[1] Gu D D, Shi X Y, Poprawe R, Bourell D L, Setchi R and Zhu J H 2021 Material-structure-performance integrated laser-metal additive manufacturing Science 372 eabg1487

[2] Blakey-Milner B, Gradl P, Snedden G, Brooks M, Pitot J,Lopez E, Leary M, Berto F and du Plessis A 2021 Metal additive manufacturing in aerospace: a review Mater. Des.209 110008

[3] Kürnsteiner P, Wilms M B, Weisheit A, Gault B, J?gle E A and Raabe D 2020 High-strength Damascus steel by additive manufacturing Nature 582 515–9

[4] Anand A R 2019 Investigations on effect of evaporator length on heat transport of axially grooved ammonia heat pipe Appl. Therm. Eng. 150 1233–42

[5] Jiang Z Y and Qu Z G 2019 Lithium-ion battery thermal management using heat pipe and phase change material during discharge-charge cycle: a comprehensive numerical study Appl. Energy 242 378–92

[6] McGlen R J 2021 An introduction to additive manufactured heat pipe technology and advanced thermal management products Therm. Sci. Eng. Prog. 25 100941

[7] Thompson S M, Aspin Z S, Shamsaei N, Elwany A and Bian L K 2015 Additive manufacturing of heat exchangers:a case study on a multi-layered Ti-6Al-4V oscillating heat pipe Addit. Manuf. 8 163–74

[8] Wang X W, Ho J Y, Leong K C and Wong T N 2018 Condensation heat transfer and pressure drop characteristics of R-134a in horizontal smooth tubes and enhanced tubes fabricated by selective laser melting Int. J. Heat Mass Transfer 126 949–62

[9] Jafari D and Wits W W 2018 The utilization of selective laser melting technology on heat transfer devices for thermal energy conversion applications: a review Renew. Sustain.Energy Rev. 91 420–42

[10] Basha M M, Basha S M, Jain V K and Sankar M R 2022 State of the art on chemical and electrochemical based finishing processes for additive manufactured features Addit. Manuf.58 103028

[11] Chen W, Gu D D, Yang J K, Yang Q, Chen J and Shen X F 2022 Compressive mechanical properties and shape memory effect of NiTi gradient lattice structures fabricated by laser powder bed fusion Int. J. Extrem. Manuf. 4 045002

[12] Calignano F, Manfredi D, Ambrosio E P, Biamino S,Lombardi M, Atzeni E, Salmi A, Minetola P, Iuliano L and Fino P 2017 Overview on additive manufacturing technologies Proc. IEEE 105 593–612

[13] Yang T, Liu T T, Liao W H, Wei H L, Zhang C D, Chen X Y and Zhang K 2021 Effect of processing parameters on overhanging surface roughness during laser powder bed fusion of AlSi10Mg J. Manuf. Process. 61 440–53

[14] Zhou L, Zhu Y, Liu H H, He T R, Zhang C and Yang H Y 2021 A comprehensive model to predict friction factors of fluid channels fabricated using laser powder bed fusion additive manufacturing Addit. Manuf. 47 102212

[15] Chen Z E, Wu X H, Tomus D and Davies C H J 2018 Surface roughness of selective laser melted Ti-6Al-4V alloy components Addit. Manuf. 21 91–103

[16] Ameli M, Agnew B, Leung P S, Ng B, Sutcliffe C J, Singh J and McGlen R 2013 A novel method for manufacturing sintered aluminium heat pipes (SAHP) Appl. Therm. Eng.52 498–504

[17] Melia M A, Duran J G, Koepke J R, Saiz D J, Jared B H and Schindelholz E J 2020 How build angle and post-processing impact roughness and corrosion of additively manufactured 316L stainless steel npj Mater. Degrad. 4 21

[18] Shrestha R, Simsiriwong J and Shamsaei N 2019 Fatigue behavior of additive manufactured 316L stainless steel parts: effects of layer orientation and surface roughness Addit. Manuf. 28 23–38

[19] Zhang W X, Hou W Y, Deike L and Arnold C 2022 Understanding the Rayleigh instability in humping phenomenon during laser powder bed fusion process Int. J.Extrem. Manuf. 3 045201

[20] Gong M C, Meng Y F, Zhang S, Zhang Y Z, Zeng X Y and Gao M 2020 Laser-arc hybrid additive manufacturing of stainless steel with beam oscillation Addit. Manuf.33 101180

[21] Todd I 2017 No more tears for metal 3D printing Nature549 342–3

[22] Bandyopadhyay A, Mitra I, Avila J D, Upadhyayula M and Bose S 2023 Porous metal implants: processing, properties,and challenges Int. J. Extrem. Manuf. 5 032014

[23] Wang D, Wu S B, Fu F, Mai S Z, Yang Y Q, Liu Y and Song C H 2017 Mechanisms and characteristics of spatter generation in SLM processing and its effect on the properties Mater. Des. 117 121–30

[24] Al-Rubaie K S, Melotti S, Rabelo A, Paiva J M, Elbestawi M A and Veldhuis S C 2020 Machinability of SLM-produced Ti6Al4V titanium alloy parts J. Manuf. Process.57 768–86

[25] Khajehmirza H, Heydari Astaraee A, Monti S, Guagliano M and Bagherifard S 2021 A hybrid framework to estimate the surface state and fatigue performance of laser powder bed fusion materials after shot peening Appl. Surf. Sci.567 150758

[26] Nagalingam A P, Yuvaraj H K and Yeo S H 2020 Synergistic effects in hydrodynamic cavitation abrasive finishing for internal surface-finish enhancement of additive-manufactured components Addit. Manuf.33 101110

[27] Urlea V and Brailovski V 2017 Electropolishing and electropolishing-related allowances for powder bed selectively laser-melted Ti-6Al-4V alloy components J.Mater. Process. Technol. 242 1–11

[28] Mingear J, Zhang B, Hartl D and Elwany A 2019 Effect of process parameters and electropolishing on the surface roughness of interior channels in additively manufactured nickel-titanium shape memory alloy actuators Addit. Manuf.27 565–75

[29] Zhao C H, Qu N S and Tang X C 2021 Electrochemical mechanical polishing of internal holes created by selective laser melting J. Manuf. Process. 64 1544–62

[30] An L C, Wang D Y and Zhu D 2022 Combined electrochemical and mechanical polishing of interior channels in parts made by additive manufacturing Addit.Manuf. 51 102638

[31] Guo J, Au K H, Sun C N, Goh M H, Kum C W, Liu K, Wei J,Suzuki H and Kang R K 2019 Novel rotating-vibrating magnetic abrasive polishing method for double-layered internal surface finishing J. Mater. Process. Technol.264 422–37

[32] Zhang J, Chaudhari A and Wang H 2019 Surface quality and material removal in magnetic abrasive finishing of selective laser melted 316L stainless steel J. Manuf. Process.45 710–9

[33] Zhang J and Wang H 2022 Magnetically driven internal finishing of AISI 316L stainless steel tubes generated by laser powder bed fusion J. Manuf. Process. 76 155–66

[34] Nagalingam A P and Yeo S H 2020 Surface finishing of additively manufactured Inconel 625 complex internal channels: a case study using a multi-jet hydrodynamic approach Addit. Manuf. 36 101428

[35] Basha S M, Venkaiah N and Sankar M R 2023 Development and performance evaluation of galactomannan polymer based abrasive medium to finish atomic diffusion additively manufactured pure copper using abrasive flow finishing Addit. Manuf. 61 103290

[36] Wang Z, Li H N, Yu T B, Wang Z X and Zhao J 2019 Analytical model of dynamic and overlapped footprints in abrasive air jet polishing of optical glass Int. J. Mach. Tools Manuf. 141 59–77

[37] Wang Z, Li H N, Yu T B, Chen H and Zhao J 2019 On the predictive modelling of machined surface topography in abrasive air jet polishing of quartz glass Int. J. Mech. Sci.152 1–18

[38] Hu Y 2022 Feasibility of using wet abrasive jet machining to produce flat and crack-free micro-textures on reaction bonded silicon carbide J. Mater. Process. Technol.300 117423

[39] Gao J, Luo X C, Fang F Z and Sun J N 2022 Fundamentals of atomic and close-to-atomic scale manufacturing: a review Int. J. Extrem. Manuf. 4 012001

[40] Xie J, Zhu Z R, Yang T H, Dong M and Li R D 2021 The effect of incident angle on the rebound behavior of micro-particle impacts J. Aerosol Sci. 155 105778

[41] Li H Z, Wang J and Fan J M 2009 Analysis and modelling of particle velocities in micro-abrasive air jet Int. J. Mach. Tools Manuf. 49 850–8

[42] Hu Y, Dai Q W, Huang W and Wang X L 2021 Characteristics of multiphase jet machining: a comparison with the absence of water J. Mater. Process. Technol.291 117050

[43] Gaikwad A, Giera B, Guss G M, Forien J B, Matthews M J and Rao P 2020 Heterogeneous sensing and scientific machine learning for quality assurance in laser powder bed fusion—A single-track study Addit. Manuf.36 101659

[44] Yang T, Liu T T, Liao W H, MacDonald E, Wei H L,Chen X Y and Jiang L Y 2019 The influence of process parameters on vertical surface roughness of the AlSi10Mg parts fabricated by selective laser melting J. Mater. Process.Technol. 266 26–36

[45] Promvonge P 2008 Thermal augmentation in circular tube with twisted tape and wire coil turbulators Energy Convers.Manage. 49 2949–55

[46] Sheikholeslami M, Gorji-Bandpy M and Ganji D D 2015 Review of heat transfer enhancement methods: focus on passive methods using swirl flow devices Renew. Sustain.Energy Rev. 49 444–69

[47] Feng J Y, Zhang Z Y, Yu S Q, Chen X, Wang D, Gu Q M,Zhou C C, Zhang T Y and Liu B X 2023 Novel multiphase jet polishing for complicated structured components produced by laser powder bed fusion Addit. Manuf.72 103634