Abstract
Carbon fiber reinforced polymer (CFRP) composites are widely used in the aerospace field because of their outstanding performance. Laser is an effective method for CFRP composite processing. However, there are corner errors and obvious thermal damage in laser corner cutting, which affect the cutting quality. This article mainly describes the corner error and thermal damage behavior, and the effect of anisotropy of nanosecond UV laser when cutting different corners of CFRP plates. Select six corner angles to perform a full factorial experiment with a right-angled triangle hole cutting under the horizontal and vertical baselines and different laser repetition rates. The results show that there are obvious corner errors and heat affected zone (HAZ) and matrix recession (MR) in laser corner cutting. The corner error always shows that the cut-in error is smaller than the cut-out error (28.06% on average), and the cut-in error and HAZ decrease with the increase of the corner angle, but the difference between the cut-in and the cut-out error increases with the increase of the corner angle. In vertical baseline cutting, the corner error can be reduced to a certain extent, but the HAZ (average 38.42%) is seriously increased, and the thermal damage of linear cutting under a large pulse repetition rate is increased. The large laser repetition rate increases the thermal damage due to the increase of the overlap rate of adjacent pulses but has less effect on the corner error, especially the cut-in error.
References
1.
Alam
, P.
, Mamalis
, D.
, Robert
, C.
, Floreani
, C.
, and Brádaigh
, C.
, 2019
, “The Fatigue of Carbon Fibre Reinforced Plastics—A Review
,” Compos. B. Eng.
, 166
, pp. 555
–579
. 2.
An
, Q.
, Chen
, J.
, Ming
, W.
, and Chen
, M.
, 2021
, “Machining of SiC Ceramic Matrix Composites: A Review
,” Chinese J. Aeronaut.
, 34
(4
), pp. 540
–567
. 3.
Stokes
, V. K.
, 1989
, “Joining Methods for Plastics and Plastic Composites: An Overview
,” Polym. Eng. Sci.
, 29
(19
), pp. 1310
–1324
. 4.
Flemming
, M.
, Ziegmann
, G.
, and Roth
, S.
, 1996
, Faserverbundbauweisen: Halbzeuge und Bauweisen
, Springer
, Berlin
.5.
Meinhard
, D.
, Haeger
, A.
, and Knoblauch
, V.
, 2021
, “Drilling Induced Defects on Carbon Fiber Reinforced Thermoplastic Polyamide and Their Effect on Mechanical Properties
,” Compos. Struct.
, 256
, p. 113138
. 6.
Karpat
, Y.
, Bahtiyar
, O.
, and Deger
, B.
, 2012
, “Mechanistic Force Modeling for Milling of Unidirectional Carbon Fiber Reinforced Polymer Laminates
,” Int. J. Mach. Tool Manuf.
, 56
, pp. 79
–93
. 7.
An
, Q.
, Dang
, J.
, Li
, J.
, Wang
, C.
, and Chen
, M.
, 2020
, “Investigation on the Cutting Responses of CFRP/Ti Stacks: With Special Emphasis on the Effects of Drilling Sequences
,” Compos. Struct.
, 25
, p. 112794
. 8.
Li
, M.
, Li
, S.
, Yang
, X.
, Zhang
, Y.
, and Liang
, Z.
, 2019
, “Effect of Lay-up Configuration and Processing Parameters on Surface Quality During Fiber Laser Cutting of CFRP Laminates
,” Int. J. Adv. Manuf. Technol.
, 100
(1–4
), pp. 623
–635
. 9.
Fu
, R.
, Jia
, Z.
, Wang
, F.
, Jin
, Y.
, Sun
, D.
, Yang
, L.
, and Cheng
, D.
, 2018
, “Drill-Exit Temperature Characteristics in Drilling of UD and MD CFRP Composites Based on Infrared Thermography
,” Int. J. Mach. Tools. Manuf.
, 135
, pp. 24
–37
. 10.
Li
, M.
, Huang
, M.
, Jiang
, X.
, Kuo
, C.
, and Yang
, X.
, 2018
, “Study on Burr Occurrence and Surface Integrity During Slot Milling of Multidirectional and Plain Woven CFRPs
,” Int. J. Adv. Manuf. Technol.
, 97
(1–4
), pp. 163
–173
. 11.
Feito
, N.
, Díaz-Álvarez
, J.
, López-Puente
, J.
, and Miguelez
, M. H.
, 2018
, “Experimental and Numerical Analysis of Step Drill Bit Performance When Drilling Woven CFRPs
,” Compos. Struct.
, 184
, pp. 1147
–1155
. 12.
Jia
, Z.
, Fu
, R.
, Niu
, B.
, Qian
, B.
, Bai
, Y.
, and Wang
, F.
, 2016
, “Novel Drill Structure for Damage Reduction in Drilling CFRP Composites
,” Int. J. Mach. Tools. Manuf.
, 110
, pp. 55
–65
. 13.
Alberdi
, A.
, Artaza
, T.
, Suárez
, A.
, Rivero
, A.
, and Girot
, F.
, 2015
, “An Experimental Study on Abrasive Waterjet Cutting of CFRP/Ti6Al4V Stacks for Drilling Operations
,” Int. J. Adv. Manuf. Technol.
, 86
(1–4
), pp. 691
–704
. 14.
Yue
, X.
, Yang
, X.
, Tian
, J.
, He
, Z.
, and Fan
, Y.
, 2018
, “Thermal, Mechanical and Chemical Material Removal Mechanism of Carbon Fiber Reinforced Polymers in Electrical Discharge Machining
,” Int. J. Mach. Tools. Manuf.
, 133
, pp. 4
–17
. 15.
Sala
, G.
, 2000
, “Composite Degradation Due to Fluid Absorption
,” Compos. B. Eng.
, 31
(5
), pp. 357
–373
. 16.
Moeller
, R.
, 2007
, “Machining of Composites With Abrasive Water-Jets
,” Proceedings of CFK-Valley Stade Convention
, Stade, Germany
, June 24
.17.
Wang
, Y.
, Zhang
, Z.
, Zhang
, G.
, Wang
, B.
, and Zhang
, W.
, 2018
, “Study on Immersion Waterjet Assisted Laser Micromachining Process
,” J. Mater. Process. Technol.
, 262
, pp. 290
–298
. 18.
Shanmugam
, D. K.
, Nguyen
, T.
, and Wang
, J.
, 2008
, “A Study of Delamination on Graphite/Epoxy Composites in Abrasive Water Jet Machining
,” Compos. Part. A Appl. Sci., Manuf.
, 39
(6
), pp. 923
–929
. 19.
Lee
, T. H.
, Fan
, H.
, Li
, Y.
, Shriver
, D.
, Arinez
, J.
, Xiao
, G.
, and Banu
, M.
, 2019
, “Enhanced Performance of Ultrasonic Welding of Short Carbon Fiber Polymer Composites Through Control of Morphological Parameters
,” ASME. J. Manuf. Sci. Eng.
, 142
(1
), p. 011009
. 20.
Shin
, Y. C.
, Wu
, B.
, Lei
, S.
, Cheng
, G. J.
, and Lawrence Yao
, Y.
, 2020
, “Overview of Laser Applications in Manufacturing and Materials Processing in Recent Years
,” ASME. J. Manuf. Sci. Eng.
, 142
(11
), p. 110818
. 21.
Huang
, H.
, and Zhigilei
, L. V.
, 2021
, “Atomistic View of Laser Fragmentation of Gold Nanoparticles in a Liquid Environment
,” J. Phys. Chem. C
, 125
(24
), pp. 13413
–13432
. 22.
Zhang
, Y.
, Zhang
, G.
, Zhang
, Z.
, Zhang
, Y.
, and Huang
, Y.
, 2022
, “Effect of Assisted Transverse Magnetic Field on Distortion Behavior of Thin-Walled Components in WEDM Process
,” Chinese J Aeronaut.
, 35
(2
), pp. 291
–307
. 23.
Huang
, H.
, and Zhigilei
, L. V.
, 2022
, “Computational Study of Laser Fragmentation in Liquid: Phase Explosion, Inverse Leidenfrost Effect at the Nanoscale, and Evaporation in a Nanobubble
,” Sci. China-Phys. Mech. Astron.
, 65
(7
), pp. 1
–16
.24.
Chueh
, Y.
, Zhang
, X.
, Wei
, C.
, Sun
, Z.
, and Li
, L.
, 2020
, “Additive Manufacturing of Polymer-Metal/Ceramic Functionally Graded Composite Components Via Multiple Material Laser Powder Bed Fusion
,” ASME. J. Manuf. Sci. Eng.
, 142
(5
), p. 051003
. 25.
Li
, M.
, Li
, S.
, and Yang
, X.
, 2020
, “The Influence of Machining Processes on Strain Distribution and Progressive Failure Characteristics When Producing Holes in CFRP
,” Compos. Struct.
, 238
, p. 111994
. 26.
Goeke
, A.
, and Emmelmann
, C.
, 2010
, “Influence of Laser Cutting Parameters on CFRP Part Quality
,” Phys. Procedia
, 5
, pp. 253
–258
. 27.
Tao
, N.
, Chen
, G.
, Yu
, T.
, Li
, W.
, and Fan
, L.
, 2020
, “Dual-Beam Laser Drilling Process for Thick Carbon Fiber Reinforced Plastic Composites Plates
,” J. Mater. Process. Technol.
, 281
, p. 116590
. 28.
Leone
, C.
, and Genna
, S.
, 2018
, “Heat Affected Zone Extension in Pulsed Nd:YAG Laser Cutting of CFRP
,” Compos. Pt. B-Eng.
, 140
, pp. 174
–182
. 29.
Li
, Z. L.
, Zheng
, H. Y.
, Lim
, G. C.
, Chu
, P. L.
, and Li
, L.
, 2010
, “Study on UV Laser Machining Quality of Carbon Fibre Reinforced Composites. Compos
,” Pt. A-Appl. Sci. Manuf.
, 41
(10
), pp. 1403
–1408
. 30.
Takahashi
, K.
, Tsukamoto
, M.
, Masuno
, S.
, and Sato
, Y.
, 2016
, “Heat Conduction Analysis of Laser CFRP Processing With IR and UV Laser Light
,” Compos. Part. A Appl. Sci. Manuf.
, 84
, pp. 114
–122
. 31.
Ohkubo
, T.
, Sato
, Y.
, Matsunaga
, E.-I.
, and Tsukamoto
, M.
, 2017
, “Three-Dimensional Numerical Simulation During Laser Processing of CFRP
,” Appl. Surf. Sci.
, 417
, pp. 104
–107
. 32.
Hu
, J.
, and Zhu
, D.
, 2018
, “Experimental Study on the Picosecond Pulsed Laser Cutting of Carbon Fiber-Reinforced Plastics
,” J. Reinf. Plast. Compos.
, 37
(15
), pp. 993
–1003
. 33.
Oliveira
, V.
, Sharma
, S. P.
, Moura
, M. F. S. F.
, Moreira
, R. D. F.
, and Vilar
, R.
, 2017
, “Surface Treatment of CFRP Composites Using Femtosecond Laser Radiation
,” Opt. Lasers Eng.
, 94
, pp. 37
–43
. 34.
Salama
, A.
, Li
, L.
, Mativenga
, P.
, and Sabli
, A.
, 2016
, “High-Power Picosecond Laser Drilling/Machining of Carbon Fibre-Reinforced Polymer (CFRP) Composites
,” Appl. Phys. A
, 122
(2
), pp. 1
–11
.35.
Li
, W.
, Zhang
, G.
, Huang
, Y.
, and Rong
, Y.
, 2021
, “Drilling of CFRP Plates With Adjustable Pulse Duration Fiber Laser
,” Mater. Manuf. Process.
, 36
(11
), pp. 1256
–1263
. 36.
Li
, W.
, Zhang
, G.
, Huang
, Y.
, and Rong
, Y.
, 2021
, “UV Laser High-Quality Drilling of CFRP Plate with a New Interlaced Scanning Mode
,” Compos. Struct.
, 273
, p. 114258
. 37.
Li
, W.
, Huang
, Y.
, Chen
, X.
, Zhang
, G.
, Huang
, Y.
, Rong
, Y.
, and Lu
, Y.
, 2021
, “Study on Laser Drilling Induced Defects of CFRP Plates With Different Scanning Modes Based on Multi-Pass Strategy
,” Opt Laser Technol.
, 144
, p. 107400
. 38.
El-Hofy
, M. H.
, and El-Hofy
, H.
, 2019
, “Laser Beam Machining of Carbon Fiber Reinforced Composites: A Review
,” Int. J. Adv. Manuf. Technol.
, 101
(9–12
), pp. 2965
–2975
. 39.
Romoli
, L.
, Fischer
, F.
, and Kling
, R.
, 2012
, “A Study on UV Laser Drilling of PEEK Reinforced With Carbon Fibers
,” Opt. Lasers. Eng.
, 50
(3
), pp. 449
–457
. Copyright © 2022 by ASME
You do not currently have access to this content.
