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The International Journal of Advanced Manufacturing Technology
Erschienen in: The International Journal of Advanced Manufacturing Technology 5-6/2020

19.03.2020 | ORIGINAL ARTICLE

Morphological characteristics and formation mechanisms of the UD-CFRP drill exit-damages

verfasst von: Fei Su, Zhaohui Deng, Xinyi Qiu, Fujian Sun, Qiaoping Wu

Erschienen in: The International Journal of Advanced Manufacturing Technology | Ausgabe 5-6/2020

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Abstract

Carbon fiber-reinforced plastic (CFRP) is used widely in many industries. During drilling CFRP, exit drill-induced defects such as burrs and delamination are easy to occur. In the existing model, the crack zone is assumed as a circle or an ellipse, and concrete forming process of the delamination and the burrs does not be truly involved. In this study, the formation mechanisms of the delamination and the burrs are analyzed based on the analytical model and the experimental observation. The results indicate that the critical thrust force only reflects the vulnerability of the crack, but cannot determine the size of the crack. The critical deflection of the fibers tip corresponding to the interlaminar crack extension point determines the size of crack. The burrs appear in four fundamental types.
Vorheriger Artikel Selection of suitable additive manufacturing machine and materials through best–worst method (BWM)
Nächster Artikel Prediction of machining-induced residual stress in orthogonal cutting of Ti6Al4V

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Literatur
1.
Choudhury MR, Srinivas MS, Debnath K (2018) Experimental investigations on drilling of lignocellulosic fiber reinforced composite laminates. J Manuf Process 34:51–61
2.
Zhu Z, Guo K, Sun J, Li J, Liu Y, Zheng Y, Chen L (2018) Evaluation of novel tool geometries in dry drilling aluminium 2024-T351/titanium Ti6Al4V stack. J Mater Process Technol 259:270–281
3.
Wang X, Shen X, Zeng C, Sun F (2018) Combined influences of tool shape and as-deposited diamond film on cutting performance of drills for CFRP machining. Surf Coat Technol 347:390–397
4.
Loja MAR, Alves MSF, Bragança IMF, Rosa RSB, Barbosa ICJ, Barbosa JI (2018) An assessment of thermally influenced and delamination-induced regions by composites drilling. Compos Struct 202:413–423
5.
Xu J, Li C, Mi S, An Q, Chen M (2018) Study of drilling-induced defects for CFRP composites using new criteria. Compos Struct 201:1076–1087
6.
Deng H, Xu Z (2019) Dressing methods of superabrasive grinding wheels: a review. J Manuf Process 45:46–69
7.
Çelik A, Lazoglu I, Kara A, Kara F (2015) Investigation on the performance of SiAlON ceramic drills on aerospace grade CFRP composites. J Mater Process Technol 223:39–47
8.
Su F, Zheng L, Sun FJ, Wang ZH, Deng ZH, Qiu XY (2018) Novel drill bit based on the step-control scheme for reducing the CFRP delamination. J Mater Process Technol 262:157–167
9.
Feito N, Díaz-Álvarez A, Cantero JL, Rodriguez-Millán M, Miguelez H (2015) Experimental analysis of special tool geometries when drilling woven and multidirectional CFRPs. J Reinf Plast Compos 19(19):1215–1220
10.
Rahme P, Landon Y, Lachaud F, Piquet R, Lagarrigue P (2015) Delamination-free drilling of thick composite materials. Compos Part A 72:148–159
11.
Saoudi J, Zitoune R, Gururaja S, Mezlini S, Hajjaji AA (2016) Prediction of critical thrust force for exit-ply delamination during drilling composite laminates: thermo-mechanical analysis. Int J Mach Mach Mater 18:77–98
12.
Ismail SO, Ojo SO, Dhakal HN (2017) Thermo-mechanical modelling of FRP cross-ply composite laminates drilling: delamination damage analysis. Compos Part B Eng 108:45–52
13.
Saoudi J, Zitoune R, Gururaja S, Mezlini S, Hajjaji AA (2016) Critical thrust force predictions during drilling: analytical modeling and X-ray tomography quantification. Compos Struct 153:886–894
14.
Ojo SO, Ismail SO, Paggi M, Dhakal HN (2017) A new analytical critical thrust force model for delamination analysis of laminated composites during drilling operation. Compos Part B Eng 124:207–217
15.
Girot F, Dau F, Gutiérrez-Orrantia ME (2017) New analytical model for delamination of CFRP during drilling. J Mater Process Technol 240:332–343
16.
Kim GW, Kang YL, Kim GW (2005) Critical thrust force at propagation of delamination zone due to drilling of FRP/metallic strips. Compos Struct 69(2):137–141
17.
Jia Z, Fu R, Niu B, Qian B, Bai Y (2016) Novel drill structure for damage reduction in drilling CFRP composites. Int J Mach Tools Manuf 110:55–65
18.
Turki Y, Habak M, Velasco R, Vantomme P (2017) Highlighting cutting mechanisms encountered in carbon/epoxy composite drilling using orthogonal cutting. Int J Adv Manuf Technol 3:1–13
19.
Colligan K, Ramulu M (1991) Delamination in surface plies of graphite/epoxy caused by the edge trimming process. Process Manuf Compos Mater 49(27):113–125
20.
Sheikh-Ahmad J, Urban N, Cheraghi H (2012) Machining damage in edge trimming of CFRP. Mater Manuf Process 27(7):802–808
21.
Hintze W, Brügmann F (2018) Influence of spatial tool inclination on delamination when milling CFRP. J Mater Process Technol 252:830–837
22.
Hintze W, Hartmann D (2013) Modeling of delamination during milling of unidirectional CFRP. Procedia CIRP 8:444–449
23.
Zhou JW, Chen Y, Fu YC, Xu J, Hu A, Liu S (2015) Influence of fiber cutting angle on the machining defects during slotting of CFRP. J Harbin Inst Technol 47(7):110–116
24.
Voss R, Seeholzer L, Kuster F, Wegener K (2017) Influence of fibre orientation, tool geometry and process parameters on surface quality in milling of CFRP. CIRP J Manuf Sci Technol 18:75–91
25.
Islam F, Ramkumar J, Milani AS (2016) A simplified damage prediction framework for milling of unidirectional carbon fiber-reinforced plastics. Adv Manuf Polym Compos Sci 1(4):175–184
26.
Fu R (2017) Reaearch of key technologies for low-damage drilling CFRP composites. Liaoning: Dalian, Dalian University of Technology (In English)
27.
Andoh PY, Davis F, Antonio J (2011) Prediction of a delamination area during drilling of carbon composite laminates structures. J Sci Technol 31(2):120–134
28.
Jin PJ, Kim GW, Kang YL (2005) Critical thrust force at delamination propagation during drilling of angle-ply laminates. Compos Struct 68(4):391–397
29.
Bao Y (2010) The formation mechanism of disfigurements during drilling and the high-efficiency techniques of drilling C/E composite. Liaoning: Dalian, Dalian University of Technology (In English)
30.
Su F, Zheng L, Sun F, Deng Z, Qiu X (2019) Theoretical modeling for the exit-delamination morphology of the unidirectional CFRPs. Int J Adv Manuf Technol 102:533–544
31.
Li H, Qin X, He G, Price MA, Jin Y, Sun D (2017) An energy based force prediction method for UD-CFRP orthogonal machining. Compos Struct 159:34–43
32.
Liu WX, Zhou GM, Wang XF, Gao J (2014) Theoretical analysis of crack propagation in composite DCB speciments. Acta Mater Composit Sin 31(1):207–212
33.
Fei S, Deng Z, Sun F, Li S, Wu Q, Jiang X (2019) Comparative analyses of damages formation mechanisms for novel drills based on a new drill-induced damages analytical model. J Mater Process Technol 271:111–125
34.
Lachaud F, Piquet R, Collombet F, Surcin L (2001) Drilling of composite structures. Compos Struct 52(3):511–516
35.
Zitoune R, Collombet F (2007) Numerical prediction of the thrust force responsible of delamination during the drilling of the long-fibre composite structures. Compos Part A 38(3):858–866
36.
Voss R, Seeholzer L, Kuster F, Wegener K (2019) Analytical force model for orthogonal machining of unidirectional cabon fiber reinforced polymers (CFRP) as a function of the fiber orientation. J Mater Process Technol 263:440–469
37.
Feng P, Wang J, Zhang J, Zheng J (2017) Drilling induced tearing defects in rotary ultrasonic machining of C/SiC composites. Ceram Int 43(1):791–799
Metadaten
Titel
Morphological characteristics and formation mechanisms of the UD-CFRP drill exit-damages
verfasst von
Fei Su
Zhaohui Deng
Xinyi Qiu
Fujian Sun
Qiaoping Wu
Publikationsdatum
19.03.2020
Verlag
Springer London
Erschienen in
The International Journal of Advanced Manufacturing Technology / Ausgabe 5-6/2020
Print ISSN: 0268-3768
Elektronische ISSN: 1433-3015
DOI
https://doi.org/10.1007/s00170-020-05186-0

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