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The International Journal of Advanced Manufacturing Technology

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31-08-2022 | ORIGINAL ARTICLE

Numerical investigation of machining of SiC/Al matrix composites by a coupled SPH and FEM

Authors: Xiaoyan Teng, Dehan Xiao, Xudong Jiang

Published in: The International Journal of Advanced Manufacturing Technology | Issue 3-4/2022

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Abstract

The machining process of SiC/Al matrix composites is characterized by strong nonlinearity, and thus, there are great challenges resulting from excessive deformation and stress concentration at the tool-workpiece interface in solving such problems. Smoothed particle hydrodynamics (SPH) as a particle-based algorithm can efficiently tackle mesh distortion due to large deformation using finite element method (FEM) for cutting simulations. However, the computational efficiency by SPH is far below the counterpart by FEM. As a result, to address such issues with individual use of SPH or FEM, the coupled SPH-FEM algorithm is presented to calculate large deformation of aluminum matrix using SPH and small deformation of SiC particles using FEM. This paper aims to develop a SPH-FEM coupling model of machining SiC/Al matrix composites and compare the results with an equivalent FE model. A good agreement between numerical results from the SPH-FEM model and those from the FE model is achieved, which shows that the SPH-FEM coupling method is an alternative to FEM for predicting the cutting force, chip formation, and machined surface morphology. The developed SPH-FEM model is also employed to investigate the influence of the cutting parameters including SiC volume fraction, cutting velocity, and uncut chip thickness on the cutting force. Finally, the orthogonal cutting experiments were conducted to validate the presented SPH-FEM model. Numerical results are in good agreement with experimental results, which confirms that SPH-FEM can accurately predict the resulting cutting force and machined surface morphology.

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Liao Z, Abdelhafeez A, Li H, Yang Y, Axinte D (2019) State-of-the-art of surface integrity in machining of metal matrix composites. Int J Mach Tool Manu 143:63–91CrossRef

Xiang J, Xie L, Gao F, Yi J, Pang S, Wang X (2017) Diamond tools wear in drilling of SiCp/Al matrix composites containing copper. Ceram Int 44:5341–5351CrossRef

Duan C, Sun W, Fu C, Zhang F (2018) Modeling and simulation of tool-chip interface friction in cutting Al/SiCp composites based on a three-phase friction model. Int J Mech Sci 142–143:384–396CrossRef

Yin W, Duan C, Li Y, Miao K (2021) Modelling of tool flank-workpiece interface friction considering temperature gradient and particle property for cutting SiCp/Al composites. J Mater Process Tech 298:117302CrossRef

Umer U, Kishawy H, Ghandehariun A, Xie L, Ahmari AA (2017) On modeling tool performance while machining aluminum-based metal matrix composites. Int J Adv Manuf Tech 104:1–12CrossRef

Teng X, Chen W, Huo D, Shyha I, Lin C (2018) Comparison of cutting mechanism when machining micro and nano-particles reinforced SiC/Al metal matrix composites. Compos Struct 203:636–647CrossRef

Wang Y, Liao W, Yang K, Chen W, Liu T (2018) Investigation on cutting mechanism of SiCp/Al composites in precision turning. Int J Adv Manuf Tech 100:963–972CrossRef

Wu Q, Xu W, Zhang L (2019) Machining of particulate-reinforced metal matrix composites: an investigation into the chip formation and subsurface damage. J Mater Process Tech 274:116315CrossRef

Ducobu F, Riviere-Lorphevre E, Filippi E (2016) Application of the coupled Eulerian-Lagrangian (CEL) method to the modeling of orthogonal cutting. Eur J Mech A / Solids 59:58–66CrossRef

10.

Ducobu F, Riviere-Lorphevre E, Filippi E (2017) Finite element modelling of 3D orthogonal cutting experimental tests with the coupled Eulerian-Lagrangian (CEL) formulation. Finite Elem Anal Des 134:27–40CrossRef

11.

Ng EG, El-Wardany TI, Dumitrescu M, Elbestawi MA (2002) Physics-based simulation of high speed machining. Mach Sci Technol 6:301–329

12.

Ye T, Pan DY, Huang C, Liu M (2019) Smoothed particle hydrodynamics (SPH) for complex fluid flows: recent developments in methodology and applications. Phys Fluids 31:11301CrossRef

13.

Lind SJ, Rogers BD, Stansby PK (2020) Review of smoothed particle hydrodynamics: towards converged Lagrangian flow modelling. P Roy Soc A Math Phy 2241:20190801MathSciNetMATH

14.

Islam M, Chong P (2019) A total Lagrangian SPH method for modelling damage and failure in solids. Int J Mech Sci 5:157–158

15.

Koneshwaran S, Thambiratnam DP, Gallage C (2015) Blast response of segmented bored tunnel using coupled SPH-FE method. Structures 2:58–71CrossRef

16.

Magliaro J, Altenhof W (2020) Mechanical performance and crashworthiness of plates and extrusions subjected to cutting: an overview. Thin Wall Struct 148:106612CrossRef

17.

Dou W, Geng X, Xu Z (2019) Experimental investigation and numerical simulation of the orthogonal cutting based on the smoothed particle hydrodynamics method. J Manuf Process 44:359–366CrossRef

18.

Wang J, Zhang A, Fang F (2020) Numerical study via total Lagrangian smoothed particle hydrodynamics on chip formation in micro cutting. Adv Manuf 8:144–159

19.

Niu W, Mo R, Liu G, Sun H, Wang G (2018) Modeling of orthogonal cutting process of A2024–T351 with an improved SPH method. Int J Adv Manuf Tech 95:905–919CrossRef

20.

Guo X, Li M, Dong Z, Zhai R, Kang R (2019) Smooth particle hydrodynamics modeling of cutting force in milling process of TC4. Adv Manuf 7:364–373CrossRef

21.

Takabi B, Tajdari M, Tai BL (2017) Numerical study of smoothed particle hydrodynamics method in orthogonal cutting simulations-effects of damage criteria and particle density. J Manuf Process 30:523–531CrossRef

22.

Zhang S, Zhang H, Zong W (2019) Modeling and simulation on the effect of tool rake angle in diamond turning of KDP crystal. J Mater Process Technol 273:116259CrossRef

23.

Zhang S, Zong W (2021) FE-SPH hybrid method to simulate the effect of tool inclination angle in oblique diamond cutting of KDP crystal. IJMS 196:1–13

24.

Song H, Pan P, Ren G, Yang Z, Xu J (2020) SPH/FEM modeling for laser-assisted machining of fused silica. Int J Adv Manuf Tech 106:2049–2064CrossRef

25.

Swiftr P (2001) SPH elastic dynamics. Comput Methods Appl Mech Eng 190:6641–6662CrossRef

26.

Hu W, Rakhsha, Yang L, Kamrin K, Negrut D (2021) Modeling granular material dynamics and its two-way coupling with moving solid bodies using a continuum representation and the SPH method. Comput Methods Appl Mech Engrg 385:114022

27.

Islam MRI, Peng C (2019) A total Lagrangian SPH method for modelling damage and failure in solids. Int J Mech Sci 5:157–158

28.

Monaghan JJ, Gingold RA (1983) Shock simulation by the particle method SPH. J Comput Phys 52:374–389CrossRef

29.

Kim NH, Owen DRJ (2015) Introduction to nonlinear finite element analysis. Springer, Department of Mechanical and Aerospace Engineering, University of Florida, Gainesville, FL, USA

30.

Liu J, Bai Y, Xu C (2014) Evaluation of ductile fracture models in finite element simulation of metal cutting processes. J Manuf Sci E 136:011010CrossRef

31.

Zhang J, Ouyang Q, Guo Q, Li Z, Fan G, Yu Y, Jiang L, Enrique JL, Julie MS, Zhang D (2016) 3D Microstructure-based finite element modeling of deformation and fracture of SiCp/Al composites. Compos Sci Technol 123:1–9CrossRef

32.

Wu Q, Xu W, Zhang L (2019) Microstructure-based modelling of fracture of particulate reinforced metal matrix composites. Compos Part B Eng 163:384–392CrossRef

33.

Kannan S, Kishawy HA, Deiab I (2009) Cutting forces and TEM analysis of the generated surface during machining metal matrix composites. J Mater Process Tech 209:2260–2269CrossRef

Title: Numerical investigation of machining of SiC/Al matrix composites by a coupled SPH and FEM
Authors: Xiaoyan Teng
Dehan Xiao
Xudong Jiang
Publication date: 31-08-2022
Publisher: Springer London
Published in: The International Journal of Advanced Manufacturing Technology / Issue 3-4/2022
Print ISSN: 0268-3768
Electronic ISSN: 1433-3015
DOI: https://doi.org/10.1007/s00170-022-09985-5

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