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2019 | OriginalPaper | Buchkapitel

Development of Hybrid Forms of Abrasive Flow Machining Process: A Review

verfasst von : Anant Bhardwaj, Parvesh Ali, R. S. Walia, Qasim Murtaza, S. M. Pandey

Erschienen in: Advances in Industrial and Production Engineering

Verlag: Springer Singapore

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Abstract

In the present era, the demand of products with better surface finish and quality has improved drastically which promoted the industries to make their products with better functional performance and sustainability in the market. Due to low productivity of abrasive flow machining (AFM), there is a need to develop an efficient process which will inculcate a better surface finish and good quality. Hence, it is required to identify various hybrids of abrasive flow machining which involve the development of new process having high material removal, optimum surface finish and better type of fixturing during the finishing operation. This paper describes various hybrid forms of abrasive flow machining developed so far for productivity enhancement and involved parameters with their working principle.

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Ali P, Dhull S, Walia RS, Murtaza Q, Tyagi M (2017) Hybrid abrasive flow machining for nano finishing—a review. Mater Today Proc 4:7208–7218CrossRef

Sankar MR, Ramkumar J, Jain VK (2008) Abrasive flow machining (AFM): an overview. In: INDO-US WORKSHOP on smart machine tools, intelligent machining systems and multi-scale manufacturing, Dec 2008

Singh S (2002) Studies in metal finishing with magnetically assisted abrasive flow machining. PhD thesis, IIT Roorkee

Rhoades LJ, Kohut TA, Nokovich NP, Yanda DW (1994) Unidirectional abrasive flow machining. US patent number 5,367,833, 29 Nov 1994

Rhoades LJ, Kohut TA (1991) Reversible unidirectional AFM. US patent number 5,070,652, 10 Dec 1991

Gupta R, Chahal B (2015) Investigation and optimization of process parameters in electrochemical aid abrasive flow machining. Int J Sci Eng Res 6(2), Feb 2015

Tzeng HJ, Yan B-H, Hsu RT, Lin YC (2007) Self-modulating abrasive medium and its application to abrasive flow machining for finishing micro channel surfaces. Int J Adv Manuf Technol 32:1163–1169CrossRef

Tzeng H-J, Yan B-H, Hsu R-T, Lin Y-C (2007) Finishing effect of abrasive flow machining on micro silt fabricated by wired EDM. Int J Adv Manuf Technol 34:649–656CrossRef

Wan S, Ang YJ, Sato T, Lim GC (2014) Process modelling and CFD simulation of two-way abrasive flow machining. Int J Adv Manuf Technol 71:1077–1086CrossRef

10.

Jain RK, Jain VK (2004) Stochastic simulation of active grain density in abrasive flow machining. J Mater Process Technol 152:17–22CrossRef

11.

Gorona VK, Jain VK, Lal GK (2006) Forces prediction during material deformation in abrasive flow machining. Wear 260:128–139CrossRef

12.

Kenda J, Pusavec F, Kermouche G, Kopac J (2011) Surface integrity in abrasive flow machining of hardened tool steel AISI D2. 1st CIRP conference on surface integrity. Procedia Eng 19:172–177

13.

Jain RK, Jain VK, Kalra PK (1999) Modelling of abrasive flow machining process: a neutral network approach. Wear 231:242–248CrossRef

14.

Rhoades LJ (1985) Abrasive flow machining and it use. In: Proceedings of non-traditional machining conference, Cincinnati, OH, pp 111–120

15.

Walia RS, Shan HS, Kumar PK (2008) Determining dynamically active abrasive particles in the media used in centrifugal force assisted abrasive flow machining process. Int J Adv Manuf Technol 38:1157–1164CrossRef

16.

Fang L, Zhao J, Sun K, Zheng D, Ma D (2009) Temperature as sensitive monitor for efficiency of work in abrasive flow machining. Wear 266:678–687CrossRef

17.

Walia RS, Shan HS, Kumar PK (2009) Enhancing AFM process productivity through improved fixturing. Int J Adv Manuf Technol 44:700–709CrossRef

18.

Sushil M, Vinod K, Harmesh K (2015) Experimental investigation and optimization of process parameters of Al/SiC MMCs finished by abrasive flow machining. Mater Manuf Processes 30(7):902–911CrossRef

19.

Mali HS, Manna A (2010) Optimum selection of abrasive flow machining conditions during fine finishing of Al/15 wt% SiC-MMC using Taguchi method. Int J Adv Manuf Technol 50:1013–1024CrossRef

20.

Chen KY, Cheng KC (2014) A study of helical passageways applied to polygon holes in abrasive flow machining. Int J Adv Manuf Technol 74:781–790CrossRef

21.

Marzban MA, Hemmati SJ (2017) Modelling of abrasive flow rotary machining process by artificial neural network. Int J Adv Manuf Technol 89:125–132CrossRef

22.

Mohammadian N, Turenne S, Brailovski V (2018) Surface finish control of additively-manufactured Inconel 625 components using combined chemical-abrasive flow polishing. J Mater Process Technol 252:728–738CrossRef

23.

Venkatesh G, Sharma AK, Kumar P (2015) On ultrasonic assisted abrasive flow finishing of bevel gears. Int J Mach Tools Manuf 89:29–38CrossRef

24.

Uhlmann E (2009) Modelling the AFM process on advanced ceramic materials. J Mater Process Technol 209(20):6062–6066CrossRef

25.

Seifu Y, Kumar SS, Hiremath SS (2016) Modeling and simulation: machining of mild steel using indigenously developed abrasive flow machine. Global colloquium in recent advancement and effectual researches in engineering, science and technology (RAEREST 2016). Procedia Technol 25:1312–1319

26.

Singh S, Shan HS (2002) Development of magneto abrasive flow machining process. Int J Mach Tools Manuf 42:953–959CrossRef

27.

Sato T, Yeo SH, Zarepour H (2014) Loose abrasive machining. In: Handbook of manufacturing engineering and technology, pp 1051–1088

28.

Walia RS, Shan HS, Kumar P (2006) Parametric optimization of centrifugal force-assisted abrasive flow machining (CFAAFM) by the Taguchi method. J Mater Manuf Processes 21(4)

29.

Singh R, Walia RS (2012) Study the effects of centrifugal force on abrasive flow machining process. Int J Res Mech Eng Technol 2(1):34. ISSN: 2249-5762

30.

Walia RS, Shan HS, Kumar P (2008) Morphology and integrity of surfaces finished by centrifugal force assisted abrasive flow machining. Int J Adv Manuf Technol 39(11–12):1171–1179CrossRef

31.

Walia RS, Shan HS, Kumar P (2006) Finite element analysis of media used in the centrifugal force assisted abrasive flow machining process. https://doi.org/10.1243/09544054jem325

32.

Sharma AK, Kumar P, Rajesh S (2011) An improved ultrasonic abrasive flow machining. Patent number 3578/DEL/201, India

33.

Rajesh S (2011) Some studies to enhance the capabilities of abrasive flow machining process. PhD dissertation, IIT Roorkee

34.

Venkatesh G, Sharma AK, Singh N (2015) Simulation of media behaviour in vibration assisted abrasive flow machining. Simul Model Pract Theory 51:1–13CrossRef

35.

Sankar MR, Mondal S, Ramkumar J, Jain VK (2009) Experimental investigations and modelling of drill bit guided abrasive flow finishing (DBG-AFF) process. Int J Adv Manuf Technol 42(7–8):678–688CrossRef

36.

Sankar MK, Jain VK, Ramkumar J (2010) Rotational abrasive flow finishing process and its effects on finished surface. Int J Mach Tools Manuf 50(7):637–650CrossRef

37.

Sankar MR, Jain VK, Rajkumar J (2009) Experimental investigations into rotating workpiece abrasive flow finishing. Wear 267(1–4):43–51CrossRef

38.

Dabrowski L, Marciniak M, Wieczarek W, Zygmunt A (2006) Advancement of abrasive flow machining using an anodic solution. J New Mater Electrochem Syst 9:439–445

39.

Dabrowski L, Marciniak M, Szewczyk T (2006) Analysis of abrasive flow machining with an electrochemical process aid. Proc Inst Mech Eng 220

40.

Brar BS, Walia RS, Singh VP (2012) Electro chemical aid to abrasive flow machining process: harnessed for improved surface finishing. In: International conference on advancements and futuristic trends in mechanical and materials engineering

41.

Brar BS, Walia RS, Singh VP (2015) Electrochemical aided abrasive flow machining process: a hybrid machining process. Int J Adv Manuf Technol 79:329–342CrossRef

42.

Brar BS, Walia RS, Singh VP, Sharma M (2012) Helical abrasive flow machining (HLX-AFM) process. Int J Surf Eng Mater Technol 2(2):48–52

43.

Walia RS (2006) Development and investigations in centrifugal force assisted abrasive flow machining process. PhD thesis, IIT Roorkee

44.

Barr BS, Walia RS, Singh VP, Sharma M (2013) A robust helical abrasive flow machining process (HLX-AFM). J Inst Eng India Ser C 94(1):21–29CrossRef

45.

Singh R, Walia RS, Suri NM (2015) Parametric optimization of centrifugal-magnetic force assisted abrasive flow machining process using utility concept. Int J Res Eng Technol 4(8):2321–2730

46.

Vaishya R, Walia RS, Kalra P (2015) Design and development of hybrid electrochemical and centrifugal force assisted abrasive flow machining. 4th international conference on materials processing and characterization. Mater Today Proc 2:3327–3341

47.

Fu Y, Wang X, Gao H, Wei H, Li S (2016) Blade surface uniformity of blisk finished by abrasive flow machining. Int J Adv Manuf Technol 84:1725–1735CrossRef

48.

Uhlmann E, Mihotovic V, Roßkamp S, Dethlefs A (2016) A pragmatic modelling approach in abrasive flow machining for complex shaped automotive components. 7th HPC 2016—CIRP conference on high performance cutting. Procedia CIRP 46:51–54

49.

Wang AC, Cheng KC, Chen KY, Lin YC (2014) Enhancing the surface precision for the helical passageways in abrasive flow machining. Mater Manuf Processes 29:153–159CrossRef

50.

Jain RK, Jain VK, Dixit PM (1999) Modelling of material removal and surface finish in abrasive flow machining process. Int J Mach Tools Manuf 39:1903–1923CrossRef

51.

Petri KL, Billo RE, Bidanda B (1998) A neural network process model for abrasive flow machining operations. J Manuf Syst 17

52.

Brar BS, Walia RS, Singh VP, Singh M (2011) Development of a robust abrasive flow machining process set up. Int J Surf Eng Mater Technol 1. ISSN: 2249-7250

53.

Jain RK, Jain VK (2000) Optimum selection of machining conditions in abrasive flow machining using the neural network. J Mater Process Technol 108:62–67CrossRef

54.

Wang AC, Weng SC (2007) Developing the polymer abrasive gels in AFM process. J Mater Process Technol 192–193:486–490CrossRef

55.

Wang AC, Lee SJ (2009) Study the characteristics of magnetic finishing with gel abrasive. Int J Mach Tools Manuf 49(14):1063–1069CrossRef

56.

Kar KK, Ravikumar NL, Tailor PB, Ramkumar J, Sathiyamoorthy D (2009) Performance evaluation and rheological characterization of newly developed butyl rubber based media for abrasive flow machining process. J Mater Process Technol 209(4):2212–2221CrossRef

57.

Bin W, Wei C, Xia C (2012) A new type of nozzle AFM machine tool and control system research. INSPEC accession number: 12962727. https://doi.org/10.1109/icma.2012.6285705

58.

Bähre D, Brünnet H, Swat M (2012) Investigation of one-way abrasive flow machining and in-process measurement of axial forces. Procedia CIRP 1:419–424CrossRef

59.

Uhlmann E, Dotis M, Schmiedel C (2013) Development of a material model for visco-elastic abrasive medium in abrasive flow machining. Procedia CIRP 8:351–356CrossRef

60.

Yang S, Sha L (2014) Study on processing effect prediction system of AFM for injector hole of twin flapper-nozzle valve. INSPEC accession number: 14855314. https://doi.org/10.1109/es.2014.63

61.

Kenda J, Pušavec F, Kopac J (2014) Modelling and energy efficiency of abrasive flow machining on tooling industry case study. Procedia CIRP 13:13–18CrossRef

62.

Swat M, Brünnet H, Lyubenova N, Schmitt J, Diebels S, Bähre D (2014) Improved process control and model of axial forces of one-way abrasive flow machining. Procedia CIRP 14:19–24CrossRef

63.

Sooraj VS, Radhakrishnan V (2014) Fine finishing of internal surfaces using elastic abrasives. Int J Mach Tools Manuf 78:30–40CrossRef

64.

Ibrahim AF, Shather SK, Hamdan WK (2014) Studying abrasive flow machining conditions by using Taguchi method. Eng Technol J 32(4 Part (A))

65.

Kenda J, Duhovnik J, Tavčar J, Kopač J (2014) Abrasive flow machining applied to plastic gear matrix polishing. Int J Adv Manuf Technol 71(1–4):141–151CrossRef

66.

Jang K-I, Seok J, Min B-K, Lee SJ (2010) An electro chemo mechanical polishing process using magnetorheological fluid. Int J Mach Tools Manuf 50(10):869–881CrossRef

67.

Paul L, Hiremath SS (2013) Response surface modelling of micro holes in electrochemical discharge machining process. Procedia Eng 64:1395–1404CrossRef

68.

Singh S, Shan HS, Kumar P (2013) Wear behaviour of materials in magnetically assisted abrasive flow machining. J Mater Process Technol 128(1–3):155–161

69.

Jayswal SC, Jain VK, Dixit PM (2005) Modelling and simulation of magnetic abrasive finishing process. Int J Adv Manuf Technol 26(5–6):477–490CrossRef

70.

El-Taweel TA (2008) Modelling and analysis of hybrid electrochemical turning-magnetic abrasive finishing of 6061 Al/Al₂O₃ composit. Int J Adv Manuf Technol 37(7–8):705–714CrossRef

71.

Das VK, Jain VK, Ghoshdastida PS (2008) Analysis of magnetorheological abrasive flow finishing (MRAFF) process. Int J Adv Manuf Technol 38(56):613–621CrossRef

72.

Yamaguchi H, Srivastava AK, Tan MA, Riveros RE, Hashimoto F (2012) Magnetic abrasive finishing of cutting tools for machining of titanium alloys. CIRP Ann 61(1):311–314CrossRef

73.

Amineh SK, Tehrani AF, Mohammadi A (2013) Improving the surface quality in wire electrical discharge machined specimens by removing the recast layer using magnetic abrasive finishing method. Int J Adv Manuf Technol 66(9–12):1793–1803

74.

Lee YH, Wu KL, Jhou JH, Tsai YH, Yan BH (2013) Two-dimensional vibration-assisted magnetic abrasive finishing of stainless steel SUS304. Int J Adv Manuf Technol 69(9–12):2723–2733CrossRef

75.

Judal KB, Yadava V (2014) Modelling and simulation of cylindrical electrochemical magnetic abrasive machining process. Mach Sci Technol 18:221–250CrossRef

76.

Mishra V, Goel H, Mulik RS, Pandey PM (2014) Determining work-brush interface temperature in magnetic abrasive finishing process. J Manuf Process 16(2):248–256CrossRef

77.

Das M, Jain VK, Ghoshdastidar PS (2015) A 2D CFD simulation of MR polishing medium in magnetic field-assisted finishing process using electromagnet. Int J Adv Manuf Technol 76(1–4):173–187CrossRef

78.

Das M, Jain VK, Ghoshdastidar PS (2012) Nano-finishing of flat workpieces using rotational–magnetorheological abrasive flow finishing (R-MRAFF) process. Int J Adv Manuf Technol 62(1–4):405–420CrossRef

79.

Wang A-C, Tsai L, Liang KZ, Liu C-H, Weng S-H (2009) Uniform surface polished method of complex holes in abrasive flow machining. Trans Nonferr Met Soc China 19:250–257CrossRef

80.

Walia RS, Shan HS, Kumar P (2006) Abrasive flow machining with additional centrifugal force applied to the media. Mach Sci Technol 10:341–354CrossRef

Titel: Development of Hybrid Forms of Abrasive Flow Machining Process: A Review
verfasst von: Anant Bhardwaj
Parvesh Ali
R. S. Walia
Qasim Murtaza
S. M. Pandey
Verlag: Springer Singapore
Buch: Advances in Industrial and Production Engineering
Print ISBN: 978-981-13-6411-2

Electronic ISBN: 978-981-13-6412-9

Copyright-Jahr: 2019
DOI: https://doi.org/10.1007/978-981-13-6412-9_5

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