Wim Verlinde scite author profile

Wim Verlinde

2Publications

4Citation Statements Received

79Citation Statements Given

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Belgian Welding Institute

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Digital Image Correlation for Measuring Full-Field Residual Stresses in Wire and Arc Additive Manufactured Components

et al. 2023

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This study aims to demonstrate the capability of the digital image correlation (DIC) technique for evaluating full-field residual stresses in wire and arc-additive-manufactured (WAAM) components. Investigations were carried out on WAAM steel parts (wall deposited on a substrate) with two different wall heights: 24 mm and 48 mm. Mild steel solid wire AWS ER70S-6 was used to print WAAM walls on substrates that were rigidly clamped to H-profiles. DIC was used to monitor the bending deformation of WAAM parts during unclamping from the H-profiles, and residual stresses were calculated from the strain field captured during unclamping. Residual stresses determined from the proposed DIC-based method were verified with an analytical model and validated by the results from established residual stress measurement techniques, i.e., the contour method and X-ray diffraction.

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A benchmark of mechanical properties and operational parameters of different steel filler metals for wire arc additive manufacturing

Silva

Vandermeiren

Verlinde

et al. 2023

Int J Adv Manuf Technol

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Additive manufacturing processes play a disruptive role in several industrial sectors. Among them, Wire Arc Additive Manufacturing (WAAM) is a very promising process for the production of large-scale steel components and structures. As a common characteristic of innovative technologies, this process requires additional research and experimental work in order to understand how its thermal cycles will modify the mechanical and metallurgical properties of the manufactured components. Considering the lack of literature on the properties of WAAM components from specific steel alloys, the present work proposes a benchmark evaluation of five different steel filler metals based on their mechanical properties and operational parameters when applied for additive manufacturing. The mechanical properties, such as the tensile strength, yield strength, elongation, Charpy impact toughness and hardness were evaluated together with operational parameters such as cost, printability, spatter and fume formation during manufacturing, defect-free printing and heat input. These were analysed in order to obtain a full evaluation and comparison of the five filler metals. The experimentally determined results of every abovementioned aspect were higher or similar to the values found in the literature for generic steel filler metals used in additive manufacturing. This means that a designer or welding engineer can select the WAAM steel filler metal for further testing based on the welding wire datasheet. Besides that, a comparison was performed between blocks manufactured by WAAM with some frequently used base metals, in plate format, confirming its applicability.

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Wim Verlinde

Digital Image Correlation for Measuring Full-Field Residual Stresses in Wire and Arc Additive Manufactured Components

A benchmark of mechanical properties and operational parameters of different steel filler metals for wire arc additive manufacturing

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