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Do you feel what I feel? Emotional development in children with ID is a study that has emerged as a need to deepen the knowledge on this area. It has focused in a case study methodology with the use of three validated instruments to a sample of thirty-four children, twenty attending the 1st cycle and fourteen attending the 2nd, in two school groupings of Castelo Branco city. Seventeen of them have mild intellectual disability and seventeen are “normal”, aged between 8 and 14. The research has been developed in order to give answers to questions related with the way that children with intellectual disability (ID) express, identify and regulate their emotions. The results suggest that children with intellectual disability identify emotions, in a general way, the same way that “normal” children do, nevertheless, there are some difficulties in the understanding and organization of coping strategies.

In this article, a three-dimensional finite element model (FEM) is used to predict the crack growth at the weld toe of a pre-fatigued T-joint that was repaired with a remelting technique. The numerical models were developed using the MSC.Marc software. Fatigue life is estimated by integrating the Paris-Erdogan law. The stress intensity factors are obtained by the virtual crack closure technique (VCCT). The T-welded joints, made of S355 steel, are obtained by covered electrode process and pre-cracked by fatigue. These welded joints were repaired by TIG dressing. The stress field generated by this dressing technique was estimated using a FEM model, presented in authors’ previous works. For the crack growth was used the VCCT three-dimensional model recently presented by the authors to predict the effect of overloads. The pre-existence of an elliptical crack at the weld toe, with a depth of 0.5 mm was considered. It is also studied the growth of pre-existing cracks which have been poorly repaired. It was observed that the TIG dressing produce residual compression stress fields on the weld toe that causes a delay in crack growth. The obtained results are compared with experimental ones. The fatigue’s lives obtained by simulations with the numerical model presented in this paper allows to evaluate the application conditions of TIG remelting technique in the repair of pre-cracked welded joints.