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International Journal of Material Forming

Erschienen in:

28.01.2019 | Original Research

3D FEM-DEM coupling analysis for granular-media-based thin-wall elbow tube push-bending process

verfasst von: Hai Liu, Shi-Hong Zhang, Hong-Wu Song, Gao-Lian Shi, Ming Cheng

Erschienen in: International Journal of Material Forming | Ausgabe 6/2019

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Abstract

The granular-media-based thin-wall elbow push-bending process involves filling a tube with granular media and pushing the tube into a die to bend a tubular blank into an elbow shape. By means of the mechanical characteristics of granular filler, an elbow tube with t/D < 0.01 (the ratio of wall thickness to outer diameter) and R/D < 1.5 (the ratio of bending radius to outer diameter) can be formed. To investigate the interaction between thin-wall elbow and granular filler, A 3D FEM-DEM coupling numerical model is developed, which takes into account both the deformation behavior of tubular blank (continuum, finite element method FEM) and mechanical characteristics of granular filler (discrete media, discrete element method DEM). By means of the coupling model, the key forming parameters of an elbow tube such as forming force, wall thickness distribution, wrinkling are simulated and compared to experimental results.

Vorheriger Artikel New approach for the optimization of pass-schedules in open-die forging

Nächster Artikel Two-way approach for deformation analysis of non-crimp fabrics in uniaxial bias extension tests based on pure and simple shear assumption

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Yang H, Li H, Zhang ZY et al (2012) Advances and trends on tube bending forming technologies. Chinese. J Aeronaut 25:1–12CrossRef

Hashmi MSJ (2006) Aspects of tube and pipe manufacturing processes: meter to nanometer diameter. J. Mater. Proc. Technol. 179:5–10CrossRef

Yang H, Li H, Zhang ZY et al (2012) Advances and trends on tube bending forming technologies. J Plast Eng 8:83–85

Karbasian H, Tekkaya AE (2010) A review on hot stamping. J Mater Process Technol 210(15):2103–2118CrossRef

Zhang SH, Shen YF, Qiu HJ (2013) The technology and welding joint properties of hybrid laser-tig welding on thick plate. Opt Laser Technol 48:381–388CrossRef

Liu H, Zhang SH, Cheng M et al (2013) DEM simulation of bead packs as fillers in thin-wall tube push bending process. AIP Proceedings 1532:708–713

Teng BG, Hu L, Liu G, Yuan SJ (2012) Wrinkling behavior of hydro bending of carbon steel Al alloy bilayered tubes. Trans Nonferrous Met Soc China 22:560–565CrossRef

Oh IY, Han SW, Woo YY et al (2018) Tubular blank design to fabricate an elbow tube by a push-bending process. J Mater Proc Technol 260:112–122CrossRef

Armstrong, D.E., Dunn, T.J.J., Stulen, W.H., Roeser, G.P., 1961. Cold tube bending and sizing, US2971556A (US Patent)

10.

Zeng Y, Li Z (2002) Experimental research on the tube push-bending process. J. Mater. Proc. Technol. 122:237–240CrossRef

11.

Baudin S, Ray P, Mac Donald BJ, Hashmi MSJ (2004) Development of a novel method of tube bending using finite element simulation. J Mater Process Technol 153:128–133CrossRef

12.

Kahnamouei JT, Behjat B (2010) Modeling and experimental validation of the effect of sand filling on avoiding wrinkling phenomenon in thin-walled tube bending process. In ASME 2010 10th biennial conference on engineering systems design and analysis. Am Soc Mech Eng:799–803

13.

Du B, Zhao CC, Dong GJ et al (2017) FEM-DEM coupling analysis for solid granule medium forming new technology. J Mater Process Technol 249:108–117CrossRef

14.

Chen H, Güner A, Khalifa NB, Tekkaya AE (2016) Granular media-based tube press hardening. J Mater Process Technol 228:145–159CrossRef

15.

Chen H, Hess S, Haeberle J, Pitikaris S, Born P, Güner A, Sperl M, Tekkaya AE (2016) Enhanced granular medium-based tube and hollow profile press hardening. CIRP Ann-Manuf Technol 65(1):273–276CrossRef

16.

Dong GJ, Zhao CC, Peng YX, Li Y (2015) Hot granules medium pressure forming process of AA7075 conical parts. Chin J Mech Eng 28:580–591CrossRef

17.

Dong GJ, Bi J, Du B, Zhao CC (2017) Research on AA6061 tubular components prepared by combined technology of heat treatment and internal high pressure forming. J Mater Process Technol 242:126–138CrossRef

18.

Brauer K, Pfitzner M, Krimer DO, Mayer M, Jiang YM, Liu M (2006) Granular elasticity: stress distributions in silos and under point loads. Phys Rev E 74:061311CrossRef

19.

Kiwing T, Lai PY, Pak HK (2001) Jamming of granular flow in a two-dimensional hopper. Phys Rev Lett 86:71–74CrossRef

20.

Hirshfeld D, Rapaport DC (2001) Granular flow from a silo: discrete-particle simulations in three dimensions. The European Physical Journal E 4:193–199CrossRef

21.

Liu H, Zhang SH, Cheng M et al (2015) A minimum principle for contact forces in random packings of elastic frictionless particles. Granul Matter 17:475–482CrossRef

22.

Cundal PA, Strack ODL (1979) A discrete numerical model for granular assemblies. Geotechnique 29:47–65CrossRef

23.

Nakashima H, Oida A (2004) Algorithm and implementation of soil-tire contact analysis code based on dynamic FE-DE method. J Terrramech 41:127–137CrossRef

24.

Michael M, Vogel F, Peters B (2015) DEM–FEM coupling simulations of the interactions between a tire tread and granular terrain. Comput Methods Appl Mech Eng 289:227–248MathSciNetCrossRef

25.

Taforel P, Renouf M, Dubois F, Voivret JC (2015) Finite element-discrete element coupling strategies for the modelling of ballast-soil interaction. International Journal of Railway Technology 4:73–95CrossRef

26.

Oñate E, Rojek J (2004) Combination of discrete element and finite element methods for dynamic analysis of geomechanics problems. Comput Methods Appl Mech Eng 193:3087–3128CrossRef

27.

Oñate E, Labra C, Zárate F, Rojek J (2012) Modelling and simulation of the effect of blast loading on structures using an adaptive blending of discrete and finite element methods. Risk Analysis, Dam Safety, Dam Security and Critical Infrastructure Management, pp 365–371

28.

Frangin E, Marin P, Daudeville L (2006) Coupled finite/discrete element method to analyze localized impact on reinforced concrete structure. Computational modelling of concrete structures. In: Mechke G, de Borst R, Mang H, Bićanić N (eds) Computational modelling of concrete structures: proceedings of the euro-C 2006 conference. Mayrhofen, Austria, pp 27–30

29.

Haddad H, Guessasma M, Fortin J (2016) A DEM–FEM coupling based approach simulating thermomechanical behaviour of frictional bodies with interface layer. Int J Solids Struct 81:203–218CrossRef

30.

Zheng Z, Zang M, Chen S, Zhao C (2017) An improved 3D DEM-FEM contact detection algorithm for the interaction simulations between particles and structures. Powder Technol 305:308–322CrossRef

Titel: 3D FEM-DEM coupling analysis for granular-media-based thin-wall elbow tube push-bending process
verfasst von: Hai Liu
Shi-Hong Zhang
Hong-Wu Song
Gao-Lian Shi
Ming Cheng
Publikationsdatum: 28.01.2019
Verlag: Springer Paris
Erschienen in: International Journal of Material Forming / Ausgabe 6/2019
Print ISSN: 1960-6206
Elektronische ISSN: 1960-6214
DOI: https://doi.org/10.1007/s12289-019-01473-8

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