Femtosecond Laser Single-step and Three-step Trepanning Drilling Technology of Aluminum Alloy

Yunpeng Ren; Li Cheng; Wangfan Zhou; Yan Chen; Kun He; Xincheng Tu; Yunxia Ye; Naifei Ren

doi:10.3788/CJL202249.2202020

[1] Yang L, Kan R, Ren J et al. Effect of film cooling arrangement on impingement heat transfer on turbine blade leading edge[C](2013).

[2] Sundaram N, Thole K A. Film-cooling flowfields with trenched holes on an endwall[J]. Journal of Turbomachinery, 131, 041007(2009).

[3] Lee K D, Choi D W, Kim K Y. Optimization of ejection angles of double-jet film-cooling holes using RBNN model[J]. International Journal of Thermal Sciences, 73, 69-78(2013).

[4] Wei M R, Wen H, Liu H M et al. Simulation analysis on cavitation flow in a diesel engine nozzle[J]. Transactions of CSICE, 24, 526-530(2006).

[5] Xia J, Zhang Q K, Huang Z et al. Experimental study of injection characteristics under diesel's sub/trans/supercritical conditions with various nozzle diameters and injection pressures[J]. Energy Conversion and Management, 215, 112949(2020).

[6] Zhu S J, Zhang Z Y, Chu S L et al. Research and application of massive micropores water-assisted picosecond laser processing technology[J]. Chinese Journal of Lasers, 47, 0302002(2020).

[7] Xiong H[D]. Nanosecond laser drilling of thin aluminum sheets, 2(2016).

[8] Cobo P, de Espinosa F M. Proposal of cheap microperforated panel absorbers manufactured by infiltration[J]. Applied Acoustics, 74, 1069-1075(2013).

[9] Su M N, Young B. Material properties of normal and high strength aluminium alloys at elevated temperatures[J]. Thin-Walled Structures, 137, 463-471(2019).

[10] Erich D L, Donald L, Li X J. Advantages of mechanized aluminum alloy[J]. Light Medals, 6, 55-57(1983).

Erich, 李行健. 机械合金化铝合金的优点[J]. 轻金属, 6, 55-57(1983).

[11] Hirsch J. Aluminium in innovative light-weight car design[J]. Materials Transactions, 52, 818-824(2011).

[12] Sui Y D, Wang Q D. Development of heat-resistant cast aluminum alloy for engine applications[J]. Materials Review, 29, 14-19(2015).

[13] von Zengen K H. Aluminium in future cars-a challenge for materials science[J]. Materials Science Forum, 519/520/521, 1201-1208(2006).

[14] Hirsch J. Recent development in aluminium for automotive applications[J]. Transactions of Nonferrous Metals Society of China, 24, 1995-2002(2014).

[15] Heinz A, Haszler A, Keidel C et al. Recent development in aluminium alloys for aerospace applications[J]. Materials Science and Engineering: A, 280, 102-107(2000).

[16] Vermeulen B, van Tooren M J L. Design case study for a comparative performance analysis of aerospace materials[J]. Materials & Design, 27, 10-20(2006).

[17] Vasudevan S, Lakshmi J, Jayaraj J et al. Remediation of phosphate-contaminated water by electrocoagulation with aluminium, aluminium alloy and mild steel anodes[J]. Journal of Hazardous Materials, 164, 1480-1486(2009).

[18] Sundararajan M, Devarajan M, Jaafar M. Investigation of surface and mechanical properties of anodic aluminium oxide (AAO) developed on Al substrate for an electronic package enclosure[J]. Surface and Coatings Technology, 401, 126273(2020).

[19] Hu F Q, Song B Y, Bai J C et al. Micro-EDM for an aluminium matrix composite[J]. Key Engineering Materials, 447/448, 233-237(2010).

[20] Bauer J, Frost F, Lehmann A et al. Finishing of metal optics by ion beam technologies[J]. Optical Engineering, 58, 092612(2019).

[21] A Z W, Chen L L, Wu Y et al. Controlling of diameter and taper in ultrafast laser helical drilling[J]. Chinese Journal of Lasers, 48, 0802017(2021).

[22] Guo M C, Wang M D, Zhang S J et al. Techniques for femtosecond laser processing of micro-holes in FR-4 copper clad laminate[J]. Chinese Journal of Lasers, 47, 1202008(2020).

[23] Zhang X Q, Xing S L, Liu L et al. Trepanning of supper-alloy with thermal barrier coating using femtosecond laser[J]. Chinese Journal of Lasers, 44, 0102013(2017).

[24] Liu X D, Chen L, Wang X Z et al. Study on technology of picosecond laser making micro-hole with helical drilling[J]. Laser & Optoelectronics Progress, 59, 0102013(2022).

[25] Deng S S. Laser processing technology and its application[J]. Physics, 24, 99-102, 119(1995).

[26] Richardson M. Laser materials processing technologies and the future[C](2015).

[27] Pierron N, Sallamand P, Jouvard J M et al. Determination of an empirical law of aluminium and magnesium alloys absorption coefficient during Nd: YAG laser interaction[J]. Journal of Physics D: Applied Physics, 40, 2096-2101(2007).

[28] Tunna L, O’Neill W, Khan A et al. Analysis of laser micro drilled holes through aluminium for micro-manufacturing applications[J]. Optics and Lasers in Engineering, 43, 937-950(2005).

[29] Sercombe T B, Li X. Selective laser melting of aluminium and aluminium metal matrix composites: review[J]. Materials Technology, 1-9(2016).

[30] Krstulović N, Shannon S, Stefanuik R et al. Underwater-laser drilling of aluminum[J]. The International Journal of Advanced Manufacturing Technology, 69, 1765-1773(2013).

[31] Qian X Z, Xia K B, Ren N F. Investigation on microhole formation quality law for pulsed laser drilling of aluminum alloy[J]. Applied Laser, 36, 728-734(2016).

[32] Ahn D G, Jung G W. Influence of process parameters on drilling characteristics of Al1050 sheet with thickness of 0.2 mm using pulsed Nd: YAG laser[J]. Transactions of Nonferrous Metals Society of China, 19, s157-s163(2009).

[33] Zhao W Q, Liu H D, Shen X W et al. Percussion drilling hole in Cu, Al, Ti, and Ni alloys using ultra-short pulsed laser ablation[J]. Materials, 13, 31(2019).

[34] Ho C C, Tseng G R, Chang Y J et al. Laser percussion drilling of highly reflective metals with external interdigital electrodes[J]. Precision Engineering, 43, 43-51(2016).

[35] Wang M L, Yang L J, Zhang S et al. Experimental investigation on the spiral trepanning of K24 superalloy with femtosecond laser[J]. Optics & Laser Technology, 101, 284-290(2018).