Further assessment of the plastic instability of thin-walled tubes in double-sided hydro-bulging process with verification experiments

Cui, Xiao-Lei; Wang, Xiaosong; Shi, Yuan

doi:10.1177/0954405417738285

Cited by 4 publications

(5 citation statements)

References 24 publications

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“…[13]. Double-sided tube hydroforming-bulging was proposed by Xiao-Lei Cui to provide a beneficial three-dimensional stress state in the deformation zone of the tube, so as to delay the occurrence of bursting on the tube [16]. All the above proposed methods help in improving experimental design and setup of die and tooling.…”

Section: Related Workmentioning

confidence: 99%

Experimental Study of Hydroformed Al6061T4 Elliptical Tube Samples under Different Internal Pressures

Meraz

Kumar

Singh

2022

EMITTER Int'l J. of Engin. Technol.

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In order to achieve crack free elliptical shape under controlled conditions, an experimental set-up was designed and fabricated. This setup consists of three hydraulic cylinders, an intensifier, a hydraulic power pack, storage tanks, forming die, and all parts are controlled by a Programmable Logic Controller (PLC) system. The elliptical samples can be achieved through proper control of internal pressure and axial force with proper sealing. Experimental work has been carried out with different magnitudes of internal pressure and constrained conditions of axial force. Initially die of elliptical shape has been designed and modeled in Abaqus to successfully achieve the particular shape of the Al6061T4 tube under different internal pressure. The fabricated tube hydroforming machine set-up is highly effective for forming 0.5 mm-2 mm thick Al6061T4 alloy tube samples. The Experimental test has been carried out at 12.7 mm outer diameter, 175 mm length and 0.5 mm thick Al6061T4 samples. Bulge height parameters measured at different points of regular distance gap on the axial direction of the tube length and corner radius found at different pressures range of the samples are plotted under different internal pressures. Samples having an 18.7 mm major elliptical bulge were achieved during the experiment. The experimental data was validated by simulation results.

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Section: Related Workmentioning

confidence: 99%

Experimental Study of Hydroformed Al6061T4 Elliptical Tube Samples under Different Internal Pressures

Meraz

Kumar

Singh

2022

EMITTER Int'l J. of Engin. Technol.

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“…3 However, the pressure of hydroforming can only be uniformly distributed on the sheet, and the viscous media needs to cleaning after forming process. 4–7 , and it is difficult to ensure the reliability of forming method by controlling blank holder force. 8…”

Section: Introductionmentioning

confidence: 99%

“…3 However, the pressure of hydroforming can only be uniformly distributed on the sheet, and the viscous media needs to cleaning after forming process. [4][5][6][7] , and it is difficult to ensure the reliability of forming method by controlling blank holder force. 8 In recent years, MR fluid has become a bridge to connect the energy field and soft die forming technology because of the special physical property.…”

Section: Introductionmentioning

confidence: 99%

A novel process of sheet metal inverse bulging pre-deformation for deep drawing forming using magnetorheological fluid as flexible media

et al. 2021

Proceedings of the Institution of Mechanical Engineers, Part B:

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At the Magnetic field condition, the surface quality of formed parts can be improved significantly. To investigate the technical advantages of Magnetorheological (MR) fluid as a soft media, eliminate the defects of the parts because of the complex deformation, such as wrinkling, cracking, and over thinning. A new method of sheet deep drawing forming with MR fluid through inverse bulging pre-forming was proposed, which has made the wall thickness distribution more uniform and changed the stress distribution of sheet by changing the rheological property of MR fluid. The theoretical pressure transfer model of MR fluid as media and the configuration model of inverse bulging pre-forming are established. It can be concluded that the relationship between bulge height and load time have been shown consistency compared with experimental results and agree well with the theoretical analysis. And the configuration model have shown good agreement from the experiments results and the numerical results espectively with theoretical results. The uniformity of the wall thickness and the surface quality of the deep-drawn parts are improved significantly with the increase of the inverse bulging height. When the inverse bulging height is about 9 mm, the pre-forming effect is optimal, which provides theoretical guidance and is of much potential to the forming of the and thin-walled complex parts in industry fields.

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“…7 Hydroforming method was originally invented to form aluminum tubes but, its usage was rapidly developed for other materials such as steel, 8 copper, 9 magnesium 10 and titanium. 11 Also, the tube hydroforming process is applicable to isotropic 12 and anisotropic 13,14 materials. It is interesting to know that the tube hydroforming method can be used for very small tubes.…”

Section: Introductionmentioning

confidence: 99%

A comprehensive damage criterion in tube hydroforming

Pourhamid

Shirazi

2020

Proceedings of the Institution of Mechanical Engineers, Part B:

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In the present study, the Johnson-Cook damage model is proposed as a comprehensive damage criterion to predict all types of probable failures in tube hydroforming process. Also, the Johnson-Cook material model is used to predict the profile of hydroformed tubes and their dimensions. The validity of numerical results was verified using experimental results obtained in this study. Moreover, because of the importance of friction force in this process, existing between the tube and die, the friction coefficient is determined using the ring compression test, separately. The comparison of experimental and numerical results shows that Johnson-Cook damage model can predict all of the possible failures in tube hydroforming process correctly, both in terms of location and loading conditions. And this model does not predict any failure if, the tube is hydroformed perfectly. Additionally, it was cleared that the Johnson-Cook material model is a proper model to predict the profile of hydroformed tubes with remarkable accuracy. Also, it was found that the loading path and creation of a proper wrinkling have a determinative and vital role in the prosperity of the process.

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Further assessment of the plastic instability of thin-walled tubes in double-sided hydro-bulging process with verification experiments

Cited by 4 publications

References 24 publications

Experimental Study of Hydroformed Al6061T4 Elliptical Tube Samples under Different Internal Pressures

Experimental Study of Hydroformed Al6061T4 Elliptical Tube Samples under Different Internal Pressures

A novel process of sheet metal inverse bulging pre-deformation for deep drawing forming using magnetorheological fluid as flexible media

A comprehensive damage criterion in tube hydroforming

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