests a formula for crack size growth rate. This formula can be used to determine the life of a barrel, depending on the initial and critical crack sizes and other factors. The initial crack size turns out to be a dominant factor. Unfortunately, accurate measurements are not generally available on the initial crack size. In this paper, we propose a simple probability model for the initial crack size and this, in turn, leads to a probability distribution of the life of the barrel. This last distribution is the well-known exponential distribution with a location shift. The simplicity of this final result is one of the factors that make the model appealing.     

Effect of welding processes and consumables on fatigue crack growth behaviour of armour grade quenched and tempered steel joints

Quenched and Tempered (Q&T) steels are widely used in the construction of military vehicles due to its high strength to weight ratio and high hardness. These steels are prone to hydrogen induced cracking (HIC) in the heat affected zone (HAZ) after welding. The use of austenitic stainless steel (ASS) consumables to weld the above steel was the only available remedy because of higher solubility for hydrogen in austenitic phase. The use of stainless steel consumables for a non-stainless steel base metal is not economical. Hence, alternate consumables for welding Q&T steels and their vulnerability to HIC need to be explored. Recent studies proved that low hydrogen ferritic steel (LHF) consumables can be used to weld Q&T steels, which can give very low hydrogen levels in the weld deposits. The use of ASS and LHF consumables will lead to distinct microstructures in their respective welds. This microstructural heterogeneity will have a drastic influence in the fatigue crack growth resistance of armour grade Q&T steel welds. Hence, in this investigation an attempt has been made to study the influence of welding consumables and welding processes on fatigue crack growth behaviour of armour grade Q&T Steel joints. Shielded metal arc welding (SMAW) and Flux cored arc welding (FCAW) were used for fabrication of joints using ASS and LHF consumables. The joints fabricated by SMAW process using LHF consumable exhibited superior fatigue crack growth resistance than all other joints.     

基于低周疲劳理论的身管横向裂纹萌生研究

基于非线性有限元理论建立弹带挤进的动力学模型,依据低周疲劳理论对身管内壁横向裂纹的萌生时机进行研究.在仅考虑热载荷的作用下,研究热疲劳因素对身管裂纹萌生的影响;再利用热力耦合分析方法,研究将弹带的挤压和摩擦作用考虑进来后身管横向裂纹的萌生时机.结果表明,通过热力耦合模型得到的疲劳射弹发数与实弹射击实验发现的横向裂纹的萌生时机相吻合,验证了在考虑热力耦合作用下所建模型的正确性.     

复合材料修补金属裂损结构吸湿老化的试验与有限元分析

暴露在湿热环境中的复合材料修补金属裂损结构易吸湿老化,导致该结构性能下降,服役寿命缩短。为研究吸湿性对复合材料修补金属裂损结构修补效果和耐久性的影响,利用试验方法分析了吸湿性对复合材料胶补金属裂损结构及胶黏剂力学性能的影响;利用有限元方法评估了吸湿性对复合材料胶补金属裂损结构试验件修补效果和耐久性的影响。研究结果表明:吸湿后含穿透双边裂纹铝合金板玻璃纤维单面胶补试验件的疲劳裂纹扩展寿命和极限载荷的平均值分别下降为吸湿前的71%和90%;吸湿造成拉伸条件下复合材料胶补金属裂损结构胶层失效模式由内聚破坏为主转变为界面破坏为主;在"湿-热"老化30天后,E44/聚酰胺环氧树脂胶黏剂试验件吸水饱和,弹性模量下降为未老化前的40%,塑性应变超过了总应变的25%;有限元分析发现胶层损伤受吸湿影响明显,吸湿性加速了胶层损伤,且裂纹长度越长,加速作用越明显;同时吸湿使得裂纹尖端的J积分值急剧增大,导致修补结构的疲劳裂纹扩展寿命缩短,裂纹长度越长,吸湿性对于复合材料胶接修补效果的危害越严重。     

位移不连续法在裂纹扩展仿真中的应用

探讨了在应用位移不连续法仿真裂纹扩展时对加载方式、裂纹扩展长度及应力强度因子计算等问题的处理方法,并据此编制了仿真程序,分析了裂纹在单向压载作用下的扩展趋势和应力变化,具有一定的工程应用价值。     

Development of multi-physics numerical simulation model to investigate thermo-mechanical fatigue crack propagation in an autofrettaged gun barrel

In this research, a detailed multi-physics study has been carried out by numerically simulating a solid fractured gun barrel for 20 thermo-mechanical cycles. The numerical model is based on thermal effects, mechanical stress fields and fatigue crack mechanics. Elastic-plastic material data of modified AISI 4340 at temperatures ranging from 25 to 1200 °C and at strain rates of 4, 16, 32 and 48 s⁻¹ was acquired from high-temperature compression tests. This was used as material property data in the simulation model. The boundary conditions applied are kept similar to the working gun barrel during continuous firing. A methodology has been provided to define thermo-mechanically active surface-to-surface type interface between the crack faces for a better approximation of stresses at the crack tip. Comparison of results from non-autofrettaged and autofrettaged simulation models provide useful information about the evolution of strains and stresses in the barrel at different points under combined thermo-mechanical loading cycles in both cases. The effect of thermal fatigue under already induced compressive yield due to autofrettage and the progressive degradation of the accumulated stresses due to thermo-mechanical cyclic loads on the internal surface of the gun barrel (mimicking the continuous firing scenario) has been analyzed. Comparison between energy release rate at tips of varying crack lengths due to cyclic thermo-mechanical loading in the non-autofrettaged and autofrettaged gun has been carried out.