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在焊接接头处,由于几何的不连续造成了局部的应力集中,对其疲劳强度评估的研究是十分必要的。文章提出采用奇异强度(as)来计算接头处的几何应力,并基于N-SIF方法分析了不同几何尺寸下十字接头的疲劳强度。结果表明该修正公式可以十分简便地评估出焊接接头处的疲劳强度。 相似文献
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疲劳是海洋结构物破坏的重要因素,为简化舰船结构疲劳评估方法,基于线弹性断裂力学和切口应力强度理论,针对典型薄板结构研究拐角节点处的应力强度,分析结构形式,利用ANSYS有限元模拟和MathCAD函数拟合,分别给出计算应力强度因子的"奇异权函数法"和"奇异等效裂纹法"的研究方法,同时给出简便算法和经验公式。进而应用Paris裂纹扩展法则进行结构奇异强度疲劳特性评估,并结合S-N曲线分析拐角节点处的应力集中,得到与结构尺寸相关的"奇异应力集中系数"函数。最后,针对切口应力,提出有限元分析所需要的"奇异应力等效取值点"的参考位置。希望能将奇异强度理论纳入船舶结构疲劳强度校核规范中做参考。 相似文献
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耐压球壳通常采用焊接方式将两个半球壳连接成整球,在焊缝处产生的接近材料屈服强度的焊接残余应力对球壳的承载能力有多大的影响,是否需要做焊后消除残余应力处理,将直接影响球壳的安全性和生产成本。而现有对球壳极限强度计算,无论是理论计算还是数值计算,均只考虑了球壳初始缺陷中的几何缺陷对球壳极限强度的影响。该文将在现有的耐压壳极限强度设计公式基础上,采用数值计算的方法对耐压球壳的焊接过程进行数值模拟,得到焊后球壳的焊接残余应力分布,并在此基础上考虑残余应力对球壳极限强度的影响,结果表明,对于大潜深厚球壳,焊接残余应力对耐压球壳承载能力影响不显著,为大深度潜器耐压球罐是否需做焊后消除残余应力处理提供了一定的参考依据。 相似文献
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由于浮式生产储油卸油船(FPSO)等船舶结构在服役前常常经历过较大的静载荷,这个预载荷常常会使焊接接头处较高的残余应力产生释放,同时船舶结构还承受着不断变化的波浪载荷,所以在估算FPSO等船舶结构典型焊接接头的疲劳强度时,需考虑残余应力释放的影响.该文通过有限元方法分析了在任意变幅循环载荷下,疲劳热点处的残余应力释放的规律,归纳出残余应力释放的大小与初始残余应力和外载荷之间的关系公式.然后,利用此公式对改进的疲劳估算公式进行修正,并且利用修正后的公式估算不同预载荷下典型焊接接头的疲劳强度,结果与试验结果棚符合.利用修正的改进公式可以更合理地对典型焊接接头在任意变幅循环载荷下的疲劳强度进行设计,同时也合理地解释了疲劳试验中以往不能被理解的结果. 相似文献
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《舰船科学技术》2019,(3)
本文建立了采用20节点奇异元1/4节点位移法求解三维裂纹整个前缘3种类型应力强度因子的数值计算方法,给出了裂纹网格划分方法以及网格划分参数取值范围;基于平板表面裂纹研究了网格划分参数对应力强度因子计算结果的影响,并与Newman-Raju解析公式计算结果对比验证了数值方法的准确性,二者最大误差小于2%;采用数值计算方法计算了裂纹扩展标准三点弯曲样扩展过程中单边穿透裂纹前缘应力强度因子,并与解析公式计算结果进行对比分析,二者最大误差为4.7%,且随着裂纹扩展,误差越来越小。结果表明,提出的数值方法可用于含裂纹结构整个裂纹前缘不同类型应力强度因子求解中。 相似文献
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In order to simplify the assessment method of notch stress and fatigue strength for cruciform welded structures in ocean engineering, a simple stress assessment formula based on singular strength values and was presented according to linear elastic fracture mechanics and notch stress strength theory. In view of the stress singularity caused by the V-notch, the stress of the corresponding U-notch was recommended and used for fatigue evaluation. Therefore, on the basis of V-notch stress formula, a simplified U-notch stress field evaluation formula was obtained by theoretical analysis and numerical calculation. After a series of verification, it is found that the stress distribution and fatigue strength evaluation formula for cruciform welded joints based on singular strength values proposed in this paper can simply and accurately predict the notch stress at welded joints. The result of fatigue strength evaluated by the simplified formula has a smaller scatter band. 相似文献
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Compared with thick plate welded joint, the welding joint of thin plate will produce initial deformation due to its low bending rigidity. The existence of initial deformation will cause the welded structure to produce secondary bending effect, which will produce greater stress magnification effect at the weld toe and seriously affect the fatigue strength of thin plate welded joints. Therefore, based on the correction formula of thick plate, considering the influence of initial deformation and geometric nonlinearity of thin plate, this paper deduces the stress magnification factor formula at the weld toe of T-shaped and cruciform specimens. The accuracy of the revised formula is further verified by comparing the notch stress calculated by the modified formula with the FE results. Finally, the modified formula is applied to the notch stress and fatigue evaluation of typical thin plate welded joints respectively. The results show that the proposed notch stress calculation formula can fully consider the stress amplification effect of thin plate structure, and can be used to quickly evaluate the notch stress field and fatigue strength of thin plate welded joints. 相似文献
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The study presents an analysis of S355J2+N steel and AA5083 aluminum alloy welded structural joints using explosion welded transition joints of reduced thickness. The transition joint thickness reduction significantly hinders the welding of the joints due to the risk of damage to the Al/steel interface as a result of the high temperatures during welding. Numerical modeling of the welding process is performed to determine safe welding parameters for the transition joint. The numerical analysis is supported by measurements of the temperature areas by a thermographic method. Welded structural joints are analyzed to determine the welding influence on the mechanical properties and microstructure of the transition joints. On this basis, a number of tests are carried out, including microhardness distribution measurements, strength tests of joints in two welding configurations and strength tests of the microspecimens of transition joints. Moreover, an experimental and numerical analysis of strain and stress distributions is carried out in combination with the use of the finite element method and digital image correlation, which allow us to identify the critical areas of the joints with regards to their strength. The results of the microstructural and strength tests carried out using macro- and microspecimens show softening of the aluminum alloy layers. However, the AA5083 and AA1050 layer softening as a result of welding did not reduce the load capacity of the transition joints, which could determine the strength of the dissimilar Al/steel welded structural joints. 相似文献
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典型船舶焊接接头应力集中系数有限元分析 总被引:1,自引:0,他引:1
利用MSC/Patran and MSC/Nastran对焊接中常见的对接接头焊趾处的应力集中系数进行有限元建模和计算,在分析有限元计算结果的基础上,提出比较完整的估算焊接接头应力集中系数公式。 相似文献
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超声冲击处理是一种改善焊接接头残余应力的新方法.本文对该方法所用的超声冲击处理装置进行了研究,研制成功具有频率自动跟踪和输出功率自动调节功能的超声冲击处理装置.利用该设备,进行了Q235,HG70钢超声冲击处理效果的验证性试验.初步试验结果表明:超声冲击处理装置的设计满足实际工作需要,该方法能够有效地改善焊接接头的残余应力. 相似文献
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由于高强度钢的使用,船舶结构许用应力水平的提高,船舶结构的疲劳强度越来越受到关注。船舶结构的疲劳寿命取决于其焊接结构的疲劳寿命。因此,了解焊缝几何参数对焊件疲劳强度的影响以及采用经济实用的方法改善船舶结构的疲劳性能是十分重要的。本文首先对焊缝几何参数对焊件疲劳寿命的影响进行了分析,在此基础上用ABS钢和945钢两种钢板做试件,分别进行了简单拉伸实验及打磨和未打磨条件下对接接头的疲劳试验。试验结果表明焊件的疲劳寿命可以通过打磨焊缝得到改善;尤其对于高强度钢焊件。试验还说明手工打磨焊缝和机械磨削焊缝对焊件疲劳强度的改善效果差别很大,疲劳寿命的分散性也很大。因此,应当对改善焊件疲劳寿命的工艺进行更详细的研究。 相似文献