Distribution of temperature and residual stresses in GMA-DED based wire-arc additive manufacturing

Srivastava, Shekhar; Garg, Rajiv Kumar; Sachdeva, Anish; Sharma, Vishal S.; Singh, Sehijpal; Gupta, Munish Kumar

doi:10.1108/rpj-01-2023-0032

RPJ

2023

DOI: 10.1108/rpj-01-2023-0032

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Distribution of temperature and residual stresses in GMA-DED based wire-arc additive manufacturing

Shekhar Srivastava

Rajiv Kumar Garg

Anish Sachdeva

et al.

Abstract: Purpose Gas metal arc-based directed energy deposition (GMA-DED) process experiences residual stress (RS) developed due to heat accumulation during successive layer deposition as a significant challenge. To address that, monitoring of transient temperature distribution concerning time is a critical input. Finite element analysis (FEA) is considered a decisive engineering tool in quantifying temperature and RS in all manufacturing processes. However, computational time and prediction accuracy has always been a … Show more

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2024

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Cited by 1 publication

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Novel sensorized additive manufacturing-based enlighted tooling concepts for aeronautical parts

Uralde,

Veiga,

Suarez

et al. 2024

Sci Rep

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This paper presents lightweight tooling concepts based on additive manufacturing, with the aim of developing advanced tooling systems as well as installing sensors for real-time monitoring and control during the anchoring and manufacturing of aeronautical parts. Leveraging additive manufacturing techniques in the production of tooling yields benefits in manufacturing flexibility and material usage. These concepts transform traditional tooling systems into active, intelligent tools, improving the manufacturing process and part quality. Integrated sensors measure variables such as displacement, humidity and temperature allowing data analysis and correlation with process quality variables such as accuracy errors, tolerances achieved and surface finish. In addition to sensor integration, additive manufacturing by directed energy arc and wire deposition (DED-arc) has been selected for part manufacturing. The research includes the mechanical characterisation of the material and the microstructure of the material once manufactured by DED-arc. Design for additive manufacturing" principles guide the design process to effectively exploit the capabilities of DED-arc. These turrets, equipped with sensors, allow real-time monitoring and control of turret deformation during clamping and manufacturing of aeronautical parts. As a first step, deformation monitoring is carried out within the defined tolerance of ± 0.15, which allows a control point to be established in the turret. Future analysis of the sensor data will allow correlations with process quality variables to be established. Remarkably, the optimised version of the turret after applying DED technology weighed only 2.2 kg, significantly lighter than the original 6 kg version. Additive manufacturing and the use of lightweight structures for fixture fabrication, followed by the addition of sensors, provide valuable information and control, improving process efficiency and part quality. This research contributes to the development of intelligent and efficient tool systems for aeronautical applications.

show abstract

Novel sensorized additive manufacturing-based enlighted tooling concepts for aeronautical parts

Uralde,

Veiga,

Suarez

et al. 2024

Sci Rep

View full text Add to dashboard Cite

show abstract

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Distribution of temperature and residual stresses in GMA-DED based wire-arc additive manufacturing

Cited by 1 publication

References 42 publications

Novel sensorized additive manufacturing-based enlighted tooling concepts for aeronautical parts

Novel sensorized additive manufacturing-based enlighted tooling concepts for aeronautical parts

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