Abstract
ABS is an engineering plastic that has butadiene part uniformly distributed over the acrylonitrile-styrene matrix. It possesses excellent toughness, good dimensional stability, easy processing ability, chemical resistance, and cheapness. However, it suffers from inherent shortcomings in terms of mechanical strength and vulnerability to environmental conditions. Furthermore, it is non-conducting and easily fretted. Plating on ABS can serve to enhance the strength and structural integrity as well as to improve durability and thermal resistance resulting in metallic properties on the ABS material. ABS is described as the most suitable candidate for plating because it is possible to deposit an adherent metal coating on it by only the use of chemical pretreatment process and without the use of any mechanical abrasion. This article aims to review the history of ABS plastics, properties of ABS, processes and mechanisms of plating, and studies of plating on ABS involving mainly eco-friendly methods of plating by discussing the literature published in recent years. The details of electroplating of ABS carried out in the authors’ laboratory are also presented.
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References
Wang W, Ji S, Lee I (2013) A facile method of nickel electroless deposition on various neutral hydrophobic polymer surfaces. Appl Surf Sci 283:309–320. doi:10.1016/j.apsusc.2013.06.108
Tran V, Massardier V, Guyot A, Nguyen T (1993) Interactions in metal-polymer-metal interfaces. Polymer 34(15):3179–3183
Grundmeier G, Stratmann M (2005) Adhesion and de-adhesion mechanisms at polymer/metal interfaces: mechanistic understanding based on in situ studies of buried interfaces. Annu Rev Mater Res 35:571–615
Holubar P, Jilek M, Sima M (2000) Present and possible future applications of superhard nanocomposite coatings. Surf Coat Technol 133:145–151
Long DP, Blackburn JM, Watkins JJ (2000) Chemical fluid deposition: a hybrid technique for low-temperature metallization. Adv Mater 12(12):913–915
Cheng K, Yang MH, Chiu WW, Huang CY, Chang J, Ying TF, Yang Y (2005) Ink-jet printing, self-assembled polyelectrolytes, and electroless plating: low cost fabrication of circuits on a flexible substrate at room temperature. Macromol Rapid Comm 26(4):247–264
Garcia A (2011) Ligand induced electroless plating of polymers. PhD Dissertation, École Polytech
Arai S, Sato T, Endo M (2011) Fabrication of various electroless Ni–P alloy/multiwalled carbon nanotube composite films on an acrylonitrile butadiene styrene resin. Surf Coat Technol 205(10):3175–3181
Tengsuwan S, Ohshima M (2014) Environmentally benign electroless nickel plating using supercritical carbon-dioxide on hydrophilically modified acrylonitrile–butadiene–styrene. Appl Surf Sci 311:189–200
Dechasit P, Trakarnpruk W (2011) Ni electroless plating of ABS polymer by palladium and tin-free process. J Met Mater Min 21(2):19–27
Wang Z, Li Z, He Y, Wang Z (2011) Study of an environmentally friendly surface etching system of ABS for improving adhesion of electroless Cu film. J Electrochem Soc 158(11):D664–D670
Kim GG, Kang JA, Kim JH, K-y Lee, Kim SJ, Kim S-J (2007) Photocatalytic pretreatment of acrylonitrile–butadiene–styrene polymer for electroless plating. Scripta Mater 56(5):349–351
Di L, Liu B, Song J, Shan D, Yang D-A (2011) Effect of chemical etching on the Cu/Ni metallization of poly (ether ether ketone)/carbon fiber composites. Appl Surf Sci 257(9):4272–4277
Ferreira ODS, Stevens A, Schrauwen C (2009) Quantitative comparison of adhesion in metal-to-plastic systems. Thin Solid Films 517(10):3070–3074
Ma Z, Tan K, Kang E (2000) Electroless plating of palladium and copper on polyaniline films. Synth Met 114(1):17–25
Kulkarni MV, Elangovan K, Hemachandra RK (2013) Effects of electroplating on the mechanical properties of injection molded thermoplastics. Int J Plast Technol. doi:10.1007/s12588-013-9056-6
Vander Togt RT (2011) Bumper and process to bond ionomers to plastic. US Patent 4,999,227
Teixeira LAC, Santini MC (2005) Surface conditioning of ABS for metallization without the use of chromium baths. J Mater Process Technol 170(1):37–41
Shu Z, Wang X (2012) Environment-friendly Pd free surface activation technics for ABS surface. Appl Surf Sci 258(14):5328–5331
Bazzaoui M, Martins J, Bazzaoui E, Albourine A (2012) Environmentally friendly process for nickel electroplating of ABS. Appl Surf Sci 258(20):7968–7975
Tang X, Cao M, Bi C, Yan L, Zhang B (2008) Research on a new surface activation process for electroless plating on ABS plastic. Mater Lett 62(6):1089–1091
Skelly J (2008) Decorative plating processes for common plastic resins: resin selection as well as plastic part design is critical to matching the right finishing method with the intended application. Met Finish 106(6):61–65
Haba B, Sugai K, Morishige Y, Kishida S (1994) Large scale two-step selective aluminum CVD on laser patterned palladium lines. Appl Surf Sci 79:381–384
Chen Y, Reisman A, Turlik I, Temple D (1995) Cu CVD from copper (II) hexafluoroacetylacetonate II. Laser-assisted selective area deposition. J Electrochem Soc 142(11):3911–3918
Seeböck R, Esrom H, Charbonnier M, Romand M, Kogelschatz U (2001) Surface modification of polyimide using dielectric barrier discharge treatment. Surf Coat Technol 142:455–459
Tóth Z, Szörényi T, Toth A (1993) Ar+ laser-induced forward transfer (LIFT): a novel method for micrometer-size surface patterning. Appl Surf Sci 69(1):317–320
McCaskie JE, Tsiamis C (1985) Metal plating on plastics. US Patent 4,520,046
Yang C-Y (2012) Method for preparing electronic component-mounting device. US Patent App. 13/471,108
Hooke R (2014) Method of making shaped charges and explosively formed projectiles. US Patent 8,813,651
Hoyt R, Wrobel J, Cushing J, Jaster M, Voronka N, Frank S, Slostad J, Paritsky L (2014) Structures with internal microstructures to provide multifunctional capabilities. US Patent 14/462,541
Nath J, Shen Y, Nealis E (2014) Systems and methods for manufacturing passive waveguide components. US Patent App. 14/453,563
McCaskie JE (2006) Plating on plastics: a survey of mechanisms for adhering metal films to plastic surfaces. Met Finish 104(5):31–39
Mallory GO, Hajdu JB (1990) Electroless plating: fundamentals and applications. William Andrew, New York
Arnold JR (2003) High quality copper-nickel-chromium plating on plastics: a continuous process and its challenges. Plat Surf Finish 91:355–379
Kulkarni MV, Elangovan K, Hemachandra Reddy K (2012) Improvements in impact resistance property of metal plated abs and Nylon6 thermoplastics. FS J Eng Res 1(1):31–33
Equbal AAKS (2014) Metallization on FDM parts using the chemical deposition technique. Coatings 4:574–586. doi:10.3390/coatings4030574
Tang X, Wang J, Wang C, Shen B (2011) A novel surface activation method for Ni/Au electroless plating of acrylonitrile–butadiene–styrene. Surf Coat Technol 206(6):1382–1388
Garcia A, Berthelot T, Viel P, Mesnage A, Jégou P, Nekelson F, Roussel S, Palacin S (2010) ABS polymer electroless plating through a one-step poly(acrylic acid) covalent grafting. ACS Appl Mater Interfaces 2(4):1177–1183
Kuzmik JJ (1990) Electroless plating: fundamentals and applications (Reprint Edition). In: Mallory GO, Hajdu JB (eds). The American Electroplaters and Surface Finishers Society, Orlanda, FL, pp 377–399
Hanna F, Hamid ZA, Aal AA (2004) Controlling factors affecting the stability and rate of electroless copper plating. Mater Lett 58(1):104–109
Equbal A, Sood AK (2014) Electroless plating of copper on different shaped ABS parts: a comparison. Int J Adv Mater Manuf Charact 4(1):32–41. doi:10.11127/ijammc.2014.03.05
Li D, Goodwin K, Yang C-L (2008) Electroless copper deposition on aluminum-seeded ABS plastics. J Mater Sci 43(22):7121–7131. doi:10.1007/s10853-008-3031-1
Liu H-P, Li N, Bi S-F, Li D-Y, Zou Z-L (2008) Effect of organic additives on the corrosion resistance properties of electroless nickel deposits. Thin Solid Films 516(8):1883–1889
Lu G, Li X, Jiang H (1996) Electrical and shielding properties of ABS resin filled with nickel-coated carbon fibers. Compos Sci Technol 56(2):193–200
Walsh F, De León CP, Kerr C, Court S, Barker B (2008) Electrochemical characterisation of the porosity and corrosion resistance of electrochemically deposited metal coatings. Surf Coat Technol 202(21):5092–5102
Agarwala RC, Agarwala V, Sharma R (2006) Electroless ni-p based nanocoating technology—a review. Synth React Inorg Met-Org Nano-Met Chem 36(6):493–515
Balaraju J, Narayanan TS, Seshadri S (2003) Electroless Ni–P composite coatings. J Appl Electrochem 33(9):807–816
Tzeng S-S, Chang F-Y (2001) EMI shielding effectiveness of metal-coated carbon fiber-reinforced ABS composites. Mater Sci Eng A 302(2):258–267
Charbonnier M, Romand M, Goepfert Y (2006) Ni direct electroless metallization of polymers by a new palladium-free process. Surf Coat Technol 200(16):5028–5036
Sahoo P, Das SK (2011) Tribology of electroless nickel coatings—a review. Mater Des 32(4):1760–1775
Sudagar J, Lian J, Sha W (2013) Electroless nickel, alloy, composite and nano coatings—a critical review. J Alloys Compd 571:183–204
Agarwala R, Agarwala V (2003) Electroless alloy/composite coatings: a review. Sadhana 28(3–4):475–493
Equbal A, Dixit NK, Sood AK (2013) Electroless plating on plastic. IJSER 4
Maul J, Frushour BG, Kontoff JR, Eichenauer H, Ott K-H, Schade C (2000) Polystyrene and styrene copolymers. In: Ullmann’s encyclopedia of industrial chemistry. Wiley, New York. doi:10.1002/14356007.a21_615.pub2
Federation BP (2015) A history of plastics. British Plastics Federation. http://www.bpf.co.uk/plastipedia/plastics_history/Default.aspx
Brickipedia (2015) Acrylonitrile butadiene styrene. Brickipedia. http://lego.wikia.com/wiki/Brickipedia:Brickipedians
Truss R, Chadwick G (1976) Tensile deformation behaviour of ABS polymers. J Mater Sci 11(1):111–117. doi:10.1007/BF00541081
Truss R, Chadwick G (1977) The fracture behaviour of ABS polymers. J Mater Sci 12:503–508. doi:10.1007/BF00540274
Bucknall C, Clayton D, Keast WE (1972) Rubber-toughening of plastics- Part 2 Creep mechanisms in HIPS/PPO blends. J Mater Sci 7(12):1443–1453. doi:10.1007/BF00574936
Kulich DM, Gaggar S, Lowry V, Stepien R (2004) Acrylonitrile–butadiene–styrene (ABS) polymers. Kirk-Othmer Encyclopedia of Chemical Technology
Moore J (1973) Acrylonitrile–butadiene–styrene (ABS)-a review. Composites 4(3):118–130
ABS material data sheet. teststandard.com/data_sheets/ABS_Data_sheet.pdf
Lifton VA, Lifton G, Simon S (2014) Options for additive rapid prototyping methods (3D printing) in MEMS technology. Rapid Prototyp J 20(5):403–412
Huang SH, Liu P, Mokasdar A, Hou L (2013) Additive manufacturing and its societal impact: a literature review. Int J Adv Manuf Technol 67:1191–1203. doi:10.1007/s00170-012-4558-5
Yuan L (2008) A preliminary research on development of a fiber-composite, curved FDM system. National University of Singapore
Wong KV, Hernandez A (2012) A review of additive manufacturing. ISRN Mech Eng. doi:10.5402/2012/208760
Yan XG, Gu PENG (1996) A review of rapid prototyping technologies and systems. Comput Aided Des 28(4):307–318
Diegel O, Reay S, Singamneni S, Withell A (2010) Tools for sustainable product design: additive manufacturing. J Sustain Dev 3(3):68–75
Stereolithography; S-PCHPi, http://spie.org/x91418.xml. Accessed 27 Sept 2015
3DSystems. 30 years of innovation. http://www.3dsystems.com/30-years-innovation. Accessed 27 Sept 2015
Crump SS (1992) Apparatus and method for creating three-dimensional objects. US Patent 5,121,329
Sachs EM, Haggerty JS, Cima MJ, Williams PA (1993) Three-dimensional printing techniques. US Patent 5,204,055
Gross BC, Erkal JL, Lockwood SY, Chen C, Spence DM (2014) Evaluation of 3D printing and its potential impact on biotechnology and the chemical sciences. Anal Chem. doi:10.1021/ac403397r
Chen S, Patel N, Schaffer D, Maharbiz M (2011) Trap and corral: a two-step approach for constructing and constraining dynamic cell contact events in differentiating progenitor cell populations. J Micromech Microeng 21(5):054027
Kannan S, Senthilkumaran D (2014) Assessment of mechanical properties of Ni-coated abs plastics using FDM process. IJMME-IJENS 14(3):30–35
Monzon MD, Diaz N, Benitez AN, Marrero MD, Hernandez PM (2010) Advantages of fused deposition modeling for making electrically conductive plastic. Int Conf Manuf Autom. doi:10.1109/ICMA.2010.36
Kannan S, Senthilkumaran D, Elangovan, K. (2013) Development of composite materials by rapid prototyping technology using FDM method. IEEE, 281–283
Chandrasekhar U, Venkatesh K, Elangovan K, Rangaswamy T (2011) Integrated use of rapid prototyping and metal plating techniques for development of micro air vehicles. IJEST 3(1):188–193
Equbal A, Sood AK (2015) Investigations on metallization in FDM build ABS part using electroless deposition method. J Manuf Process 19:22–31
Saleh N, Hopkinson N, Hague RJ, Wise S (2004) Effects of electroplating on the mechanical properties of stereolithography and laser sintered parts. Rapid Prototyp J 10(5):305–315
Kannan S, Senthilkumaran D (2014) Investigating the influence of electroplating layer thickness on the tensile strength for fused deposition processed ABS thermoplastics. IJET 6(2):1047–1052
Lurie KL, Smith GT, Khan SA, Liao JC, Ellerbee AK (2014) Three-dimensional, distendable bladder phantom for optical coherence tomography and white light cystoscopy. J Biomed Opt 19(3):036009
Stremsdoerfer G, Ghanem F, Saikali Y, Fares-Karam A (2003) Copper deposition by dynamic chemical plating. J Mater Sci 38(15):3285–3291. doi:10.1023/A:1025190022069
Weng D, Landau U (1995) Direct electroplating on nonconductors. J Electrochem Soc 142(8):2598–2604
Krishnan KH, John S, Srinivasan K, Praveen J, Ganesan M, Kavimani P (2006) An overall aspect of electroless Ni–P depositions—a review article. Metall Mater Trans A 37(6):1917–1926
Feldstein N (1981) Dispersions for activating non-conductors for electroless plating. US Patent 4,282,271
Feldstein N (1982) Electroless plating. US Patent 4,321,285
Equbal A, Equbal A, Sood AK (2014) Metallization on FDM processed parts using electroless procedure. Proc Mater Sci 6:1197–1206. doi:10.1016/j.mspro.2014.07.193
Kirman T (1972) Electroless nickel plating process for nonconductors. US Patent 3,684,572
Feldstein N (1976) Electroless plating process employing non-noble metal hydrous oxide catalyst. US Patent 3,993,799
Elmore G, Davis K (1969) Mechanism of bonding electroless metal to organic substrates. J Electrochem Soc 116(10):1455–1458
Abu-Isa IA (1973) Metal plating of polymeric surfaces. Polym-Plast Technol Eng 2(1):29–65
Metal plating of thermoplastics (1971). US Patent 3,620,804
Magallón-Cacho L, Pérez-Bueno J, Meas-Vong Y, Stremsdoerfer G, Espinoza-Beltrán F (2011) Surface modification of acrylonitrile-butadiene-styrene (ABS) with heterogeneous photocatalysis (TiO2) for the substitution of the etching stage in the electroless process. Surf Coat Technol 206(6):1410–1415
Krulik GA (1980) Method for electroless plating on nonconductive substrates using palladium/tin catalyst in aqueous solution containing a hydroxy substituted organic acid. US Patent 4,182,784
Daneshmand S, Aghanajafi C, Nadooshan AA (2010) The effect of chromium coating in RP technology for airfoil manufacturing. Sadhana 35(5):569–584
Gabe D (1977) Corrosion and protection of sintered metal parts. Powder Metall 20(4):227–231
Conlan W, Dutkewych O (1973) Pre-etch treatment of acrylonitrile-butadiene-styrene resins for electroless plating. US Patent 3,769,061
Weakley-Bollin SC (2010) The effect of injection molding conditions on the near-surface rubber morphology, surface chemistry and adhesion performance of semi-crystalline and amorphous polymers. University of Michigan, Ann Arbor
Beacom SE, Wedel RG (1970) Scanning electron microscopy of plastic surfaces as related to metal deposition. J Colloid Interface Sci 34(3):375–386
Kanani N (2004) Electroplating: basic principles, processes and practice. Elsevier, Oxford
Kato K (1968) Electron microscope studies on the etching of ABS mouldings for electroplating. Polymer 9:419–424
Dennis JK, Such TE (1993) Nickel and chromium plating. Elsevier, Amsterdam
Donovan LP, Timmer RJ (2002) Decorative chrome electroplate on plastics. US Patent 6,468,672
Hurley JL (1975) Decorative electroplates for plastics. US Patent 3,868,229
Narcus H (1979) Bright electroless plating process and plated articles produced thereby. US Patent 4,169,171
Gutzeit G, Talmey P (1958) Chemical nickel plating processes and baths therefor. US Patent 2,935,425
Jones RD (2005) Decoratively finished thermoplastic product and method for manufacturing same. US Patent App. 10/649,190
Metal plating of plastics (1970). US Patent 3,501,332
Marie OJ (1966) Method of electrodepositing a corrosion resistant nickel-chromium coating and products thereof. US Patent 3,282,810
Omura Y (1997) Process for catalyzation in electroless plating. US Patent 5,660,883
Odekerken JM (1972) Process for coating an object with a bright nickel/chromium coatin. US Patent 3,644,183
Eileen M (1972) Process for electroless plating of abs resins. US Patent 3,689,303
Paul T, Crehan WJ (1953) Process of chemical nickel plating. US Patent 2,658,839
Patel GN, Bolikal D, Patel HH (1992) Chromic acid free etching of polymers for electroless plating. US Patent 07/488,256
Brown SD, Ottavio ED, Kuzmik JJ, Grunwald JJ (1972) Method of treating plastic substrates and process for plating thereon. US Patent 3682786
Kuzmik J (1974) Preparation of plastic substrates for electroless plating and solutions therefor. US Patent 3,790,400
Roubal J, Korpiun J (1977) Pretreatment of plastic materials for metal plating. US Patent 06/701,585
Amelio WJ, Jung DY, Markovich V, Sambucetti CJ (1986) Process for manufacturing a concentrate of a palladium-tin colloidal catalyst. US Patent 09/831,008
Naruskevicius L, Rozovskis G, Vinkevicius J, Baranauskas M, Mobius A, Pies P (2004) Etching plastic surface under mild conditions, treating with solution containing cobalt, silver, tin, and/or lead salts having ph from about 7.5 to about 12.5, treating with sulfide solution, metallizing. US Patent US 6712948 B1
De De Minjer CH, vd Boom PFJ (1973) The nucleation with SnCl2–PdCl2 solutions of glass before electroless plating. J Electrochem Soc 120(12):1644–1650
Lindsay JH, La Sala J, Ghorashi HM (1983) Etching and bonding oxygen to acrylonitrile-butadiene-styrene terpolymer or polyphenylene ethers, vacuum deposition, followed by electrodeposition of metal films. US Patent 4,395,313
Cohen R, Meek R (1976) The chemistry of palladium–tin colloid sensitizing processes. J Colloid Interface Sci 55(1):156–162
Lindsay DJ, Feldstein N (1989) Activators for colloidal catalysts in electroless plating processes. US Patent 4,820,547
Comparison of sealing methods for FDM materials (2011). Stratasys
McCarthy DL, Williams CB (2012) Creating complex hollow metal geometries using additive manufacturing and electroforming. In: International Solid Freeform Fabrication Symposium, pp 108–120
Wang Y, Bian C, Jing X (2013) Adhesion improvement of electroless copper plating on phenolic resin matrix composite through a tin-free sensitization process. Appl Surf Sci 271:303–310
Wang G, Li N, Li D (2007) Effect of Pd ions in the chemical etching solution. J Univ Sci Technol Beijing Miner Metall Mater 14(3):286–289
Inagaki N, Kimura H (2009) Electroless copper plating on acrylonitrile butadiene styrene material surfaces without chromic acid etching and a palladium catalyst. J Appl Polym Sci 111(2):1034–1044
Arai S, Kanazawa T (2014) Electroless deposition and evaluation of Cu/multiwalled carbon nanotube composite films on acrylonitrile butadiene styrene resin. Surf Coat Technol 254:224–229
Li D, Yang C-L (2009) Acidic electroless copper deposition on aluminum-seeded ABS plastics. Surf Coat Technol 203(23):3559–3568
Helmut K, Eugen M-S (1972) Process for the pretreatment of plastic for the purpose of adhesive metallization. US Patent 3,702,285
Isa A, Vincent W (1974) Plating pre-treatment in acrylonitrile butadiene styrene. US Patent 3,847,648
Kang DH, Choi JC, Choi JM, Kim TW (2010) An environment-friendly surface pretreatment of ABS plastic for electroless plating using chemical foaming agents. Trans Electr Electron Mater 11(4):174–177
Zhao W, Ma Q, Li L, Li X, Wang Z (2014) Surface modification of ABS by photocatalytic treatment for electroless copper plating. J Adhes Sci Technol 28(5):499–511
Kim GG, Kang JA, Kim SJ, Kim SJ, Shin SH (2007) Improved adhesion to ABS plastics by a photocatalytic reaction. In: Materials science forum. Trans Tech Publication, Dürnten, pp 75–78
European Parliament and the Council, 2002/95/EC, 2003
WHO regional publications (2000), Air quality guidelines for Europe. 2nd edn. Copenhagen
Bazzaoui M, Martins J, Bazzaoui E, Albourine A, Wang R, Hong P-D (2013) A simple method for acrylonitrile butadiene styrene metallization. Surf Coat Technol 224:71–76
Parkinson R, Hart T, Electroplating on plasticts. NiDi Technical Series, Nickel Development Institute
Li Z, Li N, Yin L, He Y, Wang Z (2009) An environment-friendly surface pretreatment of ABS resin prior to electroless plating. Electrochem Solid-State Lett 12(12):D92–D95
European Parliament and the Council, 2005/90/EC, 2006
Yang Z, He Y, Li Z, Li N, Wang Z (2011) Adhesion improvement of ABS resin to electroless copper by H2SO4–MnO2 colloid with ultrasound-assisted treatment. J Adhes Sci Technol 25(11):1211–1221
Ma Q, Zhao W, Li X, Li L, Wang Z (2013) Study of an environment-friendly surface pretreatment of ABS-polycarbonate surface for adhesion improvement. Int J Adhes Adhes 44:243–249
Brandes M (2007) Advances in methods for plating on plastics tout advantages over conventional technologies: alternative plating procedures negate the need for chromic sulfuric acid, resulting in a more environmentally friendly process for electroplaters. Met Finish 105(3):35–40
Brocherieux A, Dessaux O, Goudmand P, Gengembre L, Grimblot J, Brunel M, Lazzaroni R (1995) Characterization of nickel films deposited by cold remote nitrogen plasma on acrylonitrile–butadiene–styrene copolymer App. Surf Sci 90:47–58
Tsuru Y, Mochinaga K, Ooyagi Y, Foulkes FR (2003) Application of vapor-deposited carbon and zinc as a substitute for palladium catalyst in the electroless plating of nickel. Surf Coat Technol 169:116–119
Tang X, Bi C, Han C, Zhang B (2009) A new palladium-free surface activation process for Ni electroless plating on ABS plastic. Mater Lett 63(11):840–842
Yen P-C (1995) Improved ABS plastic activating treatment for electroless copper plating. Polymer 36(17):3399–3400
Ono S, Naitoh K, Osaka T (1999) Initial propagation stage of direct copper plating on non-conducting substrates. Electrochim Acta 44(21):3697–3705
Gui-Xiang W, Ning L, Hui-Li H, Yuan-Chun Y (2006) Process of direct copper plating on ABS plastics. Appl Surf Sci 253(2):480–484
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This research was supported by the Space Application Centre, ISRO, Government of India with the project ID ‘OGP 103.’
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Olivera, S., Muralidhara, H.B., Venkatesh, K. et al. Plating on acrylonitrile–butadiene–styrene (ABS) plastic: a review. J Mater Sci 51, 3657–3674 (2016). https://doi.org/10.1007/s10853-015-9668-7
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DOI: https://doi.org/10.1007/s10853-015-9668-7