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The International Journal of Advanced Manufacturing Technology

Erschienen in:

24.04.2021 | ORIGINAL ARTICLE

Ultrasonic vibration–assisted incremental sheet metal forming

verfasst von: Liangchi Zhang, Chuhan Wu, Hossein Sedaghat

Erschienen in: The International Journal of Advanced Manufacturing Technology | Ausgabe 11-12/2021

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Abstract

This paper presents a comprehensive investigation on the incremental sheet metal forming assisted by ultrasonic vibration (UV). With the aid of a new acoustoplasticity constitutive model which can accurately capture the deformation response to ultra-high strain rates, extensive numerical analyses on incremental sheet metal forming under UV were conducted by using the finite element method. Corresponding experimental investigations were also carried out to examine the capacity of the constitutive and numerical models. The effects of critical parameters, such as tool size, tool revolution speed, feed rate, pitch and tool vibration amplitude, on the forming force, maximum sheet thickness reduction and springback, were investigated in detail. It was found that the models can realistically predict the incremental sheet metal forming under UV. It is expected that this research can facilitate the development of ultrasonic vibration–assisted forming techniques.

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Ambrogio G, De Napoli L, Filice L, Gagliardi F, Muzzupappa M (2005) Application of incremental forming process for high customised medical product manufacturing. J Mater Process Technol 162:156–162CrossRef

Jackson K, Allwood J, Landert M (2008) Incremental forming of sandwich panels. J Mater Process Technol 204:290–303CrossRef

Martins P, Kwiatkowski L, Franzen V, Tekkaya A, Kleiner M (2009) Single point incremental forming of polymers. CIRP Ann 58:229–232CrossRef

Yang Z, Zhu L, Zhang G, Ni C, Lin B (2020) Review of ultrasonic vibration-assisted machining in advanced materials. Int J Mach Tools Manuf 156:103594CrossRef

Edward L (1967) Apparatus and process for incremental dieless forming. Google Patents

Matsubara S (1994) Incremental backward bulge forming of a sheet metal with a hemispherical head tool-a study of a numerical control forming system II. J Jpn Soc Technol Plast 35:1311–1316

Kim Y, Park J (2002) Effect of process parameters on formability in incremental forming of sheet metal. J Mater Process Technol 130:42–46CrossRef

Shim M-S, Park J-J (2001) The formability of aluminum sheet in incremental forming. J Mater Process Technol 113:654–658CrossRef

Behera AK, Lauwers B, Duflou JR (2014) Tool path generation framework for accurate manufacture of complex 3D sheet metal parts using single point incremental forming. Comput Ind 65:563–584CrossRef

10.

Duflou JR, Habraken A-M, Cao J, Malhotra R, Bambach M, Adams D, Vanhove H, Mohammadi A, Jeswiet J (2018) Single point incremental forming: state-of-the-art and prospects. Int J Mater Form 11:743–773CrossRef

11.

Xu W-X, Zhang L-C (2015) Ultrasonic vibration-assisted machining: principle, design and application. Adv Manuf 3:173–192CrossRef

12.

Wu C, Chen S, Cheng K, Ding H, Xiao C (2019) Innovative design and analysis of a longitudinal-torsional transducer with the shared node plane applied for ultrasonic assisted milling. Proc Inst Mech Eng C J Mech Eng Sci 233:4128–4139CrossRef

13.

Sofuoğlu MA, Çakır FH, Gürgen S, Orak S, Kuşhan MC (2018) Experimental investigation of machining characteristics and chatter stability for Hastelloy-X with ultrasonic and hot turning. Int J Adv Manuf Technol 95:83–97CrossRef

14.

Sofuoğlu MA, Çakır FH, Kuşhan MC, Orak S (2019) Optimization of different non-traditional turning processes using soft computing methods. Soft Comput 23:5213–5231CrossRef

15.

Gürgen S, Çakır FH, Sofuoğlu MA, Orak S, Kuşhan MC, Li H (2019) Multi-criteria decision-making analysis of different non-traditional machining operations of Ti6Al4V. Soft Comput 23:5259–5272CrossRef

16.

Zheng L, Chen W, Huo D (2019) Experimental investigation on burr formation in vibration-assisted micro-milling of Ti-6Al-4V. Proc Inst Mech Eng C J Mech Eng Sci 233:4112–4119CrossRef

17.

Xu W, Zhang L, Wu Y (2014) Elliptic vibration-assisted cutting of fibre-reinforced polymer composites: understanding the material removal mechanisms. Compos Sci Technol 92:103–111CrossRef

18.

Xu W, Zhang L (2016) Mechanics of fibre deformation and fracture in vibration-assisted cutting of unidirectional fibre-reinforced polymer composites. Int J Mach Tools Manuf 103:40–52CrossRef

19.

Xu W, Zhang L, Wu Y (2016) Effect of tool vibration on chip formation and cutting forces in the machining of fiber-reinforced polymer composites. Mach Sci Technol 20:312–329CrossRef

20.

Kumabe J, Fuchizawa K, Soutome T, Nishimoto Y (1989) Ultrasonic superposition vibration cutting of ceramics. Precis Eng 11:71–77CrossRef

21.

Blaha F, Langenecker B (1955) Elongation of zinc monocrystals under ultrasonic action. Die Naturwissenschaften 42:556CrossRef

22.

Huang Y, Wu Y, Huang J (2014) The influence of ultrasonic vibration-assisted micro-deep drawing process. Int J Adv Manuf Technol 71:1455–1461CrossRef

23.

Wang C, Liu Y, Guo B, Shan D, Zhang B (2016) Acoustic softening and stress superposition in ultrasonic vibration assisted uniaxial tension of copper foil: experiments and modeling. Mater Des 112:246–253CrossRef

24.

Yao Z, Kim G-Y, Faidley L, Zou Q, Mei D, Chen Z (2012) Effects of superimposed high-frequency vibration on deformation of aluminum in micro/meso-scale upsetting. J Mater Process Technol 212:640–646CrossRef

25.

Amini S, Gollo AH, Paktinat H (2017) An investigation of conventional and ultrasonic-assisted incremental forming of annealed AA1050 sheet. Int J Adv Manuf Technol 90:1569–1578CrossRef

26.

Sedaghat H, Xu W, Zhang L (2019) Ultrasonic vibration-assisted metal forming: constitutive modelling of acoustoplasticity and applications. J Mater Process Technol 265:122–129CrossRef

27.

Cheng R, Wiley N, Short M, Liu X, Taub A (2019) Applying ultrasonic vibration during single-point and two-point incremental sheet forming. Procedia Manuf 34:186–192CrossRef

28.

Vahdati M, Mahdavinejad R, Amini S (2017) Investigation of the ultrasonic vibration effect in incremental sheet metal forming process. Proc Inst Mech Eng B J Eng Manuf 231:971–982CrossRef

29.

Li Y, Zhai W, Wang Z, Li X, Sun L, Li J, Zhao G (2020) Investigation on the material flow and deformation behavior during ultrasonic-assisted incremental forming of straight grooves. J Mater Res Technol 9:433–454CrossRef

30.

Li Y, Chen X, Sun J, Li J, Zhao G (2017) Effects of ultrasonic vibration on deformation mechanism of incremental point-forming process. Procedia Eng 207:777–782CrossRef

31.

Johnson GR, Cook WH (1983) A constitutive model and data for metals subjected to large strains, high strain rates and high temperatures. Proceedings of the 7th International Symposium on Ballistics: The Hague, The Netherlands, p 541-547

32.

Zerilli FJ, Armstrong RW (1987) Dislocation-mechanics-based constitutive relations for material dynamics calculations. J Appl Phys 61:1816–1825CrossRef

33.

Sedaghat H, Xu W, Zhang L, Liu W (2019) On the constitutive models for ultra-high strain rate deformation of metals. Int J Automot Technol 20:31–37CrossRef

34.

Khan AS, Huang S (1992) Experimental and theoretical study of mechanical behavior of 1100 aluminum in the strain rate range 10−5−104s−1. Int J Plast 8:397–424CrossRef

35.

Gao C, Zhang L (2010) A constitutive model for dynamic plasticity of FCC metals. Mater Sci Eng A 527:3138–3143CrossRef

36.

Gao C, Zhang L, Yan H (2011) A new constitutive model for HCP metals. Mater Sci Eng A 528:4445–4452CrossRef

37.

Gao C, Zhang L (2012) Constitutive modelling of plasticity of fcc metals under extremely high strain rates. Int J Plast 32:121–133CrossRef

38.

Sedaghat H (2018) Ultrasonic vibration-assisted incremental forming (Doctoral dissertation): the University of New South Wales Sydney Australia

39.

Nimbalkar D, Nandedkar V (2013) Review of incremental forming of sheet metal components. Int J Eng Res Appl 3:39–51

40.

Jeswiet J, Micari F, Hirt G, Bramley A, Duflou J, Allwood J (2005) Asymmetric single point incremental forming of sheet metal. CIRP Ann 54:88–114CrossRef

41.

Centeno G, Bagudanch I, Martínez-Donaire AJ, Garcia-Romeu ML, Vallellano C (2014) Critical analysis of necking and fracture limit strains and forming forces in single-point incremental forming. Mater Des 63:20–29CrossRef

42.

Bagudanch I, Centeno G, Vallellano C, Garcia-Romeu M (2013) Forming force in single point incremental forming under different bending conditions. Procedia Eng 63:354–360CrossRef

43.

Hamilton K, Jeswiet J (2010) Single point incremental forming at high feed rates and rotational speeds: surface and structural consequences. CIRP Ann 59:311–314CrossRef

44.

Jeswiet J (2005) Asymmetric incremental sheet forming. Adv Mater Re Trans Tech Publ 6:35–58

45.

Fei H, Mo J-H, Qi H-W, Long R-F, Cui X-H, Li Z-W (2013) Springback prediction for incremental sheet forming based on FEM-PSONN technology. Trans Nonferrous Metals Soc China 23:1061–1071CrossRef

46.

Hussain G, Lin G, Hayat N (2011) Improving profile accuracy in SPIF process through statistical optimization of forming parameters. J Mech Sci Technol 25:177–182CrossRef

Titel: Ultrasonic vibration–assisted incremental sheet metal forming
verfasst von: Liangchi Zhang
Chuhan Wu
Hossein Sedaghat
Publikationsdatum: 24.04.2021
Verlag: Springer London
Erschienen in: The International Journal of Advanced Manufacturing Technology / Ausgabe 11-12/2021
Print ISSN: 0268-3768
Elektronische ISSN: 1433-3015
DOI: https://doi.org/10.1007/s00170-021-07068-5

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