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针对焊接过程的二维有限元计算与实际情况存在一定差别的问题,使用三维热弹-塑性有限元法对不同焊接顺序下加筋板焊接过程进行了仿真,获得了加筋板焊接引起的温度场、位移场和应力场。结果表明:在4点约束条件下,加筋板横截面的变形为中垂变形,纵筋的变形为中拱变形,方案1横截面变形更小,方案2纵筋变形更小。焊接引起的加筋板残余应力主要表现为横向应力,其在近焊缝区为拉应力,达到材料屈服强度,远离焊缝区表现为压应力,达到0.2倍材料屈服强度。加强筋横向应力峰值出现在起弧端和收弧端,约为0.85倍材料屈服强度,纵向应力峰值出现在焊接起弧端,约为0.3倍材料屈服强度。在加筋板横截面位置,焊接顺序主要影响加强筋处的残余应力;在加强筋位置,焊接顺序主要影响纵向应力。每组焊缝同时同向焊接,且每根纵筋从左向右依次焊接的焊接方案产生更小的残余应力。 相似文献
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Sara Y. Kenno Sreekanta Das John B. Kennedy Ronald B. Rogge Michael Gharghouri 《Marine Structures》2010,23(3):263-273
This paper provides an in-depth study of residual stress distributions found in stiffened steel plate structures, such as those typically used in ship hulls. The effect of stiffener spacing on the distribution of residual stress components was studied. The welding heat input was also varied between high and moderate to study the effect of heat input level on residual stress distributions. Four specimens, resembling typical stiffened steel plate structures used in ship hulls were built and tested. Steel plates of 9.5 mm thickness were stiffened by welding L127 × 76 × 9.5 steel angles. The test was completed using the neutron diffraction method. The three normal components of residual stress were obtained in this study. It was found that a lower heat input results in higher tensile residual stress and that there exists a critical stiffener spacing somewhere beyond 250 mm that creates a maximum tensile residual stress value near the welded connection. 相似文献
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《船舶与海洋工程学报》2015,(3)
Submerged arc welding(SAW) is advantageous for joining high thickness materials in large structure due to high material deposition rate. The non-uniform heating and cooling generates the thermal stresses and subsequently the residual stresses and distortion. The longitudinal and transverse residual stresses and angular distortion are generally measured in large panel structure of submerged arc welded fillet joints. Hence, the objective of this present work is to quantify the amount of residual stress and distortion in and around the weld joint due to positioning of stiffeners tack. The tacking sequence influences the level of residual stress and proper controlling of tacking sequences is required to minimize the stress. In present study, an elasto-plastic material behavior is considered to develop the thermo mechanical model which predicts the residual stress and angular distortion with varying tacking sequences. The simulated result reveals that the tacking sequence heavily influences the residual stress and deformation pattern of the single sided fillet joint. The finite element based numerical model is calibrated by comparing the experimental data from published literature. Henceforth, the angular distortions are measured from an in-house developed experimental set-up. A fair agreement between the predicted and experimental results indicates the robustness of the developed numerical model. However, the most significant conclusion from present study states that tack weld position should be placed opposite to the fillet weld side to minimize the residual stress. 相似文献
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Submerged arc welding (SAW) is advantageous for joining high thickness materials in large structure due to high material deposition rate. The non-uniform heating and cooling generates the thermal stresses and subsequently the residual stresses and distortion. The longitudinal and transverse residual stresses and angular distortion are generally measured in large panel structure of submerged arc welded fillet joints. Hence, the objective of this present work is to quantify the amount of residual stress and distortion in and around the weld joint due to positioning of stiffeners tack. The tacking sequence influences the level of residual stress and proper controlling of tacking sequences is required to minimize the stress. In present study, an elasto-plastic material behavior is considered to develop the thermo mechanical model which predicts the residual stress and angular distortion with varying tacking sequences. The simulated result reveals that the tacking sequence heavily influences the residual stress and deformation pattern of the single sided fillet joint. The finite element based numerical model is calibrated by comparing the experimental data from published literature. Henceforth, the angular distortions are measured from an in-house developed experimental set-up. A fair agreement between the predicted and experimental results indicates the robustness of the developed numerical model. However, the most significant conclusion from present study states that tack weld position should be placed opposite to the fillet weld side to minimize the residual stress. 相似文献
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An analytical formula for estimating elastic local buckling strength of a continuous stiffened plate subjected to biaxial thrust is derived considering the influence of plate/stiffener interaction and welding residual stresses. Through a comparison of calculated results with those by FEM eigenvalue analysis, high accuracy of the proposed formula is demonstrated. A series of buckling strength analyses is performed on the deck and bottom plating of actual ships. It has been found that:
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Author Keywords: Buckling strength formula; Stiffened plate; Biaxial thrust; Plate/stiffener interaction; Welding residual stress 相似文献
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《船舶与海洋工程学报》2021,(2)
The main configuration of ship construction consists of standard and fabricated stiffening members,such as T-sections,which are commonly used in shipbuilding.During the welding process,the nonuniform heating and rapid cooling lead to welding imperfections such as out-of-plane distortion and residual stresses.Owing to these imperfections,the fabricated structural members may not attain their design load,and removing these imperfections will require extra man-hours.The present work investigated controlling these imperfections at both the design and fabrication stages.A typical fabricated T-girder was selected to investigate the problem of these imperfections using double-sided welding.A numerical simulation based on finite element modeling(FEM) was used to investigate the effects of geometrical properties and welding sequence on the magnitude of the welding imperfections of the T-girder.The FEM results were validated with the experimental measurements of a double-sided fillet weld.Regarding the design stage,the optimum geometry of the fabricated T-girder was determined based on the minimum steel weight and out-of-plane distortion.Furthermore,regarding the fabrication stage,a parametric study with two variables(geometrical properties and welding sequence)was conducted to determine the optimum geometry and welding sequence based on the minimum welding out-of-plane distortion.Increasing the flange thickness and reducing the breadth while keeping the T-girder section modulus constant reduced the T-girder weight and out-of-plane distortion.Noncontinuous welding produced a significant reduction in the out-of-plane distortion,while an insignificant increase in the compressive residual stress occurred. 相似文献
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船用5083铝合金在焊接过程中较易出现热裂纹,主要原因是在脆性温度区间存在较大的收缩内应力。为此,对随焊滚压工艺进行研究,采用有限元分析软件MSC.Marc进行焊接工艺模拟,综合考虑焊接热源模型、材料性能和滚压等边界条件,建立船用5083铝合金工件的随焊滚压有限元模型,对比船用5083铝合金薄板在普通焊接工艺及随焊滚压工艺下的焊后残余应力。计算结果表明,在随焊滚压工艺下选择合适的轮枪距及压下量可有效降低焊后残余应力。 相似文献
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确定焊接反变形的数值模拟及规律分析 总被引:2,自引:0,他引:2
焊接接头附近局部的加热及冷却使被焊结构产生残余应力及角变形.目前在船厂精度控制中,通常采用构件焊接后对某些部位进行火工校正的方法来控制残余角变形.文章提供了另外一种有效控制结构残余角变形的方法:对结构焊前施加弹性的反向变形.利用热弹塑性有限元法来模拟结构的焊接过程,并对不同板厚、不同热源的结构分别进行数值模拟,最终确定焊接结构的弹性反变形规律:焊接前施加弹性反变形的结构在焊接后角变形趋于零. 相似文献
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T型焊接在船舶结构中的应用是非常广泛的.T型接头附近局部的加热及冷却使被焊结构产生残余应力及角变形.目前在船厂精度控制中,通常采用构件焊接后对某些部位进行火工校正的方法来控制残余角变形.论文提供了另外一种有效控制结构残余角变形的方法:对结构焊前施加弹性的反向角变形.文中首先利用热弹塑性有限元来模拟未施加反变形的结构的焊接过程,以估算残余角变形;然后模拟施加了弹性反变形的结构的焊接过程,并计算此时结构的残余角变形,以最终确定构件所需要的弹性反向角变形值.施加了弹性反向角变形的构件在焊接后无需进行火工校正. 相似文献
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T形焊接接头残余应力与变形的三维数值模拟 总被引:5,自引:0,他引:5
焊接残余应力和变形是个长期困扰船舶行业的难题。本文介绍了预测焊接残余应力和变形的基本数值理论,用MSC.Marc有限元分析软件对T形接头的焊接过程进行了实时三维数值模拟,并对焊接温度场、残余应力分布以及角变形计算结果进行了分析说明。 相似文献
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鉴于冷源长度方向尺寸对焊趾位置残余应力峰值的影响不大,本文着重分析冷源宽度方向尺寸对焊后残余应力的影响。本文利用干冰作为焊后冷源介质跟随焊枪同步运动,基于热弹塑性有限元方法,对AH36高强钢薄板随焊激冷的焊接方法进行了模拟。分析了冷源相对于焊缝的宽窄关系对随焊激冷控制残余应力的影响,从而可以对干冰的喷嘴形状设计进行指导,以优化焊后冷源控制应力应变的效果,推进“低应力无变形”焊接技术在船舶领域的发展与应用。结果表明,在焊后施加冷源可以达到降低低应力无变形的效果。其中,在所施加焊后冷源宽度较焊缝宽的情况下,较其他两种宽度冷源控制应力与变形的效果更佳,板中心纵向残余应力可由常规焊的484Mpa减少到375Mpa,减少了109Mpa。 相似文献
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钛合金具有高强耐蚀、易焊等优质性能,广泛用于潜艇、深潜器等潜水器的受力构件及耐压耐蚀壳体。在焊接过程中,会不可避免的产生焊接残余应力,较大的焊接残余应力会影响焊接结构的安全性能,而焊后热处理能够有效减少焊接残余应力。本文首先采用数值模拟的方法对TC4对接焊平板热处理前后的残余应力进行计算,通过与试验结果进行对比研究,验证有限元数值模拟的合理性;然后采用该数值模拟方法研究Ti80对接焊平板多层多道焊的整个焊接过程以及焊后热处理方法。结果表明,焊后Ti80对接焊平板表面具有较大横向和纵向残余拉应力,通过热处理工艺后,残余拉应力得到明显降低。因此,通过焊后热处理方法可以在很大程度上降低对焊接结构力学性能可能产生的不利影响的残余拉应力。 相似文献
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焊接残余应力会对结构的力学特性带来不利的影响,而超声冲击能较有效地消除大型焊接结构残余拉应力,起到大幅增加结构疲劳强度的作用。该文首先采用热弹塑性方法对超声冲击前的高强钢平板焊接残余应力进行分析,然后采用瞬态动力学方法对焊接残余应力的超声冲击消除进行三维仿真研究,最后对超声冲击前后残余应力的数值计算结果与试验结果进行对比分析研究。由分析结果可知:超声冲击前高强钢平板焊缝附近存在较大的残余拉应力,呈双峰分布;超声冲击后较大的残余拉应力转化为残余压应力;数值模拟结果与试验结果相一致。并且,平板厚度方向的应力经过超声冲击后表现为应力的均匀化。文中研究结果可为高强钢大型焊接结构超声冲击消除残余应力进行合理评估和后续进行相关力学特性研究提供理论基础和技术支撑。 相似文献
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Ju2000E自升式钻井平台的桩腿TKY节点由于焊接结构复杂,各构件采用高强度大厚板,焊缝多且不规则,焊接残余应力分布复杂,对其评估焊接残余应力非常困难。如今焊接残余应力表面测量配合应力计算是最有效的方法,本文采用一系列的高效计算方法实现了桩腿TKY节点焊接残余应力的高效计算,并通过X衍射法和小孔法验证了计算的可靠性,同时通过计算机模拟软件建立的三维实体模型分析了该结构的应力分布特征。计算结果表明,整个模拟件各方向的峰值拉应力出现在半圆板焊接区域表层,特别是焊趾位置呈现较大的应力集中,而焊缝材料的屈服强度相对半圆板材料屈服强度低,故焊缝区域的各方向拉应力幅值稍低于半圆板焊接区域;整个模拟件各焊缝区域从外到内部的等效应力呈现300-600MPa的较大应力,靠近半圆板的焊趾位置出现较大应力集中,等效应力达到600MPa以上。 相似文献
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钛合金在室温、高应力条件下的存在明显蠕变现象,焊接钛合金板和壳体内含有较高的焊接残余应力.因此,在焊接残余应力的作用下,钛合金材料会发生蠕变,使结构内固有应变发生变化,从而导致残余应力重分布.本文忽略焊接工艺对材料蠕变特性的影响,采用数值计算方法对TC4钛合金薄板和薄壁球壳的焊接残余应力重分布现象进行了分析. 相似文献