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Mechanics of Composite Materials

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08-05-2021

Finite-Element Analysis and an Experimental Study into the Water Jet Reaming Process of Carbon-Carbon Composites

Authors: D. Ya. Yin, Ch. F. Zhu, X. Ch. Chen, J. S. Bao

Published in: Mechanics of Composite Materials | Issue 2/2021

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Abstract

Aiming at the phenomenon of delamination and serious tool wear when processing carbon-carbon composite materials by traditional mechanical tools, an abrasive water jet reaming process for carbon-carbon composites is proposed. First, the carbon-carbon composite material is prepunched by a certain method, and then the abrasive water jet is used for cutting and reaming. The internal stresses and interlayer displacements of the carbon-carbon composite material during the direct impact and cutting simulation of the abrasive water jet are compared and analyzed. The result found showed that the abrasive water jet reaming process can effectively reduce the stress on the carbon-carbon composite during the hole processing, thus greatly reducing the occurrence of delamination of carbon-carbon composites and improving the quality of the composite. For calculations, a finite-element model of the abrasive water jet processing carbon-carbon composites was established using the ANSYS/LS-Dyna18.0 software. Experiments were carried out, and they confirmed the correctness of the finite-element model employed.

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I. Rahamathullah and M. S. Shunmugam, “Analyses of forces and hole quality in micro-drilling of carbon fabric laminate composites,” Journal of Composite Materials, 47, No. 9, 1129-1140 (2012).CrossRef

Y. Karpat, O. Bahtiyar, B. Deger, et al., “A mechanistic approach to investigate drilling of UD-CFRP laminates with PCD drills,” CIRP Annals-Manufacturing Technology, 63, 81-84 (2014).CrossRef

M. Montoya, M. Calamaz, D. Gehin, et al., “Evaluation of the performance of coated and uncoated carbide tools in drilling thick CFRP /aluminium alloy stacks,” Int. J. Adv. Manuf. Technol., 68, 2111-2120 (2013).CrossRef

D. Arola and M. Ramulu, “Orthogonal cutting of fibre-reinforced composites: a finite element analysis,” Int. J. Mach. Tool Manuf., 39, No 5, 597-613 (1997).

R. Rentsch, O. Pecat, and E. Brinksmeier, “Macro- and microprocess modeling of the cutting of carbon fiber reinforced plastics using FEM,” Procedia Engineering, 10, 1823-1828 (2011).CrossRef

G. V. G. Rao, P. Mahajan, and N. Bhatnagar, “Three-dimensional macro-mechanical finite-element model for machining of unidirectional-fber reinforced polymer composites,” Materials Science & Engineering A, 498, No. 1, 142-149 (2008).CrossRef

Kang Can, Liu Haixia, Zhou Liang, and Yang Minguan, “Energy Factors and Erosion Mechanism of Water Jet Impact on Solid Surface,” Journal of Jiangsu University (Natural Science Edition)., 35, No. 2, 154-159 (2014).

Yun Ky Hong and Kwan Ho Moon, “Experimental research on a waterjet to simulate erosion by impact of a water drop,” Wear., 36, 116-123 (2016).CrossRef

N. Careddu, “Rough surface finishing of stone-faced sandwich panels using high pressure waterjet,” Journal of Materials in Civil Engineering., 24, No. 7, 907-915 (2012).CrossRef

10.

J. Schwartzentruber, J. K. Spelt, and M. Papini, “Modelling of delamination due to hydraulic shock when piercing anisotropic carbon-fiber laminates using an abrasive water jet,” International Journal of Machine Tools & Manufacture, 132, No. 9, 81-95 (2018).CrossRef

11.

S. Anwar, D. A. Axinte, and A. A. Becker, “Finite-element modelling of a single-particle impact during abrasive water jet milling,” Proceedings of the Institution of Mechanical Engineers, Part J, Journal of Engineering Tribology, 225, 821-832 (2011).CrossRef

12.

D. A. Axinte, S. Anwar, and A. A. Becker, “Finite-element modelling of abrasive waterjet milled footprints,” Journal of Materials Processing Technology, 213, 180-193 (2013).CrossRef

13.

Zhang Yanhui and Li Weiji, “A multi-objective optimization design method based on fuzzy importance,” Acta Aeronautica Sinica., 4, 68-70 (1999).

14.

Fan Jianping and Pan Zuxing, “Numerical analysis of interlayer stress in symmetrical angle laminated laminates,” China Science and Technology Paper Online., 20, No. 9, 57-68 (2009).

15.

Zhu Dezhi, Hu Jun, “Process test of picosecond laser processing carbon fiber composites,” Aviation Manufacturing Technology., 20, 54-59, (2017).

16.

Huang Mingjie, Optimization of Abrasive Waterjet Process and Surface Integrity of CFRP, Hunan University (2019).

Title: Finite-Element Analysis and an Experimental Study into the Water Jet Reaming Process of Carbon-Carbon Composites
Authors: D. Ya. Yin
Ch. F. Zhu
X. Ch. Chen
J. S. Bao
Publication date: 08-05-2021
Publisher: Springer US
Published in: Mechanics of Composite Materials / Issue 2/2021
Print ISSN: 0191-5665
Electronic ISSN: 1573-8922
DOI: https://doi.org/10.1007/s11029-021-09950-5

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