Zu Seong Park scite author profile

Zu Seong Park

5Publications

8Citation Statements Received

111Citation Statements Given

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186

111

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Forced Circulation of Nitrogen Gas for Accelerated and Eco-Friendly Cooling of Metallic Parts

Park¹,

Kim

Woo

et al. 2019

Applied Sciences

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As nitrogen is nonreactive and non-flammable, it can provide a quick and simple medium of cooling and environment protection. One disadvantage of nitrogen cooling is its lower heat transfer coefficient than water. Despite its lower cooling capacity, nitrogen cooling can produce cleaner products, thereby eliminating the need to wash the parts and dispose of the contaminated water. In this study, an innovative nitrogen cooling system was developed for an accelerated and eco-friendly cooling of metallic parts. The dry nitrogen gas, transported via the nozzle of a cryogenic liquid nitrogen tank, is passed into the cooling chamber and exchanges heat with the workpiece. The heated nitrogen gas is forcibly transported to the chiller, where the heat is reduced, and the cooled gas is circulated again. The performance of this nitrogen cooling system has been evaluated with cooling experiments of sintered tungsten heavy alloys. The nitrogen-cooled product shows a clean surface with improved mechanical properties. Furthermore, nitrogen induces less distortion compared to water cooling, thus reducing the post-machining costs.

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Die-less manufacturing of tube by diffusion bonding of unit rods made of tungsten heavy alloy

Park¹,

Tyne

Kim

et al. 2019

Int J Adv Manuf Technol

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System Development for Diffusion Bonding of Multiple Unit Tubes to Produce Long Tubular Tungsten Heavy Alloys

Park¹,

Woo

Han

et al. 2020

Applied Sciences

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A diffusion bonding system to fabricate long tubular parts by joining of two- or more-unit tubes made of tungsten heavy alloys (THAs) is proposed and characterized in this study. The difficulty of powder processing of THA originates from the weak strength of the green compact and the high weight of the THA powders. The long tubular green compact is difficult to handle due to its weak structural integrity. Furthermore, gravity-induced slumping during liquid phase sintering induces dimensional distortion and degrades the mechanical performances. As a clue for solving these problems, the unit tubes are fabricated. However, the mass of green compacts for unit tubes is not sufficiently great as to cause problematic slumping; tubular unit tubes can be obtained without significant difficulty. Fabricated unit tubes are stacked in a furnace chamber and diffusion-bonded to produce a long tubular part having bond strength substantially equal to that of a monolithic tube. The proposed diffusion bonding system was well characterized and successfully applied to the industrial production line. The feasibility was also confirmed by investigating the bond quality, which can be assessed by metallographic microstructure and mechanical property.

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Manufacture of Tungsten Heavy Alloy Tube by Diffusion Bonding of Semicircular Tubes

Park¹,

Han

Kim

et al. 2020

J. of Materi Eng and Perform

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Fabrication of long tubular parts made of tungsten-heavy alloys by inductive bonding of multiple tubes

Park¹,

Lee

et al. 2019

International Journal of Refractory Metals and Hard Materials

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Zu Seong Park

Forced Circulation of Nitrogen Gas for Accelerated and Eco-Friendly Cooling of Metallic Parts

Die-less manufacturing of tube by diffusion bonding of unit rods made of tungsten heavy alloy

System Development for Diffusion Bonding of Multiple Unit Tubes to Produce Long Tubular Tungsten Heavy Alloys

Manufacture of Tungsten Heavy Alloy Tube by Diffusion Bonding of Semicircular Tubes

Fabrication of long tubular parts made of tungsten-heavy alloys by inductive bonding of multiple tubes

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