Optimization of the gas flow system in a selective laser melting chamber using numerical methods

Zhou, Zirong; Li, Yongxing; Chen, Xiaoxuan; Shang, Xin; Gou, Kunzheng; Pang, Lijuan

doi:10.1177/16878132231221554

Advances in Mechanical Engineering

2024

DOI: 10.1177/16878132231221554

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Optimization of the gas flow system in a selective laser melting chamber using numerical methods

Zirong Zhou,

Yongxing Li,

Xiaoxuan Chen

et al.

Abstract: A well-designed flow field is a key factor to improve the surface quality of products by removing spatter, which is often generated during the selective laser melting (SLM) process. In the present study, three typical schemes are developed for the gas flow system of large-scale SLM equipment. In this regard, the flow deviation and velocity increase indices are implemented to characterize the flow uniformity in the chamber and gas flow velocity in the clearing area. The obtained results show that the inlet size… Show more

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Cited by 3 publications

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Spatter transport in a laser powder-bed fusion build chamber

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Alneif,

Salah

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Additive Manufacturing

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Spatter transport in a laser powder-bed fusion build chamber

Aremu,

Alneif,

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et al. 2024

Additive Manufacturing

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Spatter-flow interaction behavior under protective gas flow parameters and scanning directions

Liu,

Shi,

Wang

et al. 2024

Materials Today Communications

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Modeling and Simulation of the Effect of Airbag Thickness on the Performance of Extended Handle Pneumatic Floor Jack

Aliy,

Nallamothu,

Nasir

2024

Modelling and Simulation in Engineering

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In the process of changing tires, drivers require a suitable lifting device, namely, a jack, that can be inserted into a designated slot strategically positioned beneath the vehicle. Similarly, in workshops and maintenance facilities, jacks are essential for part replacements and maintenance. This research focuses on the design and analysis of extended handle pneumatic floor jacks specifically tailored for light-duty vehicles. The aim is to enhance effectiveness by enabling the repair of multiple vehicles simultaneously using a single compressor. The study utilizes ANSYS 2022R1 to assess the structural weaknesses of pneumatic airbags, aiming to explore technological advancements and develop an optimal airbag design capable of lifting light vehicles. Natural rubber is utilized as the airbag material, with thicknesses of 2.5 mm, 2.75 mm, and 3 mm. The study investigates three different airbag behaviors: von Mises stress, strain, and deformation in two directions. A pressure of 8.2 MPa is applied, and a weight of 4000 kg is imposed. The results indicate that the 2.5 mm and 2.75 mm thicknesses are unable to sustain the load and pressure, with the weakest area identified between the natural rubber and the metal cast iron that contacts the car’s body. Overall, the research achieved its objectives, and the findings will be effectively applied to model the extended handle pneumatic floor jack, facilitating tire lifting for maintenance and tire changes.

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Optimization of the gas flow system in a selective laser melting chamber using numerical methods

Cited by 3 publications

References 31 publications

Spatter transport in a laser powder-bed fusion build chamber

Spatter transport in a laser powder-bed fusion build chamber

Spatter-flow interaction behavior under protective gas flow parameters and scanning directions

Modeling and Simulation of the Effect of Airbag Thickness on the Performance of Extended Handle Pneumatic Floor Jack

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