Miniaturized tube fixed plug drawing: Determination of the friction coefficients and drawing limit of 316 LVM stainless steel

In the actual industrial production and manufacturing, tube drawing plays an extremely important role. In this study, a device with adjustable relative plug position is designed, the influence of relative plug position on the dimensional accuracy and the drawing force of drawn tube was investigated. The results show that different relative plug positions affect the inner and outer surface dimensions of the tube respectively. Therefore, the relative plug position can be distinguished according to the following rules in industrial production. When the position of the plug relative to the die is backward, the outer surface dimension of the drawn tube is qualified but the inner surface dimension is unqualified. When the position of the plug relative to the die is forward, the inner surface dimension of the drawn tube is qualified but the outer surface dimension is unqualified. The relative position of the plug is mainly due to the different radial force given to the tube by the plug and the die, resulting in the unqualified size of the drawn tube. When the plug is positioned backward relative to the die, the tube is subjected to the radial force of the plug first and then the radial force of the die. When the plug is positioned forward relative to the die, the tube is subjected to the radial force of the die first and then the radial force of the plug.

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“…The modified Johnson-Cook equation is used to describe its deformation behavior, as follows (equation ( 1)) [8][9][10]:…”

Section: Finite Element Simulationmentioning

confidence: 99%

Relative Position of Plug and Die on Forming Accuracy of Shaped Tube by Cold Drawing

Liu

Feng

et al. 2023

J. Phys.: Conf. Ser.

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show abstract

“…The relative thickness influences the mechanical performance of the tube during the drawing process. (Chobaut et al, 2019), experimental and finite element analysis were followed to investigate the drawing process extensively. The friction coefficient between the die and the specimen was estimated by the finite element model and experiment.…”

Section: Introductionmentioning

confidence: 99%

Analytical and Numerical Study of Tube Drawing Through a Conical Die

kadhim¹,

Aljassani²

2021

KJE

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Effect of cold process drawing parameters on the formability and microstructure of ribbed cladding tubes

Liu,

Yang,

et al. 2024

Int J Adv Manuf Technol

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Miniaturized tube fixed plug drawing: Determination of the friction coefficients and drawing limit of 316 LVM stainless steel

Cited by 13 publications

References 25 publications

Relative Position of Plug and Die on Forming Accuracy of Shaped Tube by Cold Drawing

Relative Position of Plug and Die on Forming Accuracy of Shaped Tube by Cold Drawing

Analytical and Numerical Study of Tube Drawing Through a Conical Die

Effect of cold process drawing parameters on the formability and microstructure of ribbed cladding tubes

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