共查询到19条相似文献,搜索用时 125 毫秒
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随焊激冷减小铝合金薄板的焊接变形 总被引:8,自引:0,他引:8
研究了随焊激冷减小铝合金薄板焊接变形的效果及夹具的散热条件对该效果的影响,研究表明,随焊激冷能够减小铝合金薄板的焊接变形,其效果受夹具自身冷却作用影响很大。随着夹具散热条件的降低,随焊激冷所起的作用增强,但降低焊接变表的效果仍不够明显,适当预热夹具本身可以减小焊接变形,但更重要的是预热使激冷造成了温差拉伸,因此获得了最小的焊接变形。 相似文献
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从力学角度出发提出随焊超声波激振控制高强硬铝合金薄板焊接变形的新方法,阐明其控制焊接应力及变形的机理。基于数值模拟分析,利用Marc建立铝合金薄板的随焊超声波激振热力耦合模型,找出最优焊接参数以及加载冲击与热源的最佳距离。利用自行研制的随焊超声波激振装置进行焊接试验。结果表明:激振距离为22 mm时,板长方向中截面残余拉应力峰值由常规焊的248 MPa下降到63 MPa,压应力峰值从-77 MPa降低到-27 MPa,低于薄板的临界失稳应力,薄板挠曲变形完全消失,且板边最大挠度由8.66 mm下降到0.9 mm。试验结果与模拟结果吻合较好。 相似文献
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采用ABAQUS软件对不同焊接工艺条件下2 mm铝/锂异种金属薄板搅拌摩擦焊过程进行数值模拟,通过建立搅拌摩擦焊热源与干冰冷源模型,将空冷和随焊干冰激冷条件下的温度场与应力场进行对比分析,研究发现:焊接温度场呈现前小后大的椭圆形分布,在垂直于焊缝方向的残余应力表现为“M”型趋势,并且残余应力的峰值位于搅拌头轴肩作用区的边缘位置。相较于空冷条件,随焊激冷工艺条件下AA2060焊件上表面的应力峰值降低约13%。在相同激冷距离下,随着激冷强度降低,热源与冷源间的温度梯度增大,焊件的残余应力降低,结果表明随焊激冷技术可以有效控制铝/锂薄板焊接残余应力。 相似文献
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从力学角度出发提出了“随焊高速气流场”柔性控制高强铝合金薄板焊接失稳变形的新方法,研究了该方法控制2A12高强铝合金薄板焊接变形的有效可行性,分析了随焊高速气流载荷对薄板应力演变规律的影响,阐明了其控制焊接残余应力及变形机理.基于有限元法分析了温度场及应力场,确定了气动载荷与热源作用距离这一关键因素,并获得了气体压力的合理有效范围.在自行研制的随焊高速气流场装置上进行试验验证.结果表明,当气动载荷作用距离为20 mm、气动载荷为30 MPa时,焊接失稳变形基本消失,焊缝中截面上的纵向残余拉应力峰值较常规焊下降了77.73%,残余压应力峰值下降了69.23%,板边变形最大挠度仅为0.9 mm,较常规焊的8.5 mm下降了89.41%.试验结果与模拟结果吻合良好,验证了随焊控制模型的正确性. 相似文献
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0 IntroductionWeldingdistortionhasbeenaseriousproblemassociatedwiththefabricationoflargestructuresmadeofrelativelythinsectioncomponents.Weldinginducedbucklingcanleadtolossofdimensionalcontrolandstructuralintegrity.Sohowtocontrolweldingdistortionhasalw… 相似文献
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ABSTRACTA new method of hybrid technology for controlling welding residual stress and distortion is proposed, which contains the transient thermal tensioning with two symmetrical heat sources ahead and the trailing intensive cooling with a cooling source behind the welding heat source during the welding process. Welding temperature, stress and distortion were compared and discussed under different welding processes by experimental and numerical methods. The results reveal that the hybrid technology adjusted the temperature field during welding and redistributed the longitudinal residual stress of welding joint. Thus, the welding residual distortion was reduced. Compared with conventional metal inert gas welding, the reductions of the welding residual stress and distortion of joint by the hybrid technology reached 65% and 58%, respectively. 相似文献
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《Science & Technology of Welding & Joining》2013,18(4):264-268
AbstractThe effectiveness of welding with a trailing heat sink in reducing the angular distortion of a weld has been experimentally investigated with focus on the cooling position. A numerical model of welding with a trailing heat sink is constructed through the comparison of measured values of weld penetration, thermal cycles and angular distortion with those calculated. On the basis of this model, the effect of welding heat input conditions on the reduction in angular distortion is discussed to evaluate the versatility of welding with a trailing heat sink. The results indicate that the choice of an appropriate cooling position behind the welding heat source is essential for the effective reduction in angular distortion. The reduction in angular distortion by the heat sink at the appropriate cooling position increases with the heat input parameter Qnet/h, where Qnet is the weld heat input and h is the thickness of the plate. 相似文献
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文中利用米粒状干冰颗粒作为冷却介质进行随焊激冷,通过将干冰颗粒与压缩空气混合,借助喷枪从喷嘴直接喷射于试板上,干冰颗粒与试件接触瞬间升华带走大量热量,实现局部快速冷却.基于热弹塑性有限元方法,对1561铝合金随焊激冷焊接的方法进行了模拟,分析不同长度和宽度的矩形冷源对随焊激冷控制残余应力的影响,从而对干冰喷嘴出口形状设计进行指导,以优化随焊激冷控制焊接应力与变形的效果.结果表明,最佳矩形冷源的长宽为40 mm×25 mm,板中心纵向残余拉应力由162 MPa降低为零,板两端纵向残余压应力由常规焊接的59.3 MPa减小到20.4 MPa,减小大约65.6%. 相似文献
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In order to control welding stress and distortion, a new welding with trailing peening method based on the electromagnetic hammer was developed. This method uses the idea of constant frequency pulse width modulation for designing the control circuit of peening force and peening frequency. The peening force can be adjusted between 0 and 1 000 N and the peening frequency ranges from 0 to 25 Hz. Peening force is applied to the weld metal and the weld toe during the welding by peening head. The experiments show that the method is portable and flexible, and it can adjust the distribution state of welding residual stress, making grain refinement. When the peening force is changed to 700 N and the peening frequency to 3 Hz, both the transverse and longitudinal residual stresses will drop obviously. 相似文献