In this work, the residual stress distribution induced by the solidification and cooling of a fusion zone in the vicinity of a sharpV-notch tip is investigated. The intensity of the residual asymptotic stress fields, quantified by the notch stress intensity factors, was studied for two different V-notch specimen geometries under generalized plane-strain conditions. In order to analyze the influence of phase transformations on the obtained results, simulations with and without the effects of phase transformation were carried out on ASTM SA 516 steel plates. Thanks to the possibilities of numerical modelling, additional analyses were performed without taking into account the transformation plasticity phenomenon. It was found that phase transformation effects (both volume change and transformation plasticity) have a great influence on the intensity and sign of the asymptotic stress fields at the sharp V-notch tips. This result is believed to be very important for the correct numerical determination (and future applications) of notch stress intensity factors resulting from asymptotic residual stress distributions induced by transient thermal loads. The analyses were performed with the finite element code SYSWELD. (Some figures may appear in colour only in the online journal).
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机译:在这项工作中,研究了由尖锐的V型缺口尖端附近的熔化区的凝固和冷却引起的残余应力分布。在广义平面应变条件下,针对两种不同的V型缺口试样几何形状,研究了由缺口应力强度因子量化的残余渐近应力场的强度。为了分析相变对所得结果的影响,在ASTM SA 516钢板上进行了有无相变影响的模拟。由于数值建模的可能性,在不考虑转换可塑性现象的情况下进行了其他分析。已经发现,相变效应(体积变化和相变可塑性)对尖锐的V型缺口尖端处渐近应力场的强度和符号都有很大的影响。据信,该结果对于由瞬态热负荷引起的渐近残余应力分布所引起的缺口应力强度因子的正确数值确定(以及未来的应用)非常重要。使用有限元代码SYSWELD进行分析。 (某些数字只能在在线日记中以彩色显示)。
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