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以ABAQUS软件为平台,开发热-弹-塑性有限元方法模拟了V形坡口和K形坡口Q345/SUS304异种钢多层焊对接接头的温度场、残余应力和焊接变形.同时采用试验的方法测量了接头的残余应力和角变形.计算结果与试验测量结果吻合良好,验证了计算方法的妥当性.数值结果表明,不同坡口Q345/SUS304异种钢接头的Q345母材与焊缝交界处的应力分布均出现不连续性,且SUS304侧的高拉伸残余应力区明显宽于Q345侧;K形坡口开口朝向Q345侧相较于开口朝向SUS304侧的接头,Q345/焊缝交界处附近的峰值应力和高拉伸残余应力区均明显较小.试验和数值结果表明,坡口形式对接头的角变形有明显的影响. 相似文献
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为了研究大管径拱肋环焊缝焊接接头残余应力分布规律,用ANSYS软件对直径1 400 mm,厚度26 mm的拱肋环焊缝进行了焊接温度场及应力场数值模拟. 分析了焊接过程的温度分布云图及应力分布云图,获取了特征节点的热循环曲线,分析了焊后内外表面各残余应力分布情况及内表面残余应力形成过程. 结果表明,等效残余拉应力峰值出现在钢管内表面焊缝底部. 焊后径向和环向残余应力在内、外表面大部分区域形成压应力,轴向残余应力在内、外表面形成拉-压相间的应力分布,等效残余应力在内、外表面均为拉应力. 残余应力形成过程中,第2 ~ 7层的径向、环向、轴向及等效残余应力曲线与第1层径向、环向、轴向及等效残余应力曲线相比,除在波峰及波谷处有较小变化外,其它区域残余应力几乎不变. 相似文献
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以热——弹塑性理论为基础,建立了厚壁管环焊缝残余应力的二维轴对称有限元模型,利用ANSYS有限元程序分析了三种焊接工艺参数对管道环焊缝残余应力的影响,计算中考虑了材料热物理性能参数和力学性能参数的温度相关性.结果表明,管道内表面焊缝和近缝区的轴向和环向残余应力均为拉应力,而管道外表面焊缝和近缝区的轴向残余应力和环向残余应力均为压应力;接头内表面应力水平高于外表面;残余应力的最大值均位于距管道外表面一定距离处,其数值接近于材料的屈服应力;随着焊接热输入的增加,残余应力峰值变化不大,塑性变形区宽度增加. 相似文献
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采用轮廓法测试小尺寸镍基高温合金惯性摩擦焊接头的内部环向应力、中等尺寸惯性摩擦焊接头内部环向和轴向应力;分析惯性摩擦焊接头内部环向和轴向残余应力分布特征. 结果表明,轮廓法能测试小尺寸及窄小焊缝试件的内部残余应力,能反映出窄小焊缝内部的大梯度焊接残余应力全貌;惯性摩擦焊接头的环向应力沿轴向变化剧烈,沿环向分布均匀,沿厚度分布不均匀;焊缝中心位置外表层区域环向应力小于内表层区域环向应力;焊缝中心外表面轴向应力为压应力,而内表面轴向应力为拉应力,且轴向应力沿厚度呈线性变化. 相似文献
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The internal residual stress in the narrow inertia friction welding (IFW) welds of FGH96 nickel-based superalloy was measured with the contour method (CM). The as-welded internal hoop and axial residual stresses were obtained after two cuts and the detailed steps of the CM measurement were described. In addition, the hole-drilling method was used to obtain the surface stress. Furthermore, the internal hoop residual stress of a FGH96 superalloy IFW specimen after post-weld heat treatment (PWHT) was also measured with the CM after a single cut. The measured results show that the peak hoop residual stress is not symmetrical about the weld centreline. Axial residual stress on the outer surface at the weld centreline is compressive stress, while tensile stress appears on the inner surface, and it varies linearly along the thickness. The peak values of hoop tensile and compressive stresses decrease dramatically after PWHT. 相似文献
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为了改善铝合金搅拌摩擦焊接头残余应力与力学性能,在4 mm厚2219铝合金搅拌摩擦焊接头上表面进行冷喷涂试验,研究分析了冷喷涂前后接头残余应力与力学性能的变化. 结果表明,焊态接头纵向残余应力呈不对称“M”形分布,残余应力峰值位于前进侧靠轴肩附近;冷喷涂后,接头残余应力大幅度降低,残余应力峰值由186 MPa降低至43 MPa.涂层沉积厚度约200 μm,涂层与基体界面产生了较大的塑性变形,基体界面附近组织晶粒得以细化.由于冷喷涂过程的喷丸效应,接头上表面显微硬度平均提高了25 HV,作用深度约1 mm.接头拉伸性能也获得明显改善,抗拉强度提升6.3%,断后伸长率提升78.6%,焊态与冷喷涂态的拉伸试样均在接头前进侧的热影响区附近发生断裂,符合在低硬度区或弱结合面产生裂纹并扩展的弱区断裂的特征. 相似文献
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The influence of tool flank wear on residual stresses induced by milling aluminum alloy 总被引:1,自引:0,他引:1
Z.T. Tang Z.Q. Liu Y.Z. Pan Y. Wan X. Ai 《Journal of Materials Processing Technology》2009,209(9):4502-4508
The machining processes could induce residual stresses that enhance or impair greatly the performance of the machined component. Machining residual stresses correlate very closely with the cutting parameters and the tool geometries. In this paper, the effect of the tool flank wear on residual stresses profiles in milling of aluminum alloy 7050-T7451 was investigated. In the experiments, the residual stresses on the surface of the workpiece and in-depth were measured by using X-ray diffraction technique in combination with electro-polishing technique. In order to correlate the residual stresses with the thermal and mechanical phenomena developed during milling, the orthogonal components of the cutting forces were measured using a Kistler 9257A type three-component piezoelectric dynamometer. The temperature field of the machined workpiece surface was obtained with the combination of infrared thermal imaging system and finite element method. The results show that the tool flank wear has a significant effect on residual stresses profiles, especially superficial residual stress. As the tool flank wear length increases, the residual stress on the machined surface shifts obviously to tensile range, the residual compressive stress beneath the machined surface increases and the thickness of the residual stresses layer also increases. The magnitude and distributions of the residual stresses are closely correlated with cutting forces and temperature field. The three orthogonal components of the peak cutting forces increase and the highest temperature of the machined workpiece surface also increases significantly with an increase in the flank wear. The results reveal that the thermal load plays a significant role in the formation of the superficial residual stress, while the dominative factor that affects thickness of residual stresses layer is the mechanical load in high-speed milling aluminum alloy using worn tool. 相似文献
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《中国焊接》2021,(2)
The residual deformation in thin-plate butt weldments without wire filling was investigated by simulative and experimental methods. The good consistency on the residual deformation between the simulation result and test measurement data indicates that the contact mode can be used to simulate the butt welding process of thin plates without wire filling. The longitudinal residual tensile stress in the weld zone lead to the buckling deformation of thin-plate weldments, and the appearance of buckling deformation would in turn reduce the peak value of longitudinal residual tensile stress. As for the thin-plate butt weldments, the tensile stresses in the weld and its neighboring zone are produced in the post-weld cooling process and have not peak until the temperature of the welds dropped to near room temperature. 相似文献
10.
超音速等离子喷涂FeCrBSi涂层组织和残余应力分析 总被引:4,自引:0,他引:4
采用超音速等离子喷涂技术制备了FeCrBSi涂层,利用扫描电子显微镜(SEM)、X射线衍射仪(XRD)和纳米压痕仪等研究了涂层的微观组织和力学性能。采用X射线应力仪对不同厚度及不同温度退火后涂层的表面残余应力进行测试。结果表明涂层表面的残余应力为拉应力,且随着涂层厚度的增加而增加;对试样进行退火处理可以有效地缓和涂层表面的残余应力,随着温度的升高涂层表面的残余应力不断降低,到260℃左右变为压应力;压应力值随着退火温度的升高而变大,但当温度升高到大约400℃以上时,保持在80 MPa左右。 相似文献
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《Science & Technology of Welding & Joining》2013,18(6):267-271
AbstractResidual stress measurements have been carried out on 8 and 12 mm thickness carbon steel single V weld joints by X -ray diffraction and ultrasonic techniques. The maximum tensile and maximum compressive stresses on the surface of the 12 mm carbon steel weld joint are higher than those on the surface of the 8 mm carbon steel weld joint. The results also indicate that the variation in the surface residual stress across the weld is different from that for the through thickness residual stresses. The effect of constraint, which depends on the thickness of the weld joint, is found to influence the surface and through thickness residual stresses. The effect of stress relief annealing heat treatment on residual stresses was also studied. 相似文献
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For plastic deformed parts, the dimensional accuracy is significantly affected by residual stresses and so does the performance in service. Therefore, the rolling process of GH4169 alloy sheet at room temperature was investigated by finite element method. The effects of rolling reduction, friction coefficient, rolling velocity and initial stress on the longitudinal residual stress distribution over the thickness of GH4169 alloy sheet were analyzed. The results show that the values of longitudinal residual stress can be slightly reduced by increasing the rolling reduction and velocity. The longitudinal residual stress over the thickness distributes as ‘‘V' type or weak ‘‘W' type. The initial stress mainly has an effect on the longitudinal stress in the backward slip area. But the friction coefficient has remarkable influence on longitudinal residual stress. With the friction coefficient increasing from 0.1 to 0.5, the value of longitudinal residual stress on the sheet surface is reduced by 282 MPa. Simultaneously, the tensile stress turns into compressive stress with a strong‘‘W' type distribution. 相似文献
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采用热弹塑性有限元数值模拟方法,研究了连接温度对C/C复合材料与Cu平面对接接头残余应力的影响。结果表明:最大拉应力的分布具有方向性,在连接界面法线方向上,最大拉应力出现在靠近接头界面的C/C复合材料侧,位于连接件的棱边上;在平行连接界面方向上,最大拉应力出现在靠近接头界面的Cu侧表面。最大剪切应力位于接头界面处。随着连接温度的升高,接头残余应力峰值逐渐增大,但接头残余应力的分布形态相似。对于连接界面尺寸为4 mm×4 mm的接头,在连接温度为1 000℃时,离接头界面1.2 mm的C/C复合材料侧最容易发生断裂。 相似文献
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The residual stresses distribution of 7075 aluminum alloy in vacuum electron beam welding joint was numerically simulated using nonlinear finite element method. The result shows that the longitudinal residual stress is tension stress along weld center and the stress peak value appears in the middle of the welded seam; the transversal residual stress is compression stress ; the residual stress in thickness direction is very small. 相似文献
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W18Cr4V高速钢激光相变强化层的残余应力 总被引:2,自引:0,他引:2
利用X射线衍射法对W18Cr4V高速钢激光相变强化层的残余应力进行了测定和分析。试验结果表明,相变强化层表面的残余应力为压应力,内部为拉应力,近似按正弦函数分布。其大小和分布状态随工艺参数的变化而改变。当改变工艺参数使表面熔化时,表面为拉应力。 相似文献
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以ABAQUS软件为平台,开发了用于模拟多层多道焊接头温度场、残余应力和焊接变形的热-弹-塑性有限元计算方法. 利用所开发的计算方法对板厚为16 mm的Q345钢平板对接接头的温度场、应力场和变形进行了数值模拟. 采用试验方法测量了对接接头的残余应力和角变形. 试验结果与数值结果比较吻合,验证了所开发方法的有效性. 结果表明,在板厚相同的条件下角变形和横向收缩随着焊接层数的增多有增大的趋势;焊缝附近的纵向拉伸应力区域分布范围随焊接层数的增加略有减小;焊接层数对纵向残余应力的峰值影响较小. 相似文献
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目的创建可计及温度与层状结构共同影响的超高温陶瓷基复合材料涂层与基体层因热不匹配导致的残余热应力的理论表征模型。方法基于经典的层合板理论与超高温陶瓷基复合材料热物理性能参数对温度的敏感性研究,引入温度和层状结构对涂层与基体层所受残余热应力的影响,形成各层残余热应力温度相关性的理论表征方法,并以ZrB_2-SiC复合材料涂层为例,利用该理论方法系统地研究了各种控制机制对残余热应力的影响及其随温度的演化规律。结果超高温陶瓷基复合材料涂层与基体层所受的残余热应力随着温度的变化而变化,涂层热膨胀系数与基体层热膨胀系数差别越大,变化幅度越大。当涂层材料热膨胀系数大于基体层材料热膨胀系数时,涂层材料遭受残余拉应力,基体层材料遭受残余压应力;随着涂层厚度的增加,涂层所受拉应力减小,而基体层所受压应力增大;当涂层材料热膨胀系数小于基体层材料热膨胀系数时,涂层材料遭受残余压应力,基体层材料遭受残余拉应力;随着涂层厚度的增加,涂层所受压应力减小,而基体层所受拉应力增大。低温下,各层所受残余热应力对层厚与每层材料组成的变化比较敏感,随着温度的升高,敏感性降低。结论对于涂层材料,应设计涂层材料的热膨胀系数小于基体层材料的热膨胀系数,使涂层遭受残余压应力,这不仅能够降低材料表面产生裂纹的危险,同时可以抑制表面已有缺陷的扩展。同时应当设计相对较小的涂层厚度,以增大涂层所受的残余压应力,降低基体层所受的残余拉应力,有效提高整体材料在不同温度下的强度性能。 相似文献
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为了研究不同激光喷丸参数对残余应力分布的影响规律,较快获取期望的残余应力分布,通过利用有限元软件ABAQUS对激光喷丸过程进行数值模拟,完成了7075航空铝合金靶材在不同冲击波峰值压力、冲击次数、光斑大小及搭接率等工艺参数下的数值模拟。模拟结果表明:随着峰值压力的增加,材料表面残余压应力也增加,当峰值压力增大到一定值时,材料表面残余压应力达到最大;当峰值压力一定时,材料表面及内部残余压应力随光斑大小及冲击次数的增加而增加;随着光斑搭接率的增加,材料表面残余压应力增大,且随着搭接率的增加,表面残余压应力的波动逐渐减小。 相似文献