轴向载荷下多平面DT型管节点应力集中系数概率模型研究

应力集中系数作为一个随机变量,对管节点及导管架平台的疲劳可靠性评估结果有着重要影响。文章以多平面DT型管节点为研究对象,建立了352个几何参数不同的三维管节点有限元模型,并分析了沿弦管-撑管焊缝处的应力集中系数分布。采用密度直方图描述最大应力集中系数统计样本的特征,利用疲劳可靠性分析中常用的几种概率分布进行拟合。各个概率模型中的参数通过极大似然估计方法得到。根据卡方检验的结果对比发现,Birnbaum-Saunders分布是最适合的概率模型。因此,文中提出一组适用于描述在轴向载荷即单向轴向和平衡轴向载荷作用下多平面DT型管节点弦管侧和撑管侧最大应力集中系数分布的概率模型,对今后导管架式海洋平台结构的疲劳可靠性分析具有重要意义。     

海洋平台T型管节点应力集中系数研究

以具有代表性的海洋平台形管接头为例,采用有限元方法,研究接头处的应力集中系数分布.分析支管6个自由度的约束条件和受载方式,基于ABAQUS计算管节点在各种载荷下的应力分布,尤其关注几何学上的最危险地带——管筒十字交叉点处的应力集中系数,并根据6种基本情况下T形管节点的有限元计算结果,得到管节点所受到的应力最大、结构强度...     

轴力作用下K型焊接管节点的应力集中系数分析

该文介绍了K型焊接管节点的几何和数值模拟方法.通过对两个大型的K节点模型的试验测试,得到了K节点在轴力作用下沿着焊缝周围的热应力区内的应力集中系数,并验证了数值结果的准确性.在此基础上,通过对1008个不同几何形状的K节点在轴力作用下应力集中系数的分析,研究了几何参数对K节点应力集中系数的影响.根据模型分析的结果,通过曲线拟合提出了计算轴力作用下K节点应力集中系数的参数公式,并对该公式的精确性进行了评价.     

T型管节点抗冲击性能研究

为研究T型管节点的在冲击性荷载下的力学性能,文章首先采用有限元软件ABAQUS建立了构件冲击荷载下的理论分析模型.在验证模型可靠性的基础上,分别以管节点的几何参数和荷载参数为主要影响因素,分析各相关参数对节点抗冲击性能的影响.分析结果表明:支、主管的管径比与主管的径厚比,对管节点所受的最大冲击力、冲击力作用时间,节点变形情况有较大影响.     

基于应力集中系数的SWATH船疲劳节点筛选方法研究

小水线面双体船的疲劳强度问题十分突出,疲劳强度校核节点众多且目前还没有一个明确的疲劳节点筛选原则。针对这些问题,研究基于典型节点的热点应力集中系数有限元计算和名义应力分析,对小水线面双体船全船结构中可能发生疲劳强度失效的节点进行疲劳寿命估算,并根据估算结果对需要进行热点应力分析的疲劳节点进行筛选。计算结果表明,该方法在处理大量结构节点的疲劳寿命估算问题中,计算效率较高,能够反映全船的节点疲劳强度特性,且估算结果较为可靠。该方法不仅适用于小水线面双体船,对于其他类型的船舶,该方法同样具有适用性。     

主管受拉K型管节点抗冲击性能有限元研究

偶然荷载引起的撞击会造成海洋平台中的管桁架严重损伤,尤其是管节点的破坏,严重时会导致整个平台的损坏,因此管节点是海洋平台设计研究中的一个重要内容.本文以海洋平台中常见的K型管节点为研究对象,利用有限元软件ABAQUS研究了3个主管在受拉状态下的K型管节点的抗冲击性能.在研究过程中以几何参数和荷载参数为主要变量,分析了各相关参数对管节点的抗冲击性能的影响.确定了K型管节点在冲击荷载作用下的破坏模态.在对冲击力、位移、能量耗散等时程曲线的分析中揭示了抗冲击性能工作机理.研究结果表明:支主管的径厚比以及支管的拉压状态对管节点所受到的最大冲击力和节点变形具有较显著的影响.     

基于ANSYS的传动轴应力集中系数优化

针对非冰区船舶进行冰区改造轴系计算时传动轴的瞬时扭矩超出轴的极限扭矩的问题,提出一种通过优化法兰与轴的过渡圆角来减小轴应力集中系数的有限元计算方法.以208000 DWT散货船传动轴为例,进行法兰和轴的过渡圆角优化分析,结果表明,法兰和轴采用多圆弧连接形式比单圆弧连接形式更能有效减小轴的应力集中系数,且多圆弧过渡形式中过渡圆角和半径对应力集中系数有明显影响,通过有限元对过渡圆角和半径进行优化计算,得到了最佳的多圆弧连接方式.     

管节点在面内弯曲载荷下的静力与疲劳试验研究

本文介绍了一组5个大尺度T型管节点在面内弯曲载荷下进行静力和疲劳试验研究的概况。研究了热点应力范围概念及现有S－N设计方对承受面内弯曲载荷的管节点的适用性。给出了应力分析和疲劳试验的主要结果，也给出了曲型的裂纹扩展特性，并将试验结果与轴载下的试验结果进行了比较。面内弯曲载荷下的管节点，应力分布趋于均匀，应力集中系数显著下降，疲劳寿命只有随轴载的管节点的疲劳寿命的50％左右。     

基于ANSYS的十字接头焊应力集中系数研究

利用ANSYS有限元软件的参数化设计语言(APDL)编程进行数值模拟计算,研究了十字接头工作应力分布及应力集中系数的影响因素,得出一系列应力集中系数样本。通过对样本进行曲线拟合分析,得出与实际基本一致的应力集中系数变化规律,从而证明ANSYS可以辅助实际工艺的优化。     

Stress concentration factors of multi-planar tubular KT-joints subjected to in-plane bending moments

Numerical research on the stress concentration factors (SCFs) in uniplanar tubular joints is abundantly reported in literature. However, it has been shown that SCF equations for uniplanar joints can lead to both under- or overestimation of the SCFs in multi-planar joints. In this paper, a parametric finite element study of 81 different three-planar KT joints subjected to five different in-plane bending loading conditions is performed. The effects of different non-dimensional geometrical parameters on the SCF values at the crown locations of the central and outer braces are studied. Based on nonlinear regression analyses of the finite element results, a new set of SCF equations is developed and presented.     

轴向荷载作用下K型管节点焊缝周围应力分布的参数公式

应用分区产生网格的方法产生了K型节点的有限元模型,计算了在轴向荷载作用下K型节点焊缝周围的热点应力分布情况,并与相关试验结果进行对比分析,验证了所提出的有限元模型的可行性和准确性。通过对1152个K节点模型分析,研究了几何参数对K型节点焊缝周围热点应力分布的影响,发现在几何参数取不同值时热点应力的分布随几何参数的变化发生改变,而且热点应力的位置也随着几何参数的变化在冠点和鞍点之间移动。并在此几何参数分析的基础上,提出了K型节点焊缝周围应力集中系数分布的参数公式,并对参数公式进行了误差分析。对于绝大多数K节点模型,拟合得到的参数公式所计算的焊缝周围应力分布结果是精确可靠的,所以提出的参数公式为工程中K节点疲劳设计和分析提供了参考方法。     

双平面焊接圆管截面DKT节点的中心撑杆鞍点及冠点位置的应力集中系数(英文)

A set of parametric stress analyses was carried out for two-planar tubular DKT-joints under different axial loading conditions.The analysis results were used to present general remarks on the effects of the geometrical parameters on stress concentration factors(SCFs) at the inner saddle,outer saddle,and crown positions on the central brace.Based on results of finite element(FE) analysis and through nonlinear regression analysis,a new set of SCF parametric equations was established for fatigue design purposes.An assessment study of equations was conducted against the experimental data and original SCF database.The satisfaction of acceptance criteria proposed by the UK Department of Energy(UK DoE) was also checked.Results of parametric study showed that highly remarkable differences exist between the SCF values in a multi-planar DKT-joint and the corresponding SCFs in an equivalent uni-planar KT-joint having the same geometrical properties.It can be clearly concluded from this observation that using the equations proposed for uni-planar KT-connections to compute the SCFs in multi-planar DKT-joints will lead to either considerably under-predicting or over-predicting results.Hence,it is necessary to develop SCF formulae specially designed for multi-planar DKT-joints.Good results of equation assessment according to UK DoE acceptance criteria,high values of correlation coefficients,and the satisfactory agreement between the predictions of the proposed equations and the experimental data guarantee the accuracy of the equations.Therefore,the developed equations can be reliably used for fatigue design of offshore structures.     

Stress concentration factors in FRP-reinforced tubular DKT joints under axial loads

The stress concentration factors (SCFs) in uniplanar fibre-reinforced polymer (FRP) DKT joints are calculated under five axial loading conditions to determine the maximum SCFs. To this end, 108 finite element models of reinforced DKT joints with different FRPs and geometrical parameters are analysed. Available experimental data and formulas are used to validate the finite element models. The validated finite element models are utilized to investigate the effects of the FRP parameters along with different geometrical parameters on the stress concentration factors in uniplanar DKT joints. The simulations show a reduction of the maximum SCF by around 40% compared to unreinforced DKT joints. The reduction effect increases significantly with increasing the FRP thickness and the number of layers. Despite the notable efficacy of the FRP sheets on the drop of the SCFs in the X-connections, there is not any study or equation on the X-joints with FRP. Therefore, a precise equation is proposed for quantifying the SCFs in X-connections with FRP and is checked against the UK DoE acceptance standard.     

Geometric stress distribution along the weld toe of the outer brace in two-planar tubular DKT-joints: Parametric study and deriving the SCF design equations

Regarding the research efforts expended so far on the calculation of stress concentration factors (SCFs) in tubular joints, two major shortcomings can be noted: (a) significant effort has been devoted to the study of SCFs in various uni-planar connections. Nevertheless, for multi-planar joints which cover the majority of practical applications, very few investigations have been reported due to the complexity and high cost involved; (b) majority of these research works focused on the study of SCFs at certain positions such as the saddle, crown toe, and crown heel, and they have ignored the hot-spot stress (HSS) at other positions along the weld toe. In the present paper, effects of dimensionless geometrical parameters on the SCF distribution along the weld toe of main (outer) braces in the axially loaded right-angle two-planar tubular DKT-joints are investigated. In order to study the multi-planar effect, SCF distribution in two-planar joints is compared with the distribution in a uni-planar joint having the same geometrical properties. A complete set of SCF database is constructed based on the two-planar DKT-joint Finite element models which are verified against experimental results and the predictions of Lloyd’s Register (LR) equations. The FE models cover a wide range of geometrical parameters. Six new SCF parametric formulae are developed through nonlinear regression analyses for the accurate and reliable fatigue design of two-planar DKT-joints under axial loads. An assessment study of these equations is conducted against the experimental data, the original FEM database and the acceptance criteria recommended by the UK Department of Energy.     

轴肩过渡曲线设计及应力集中分析

分析单曲率圆弧、双曲率圆弧、三曲率圆弧、椭圆和流线形等多种轴肩过渡曲线的设计方法,利用有限元软件Abaqus对这些曲线进行建模分析.对于单曲率圆弧,应力集中系数和应力集中角度随着过渡半径的增大而减小,但是应力集中系数减小的效果并不十分明显.流线形过渡曲线基本消除了应力集中,其应力集中系数仅为1.004.双曲率圆弧、三曲率圆弧和椭圆过渡曲线也都将应力集中系数降低到1.05以下,适于实际工程应用.     

基于形函数插值理论预测轴力作用下T型管节点热点应力的分布规律

海洋平台中管节点的疲劳寿命由焊缝周围热点应力的分布情况决定.该文采用有限元方法分析了承受轴向力作用下T节点焊缝周围的应力分布规律.通过对140个具有不同几何形状的T节点模型的有限元分析结果.提出了一种基于形函数插值理论的方法预测T节点焊缝周围的应力分布,并且通过比较插值法得到的结果和有限元结果进行比较,验证了这种方法的准确性.     

对接接头焊趾应力集中有限元分析

研究焊缝几何参数对应力集中的影响,对于提高焊接结构疲劳强度有重要的意义.本文采用有限元方法,计算了双侧对称加强高和单侧加强高的对接接头焊趾处的应力集中系数,分析了几个主要参数,包括焊趾倾角、焊趾过渡圆弧半径和板厚对于应力集中系数的影响,研究了焊趾处应力集中沿板厚方向的变化情况,在分析大量计算结果的基础上给出了估算两种形式的对接接头应力集中系数的经验公式.结果表明,减小焊趾倾角,增大过渡圆弧半径,可以减缓焊趾处截面形状的变化,改善焊趾处的应力集中;板厚的增加使得应力集中系数增大.并且单侧加强高的对接接头应力集中系数小于双侧对称加强高对接接头的,其减小幅度只与θ有关.     

一种新的海洋平台管节点应力评估方法

海洋工程焊接管节点受应力集中及复杂随机载荷的联合作用,容易发生疲劳破坏。为了提高焊接管节点结构疲劳寿命预测的准确性,文章以管壁厚方向上的一点作为疲劳评估点,提出了一种新的管节点结构应力计算方法。通过与国际上公开发表的疲劳试验数据进行比较,证明了文中方法应用于管节点结构的可行性及考虑壁厚方向应力梯度的有效性。基于数值计算,文中还提出了可用于T型管节点应力集中系数计算的参数公式,并对参数公式的精度进行了验证。