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Advances in Manufacturing

Erschienen in:

24.01.2021

Modal parameter determination and chatter prediction for blade whirling: a comparative study based on symmetric and asymmetric FRF

verfasst von: Lu-Yi Han, Ri-Liang Liu, Xin-Feng Liu

Erschienen in: Advances in Manufacturing | Ausgabe 1/2021

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Abstract

Whirling has been adopted for the cost-effective machining of blade-shape components in addition to traditional end milling and flank milling processes. To satisfy the requirements of rotary forming in the blade whirling process, the workpiece must be clamped at both ends in suspension and rotated slowly during machining, which complicates the dynamics. This study aims to identify the dynamic characteristics within the blade whirling operation and present strategies for stability prediction. In this study, the dynamic characteristics of a whirling system are modeled by assuming symmetric and asymmetric parameters. Theoretical prediction frequency response function (FRF) results are compared with experimental results. Moreover, semi-discretization stability lobe diagrams (SLDs) obtained using the dynamic parameters of these models are investigated experimentally. The results show that the asymmetric model is more suitable for describing the whirling system, whereas the symmetric model presents limitations associated with the frequency range and location of measuring points. Finally, a set of airfoil propeller blade whirling operations is conducted to verify the prediction accuracy.

Vorheriger Artikel Investigation into keyhole-weld pool dynamic behaviors based on HDR vision sensing of real-time K-TIG welding process through a steel/glass sandwich

Nächster Artikel Effect of ultrasonic impact treatment on the surface integrity of nickel alloy 718

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Altintas Y, Tuysuz O, Habibi M et al (2018) Virtual compensation of deflection errors in ball end milling of flexible blades. CIRP Ann 67:365–368CrossRef

Boulila A, Boujelbene M, Fekiri C et al (2019) Optimization of manufacturing complex-shaped gas turbine blades. Measurement 135:768–781CrossRef

Li ZL, Zhu LM (2019) Compensation of deformation errors in five-axis flank milling of thin-walled parts via tool path optimization. Precis Eng 55:77–87CrossRef

Zhao ZC, Fu YC, Liu X et al (2017) Measurement-based geometric reconstruction for milling turbine blade using free-form deformation. Measurement 101:19–27CrossRef

Vessaz C, Tournier C, Munch C et al (2013) Design optimization of a 2D blade by means of milling tool path. CIRP J Manuf Sci Technol 6(3):157–166CrossRef

Serizawa M, Matsumura T (2016) Control of helical blade machining in whirling. Proc Manuf 5:417–426

Yi J, Wang XB, Jiao L et al (2019) Research on deformation law and mechanism for milling micro thin wall with mixed boundaries of titanium alloy in mesoscale. Thin-Walled Struct 144:106329CrossRef

Yang Y, Zhang WH, Ma YC et al (2016) Chatter prediction for the peripheral milling of thin-walled workpieces with curved surfaces. Int J Mach Tools Manuf 109:36–48CrossRef

Wang XJ, Song QH, Liu ZQ (2021) Dynamic model and stability prediction of thin-walled component milling with multi-modes coupling effect. J Mater Process Technol 288:116869CrossRef

10.

Ren S, Long XH, Meng G (2018) Dynamics and stability of milling thin walled pocket structure. J Sound Vib 429:325–347CrossRef

11.

Zhang Z, Li HG, Liu XB et al (2018) Chatter mitigation for the milling of thin-walled workpiece. Int J Mech Sci 138–139:262–271CrossRef

12.

Dun YC, Zhu LD, Wang SH (2020) Multi-modal method for chatter stability prediction and control in milling of thin-walled workpiece. Appl Math Model 80:602–624MathSciNetCrossRef

13.

Nam S, Hayasaka T, Jung H et al (2020) Proposal of novel chatter stability indices of spindle speed variation based on its chatter growth characteristics. Precis Eng 62:121–133CrossRef

14.

Koenigsberger F, Tlusty J (1967) Machine tool structure–vol. I: stability against chatter. Pergamon Press, Oxford

15.

Tobias SA, Fishwick W (1958) Theory of regenerative machine tool chatter. Engineer 205(199–203):238–239

16.

Balachandran B, Zhao MX (2000) A mechanics based model for study of dynamics of milling operations. Meccanica 35(2):89–109CrossRef

17.

Balachandran B, Gilsinn D (2005) Nonlinear oscillations of milling. Math Comput Model Dyn Syst 11:273–290CrossRef

18.

Balachandran B, Kalmár-Nagy T, Gilsinn D (2009) Delay differential equations: recent advances and new directions. Springer, New YorkMATH

19.

Altintas Y, Stepan G, Merdol D et al (2008) Chatter stability of milling in frequency and discrete time domain. CIRP J Manuf Sci Technol 1:35–44CrossRef

20.

Insperger T, Stépán G (2004) Updated semi-discretization method for periodic delay-differential equations with discrete delay. Int J Numer Methods Eng 61:117–141MathSciNetCrossRef

21.

Yue CX, Gao HN, Liu XL et al (2019) A review of chatter vibration research in milling. Chin J Aeronaut 32(2):215–242CrossRef

22.

Yang WA, Huang C, Cai XL et al (2020) Effective and fast prediction of milling stability using a precise integration-based third-order full-discretization method. Int J Adv Manuf Technol 106:4477–4498CrossRef

23.

Insperger T, Stépán G (2011) Semi-discretization for time-delayed systems: stability and engineering application. Springer, BerlinCrossRef

24.

Grossi N, Sallese L, Montevecchi F et al (2016) Speed-varying machine tool dynamics identification through chatter detection and receptance coupling. Proc CIRP 55:77–82CrossRef

25.

Özşahin O, Özgüven HN, Budak E (2010) Analysis and compensation of mass loading effect of accelerometers on tool point FRF measurements for chatter stability predictions. Int J Mach Tools Manuf 50:585–589CrossRef

26.

Budak E, Tunç LT, Alan S et al (2012) Prediction of workpiece dynamics and its effects on chatter stability in milling. CIRP Ann Manuf Technol 61:339–342CrossRef

27.

Sultan C (2010) Proportional damping approximation using the energy gain and simultaneous perturbation stochastic approximation. Mech Syst Signal Process 24:2210–2224CrossRef

28.

Hajdu D, Insperger T, Stepan G (2015) The effect of non-symmemetric FRF on machining: a case study. V006T10A062

29.

Reith MJ, Stepan G (2017) Effect of non-proportional damping on the dynamics and stability of multi-cutter turning systems. Int J Mach Tools Manuf 117:23–30CrossRef

30.

Kerschen G, Worden K, Vakakis AF et al (2006) Past, present and future of nonlinear system identification in structural dynamics. Mech Syst Signal Process 20(3):505–592CrossRef

31.

Ewins DJ (2000) Modal testing: theory, practice and application, 2nd edn. Research Studies Press, Baldock

32.

Han LY, Liu RL, Liu XF et al (2020) Theoretical modeling and chatter prediction for the whirling process of airfoil blades with consideration of asymmetric FRF and material removal. Int J Adv Manuf Technol 106:2613–2628CrossRef

33.

Zhao ZC, Xu JH, Fu YC et al (2017) An investigation on adaptively machining the leading and tailing edges of an SPF/DB titanium hollow blade using free-form deformation. Chin J Aeronaut 31(1):178–186CrossRef

34.

Huang T, Zhang XM, Ding H (2017) Tool orientation optimization for reduction of vibration and deformation in ball-end milling of thin-walled impeller blades. Procedia CIRP 58:210–215CrossRef

35.

Totis G, Insperger T, Sortino M et al (2019) Symmetry breaking in milling dynamics. Int J Mach Tools Manuf 139:37–59CrossRef

Titel: Modal parameter determination and chatter prediction for blade whirling: a comparative study based on symmetric and asymmetric FRF
verfasst von: Lu-Yi Han
Ri-Liang Liu
Xin-Feng Liu
Publikationsdatum: 24.01.2021
Verlag: Shanghai University
Erschienen in: Advances in Manufacturing / Ausgabe 1/2021
Print ISSN: 2095-3127
Elektronische ISSN: 2195-3597
DOI: https://doi.org/10.1007/s40436-020-00337-8

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