G. V. B. Lemos scite author profile

In recent years, interest has been increasing in application of Nickel alloys in the oil industry. For subsea engineering, the possibility to weld high-strength materials in an effective manner is essential. Friction Stir Welding (FSW) is alternative to join several materials retaining their properties or even improving them. This fact is relevant for Corrosion-Resistant Alloys (CRA) used in deep-water exploitation of hydrocarbons. Publications up to now have focused on FSW of Inconel R series as alloy 600, 625, and 718. To provide a solid basis for development, this review discusses the crucial points for FSW. The tool materials are described, as well as the joint microstructure and properties achieved. Furthermore, the basics of the corrosion resistance and the early corrosion studies of FSW joints are presented. It is concluded that FSW is a promising process for Ni alloys, but depends on upcoming research regarding tool technology and corrosion investigations.

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Degradation mechanisms of pcBN tool material during Friction Stir Welding of Ni-base alloy 625

Hanke

Lemos

Bergmann

et al. 2017

Wear

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Towards friction welding to API grade B steel pipes

Buzzatti

Lemos

et al. 2020

Journal of Advanced Joining Processes

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Residual stress and microstructural features of friction-stir-welded GL E36 shipbuilding steel

Lemos

Cunha

Nunes

et al. 2018

Materials Science and Technology

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The purpose of the present study was to fulfil the knowledge gap concerning residual stresses evaluation of friction stir welded GL E36 shipbuilding steel. Plates of 6 mm thickness were welded using two different welding speeds (1 and 3 mm s−1) at a constant rotational speed of 500 rev min−1. This led to different thermal cycles and the objective is to analyse the resulting microstructures and residual stress states. Therefore, in this work, residual stresses were evaluated by X-ray diffraction; metallography and microhardness testing were performed to support these measurements. Results showed that welds produced with different heat inputs have distinguishable residual stress distributions. Increases in the welding speed led to higher residual stress and microhardness in the stir zone.

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G. V. B. Lemos

Progress in friction stir welding of Ni alloys

Degradation mechanisms of pcBN tool material during Friction Stir Welding of Ni-base alloy 625

Towards friction welding to API grade B steel pipes

Residual stress and microstructural features of friction-stir-welded GL E36 shipbuilding steel

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