An Oxidative Chloride Stripping Solution for 14K Gold Alloys

Kwangbae Kim; Ikgyu Kim; Ohsung Song

Korean Journal of Materials Research, Vol.30, No.8, 393-398, August, 2020

DOI10.3740/MRSK.2020.30.8.393 Export Citation

An Oxidative Chloride Stripping Solution for 14K Gold Alloys

Kwangbae Kim, Ikgyu Kim, and Ohsung Song^†

Department of Materials Science and Engineering, University of Seoul, 163, Seoulsiripdae-ro, Dongdaemun-gu, Seoul 02504, Republic of Korea

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We propose a novel stripping solution containing acids (HCl and HNO3), an oxidant [(NH4)2S2O8], and complexing agents (NaCl and citric acid) to remove surface passivation layers from 14K gold alloys fabricated using an investment casting process. The optimized solution employing only HCl acid is determined by varying molar fractions of HCl and HNO3 on 14K yellow gold samples. Stripping properties are also identified for red and white gold alloy samples under the optimized stripping conditions. The removal of passivation layers, weight loss, and microstructure evolution are characterized using Raman spectroscopy, a precision scale, and optical microscopy. The proposed stripping solution effectively removes passivation layers more rapidly than conventional cyanide stripping. Weight loss increases linearly for up to 5 min for all 14K gold alloys. Red gold exhibits the greatest weight loss, followed by yellow gold and white gold. The results of microstructural analysis reveal that the conformal stripping occurs according to time. These results imply that the proposed oxidative chloride stripping might replace conventional cyanide stripping.

Keywords:gold stripping;oxidative chloride;14K gold alloy;passivation layer

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Cretu C, Lingen EVD, Gold Bull., 32, 15 (1999)
Diaz MA, Kelsall GH, Welham NJ, J. Electroanal. Chem., 361(1-2), 25 (1993)
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Ingo GM, Chiozzini G, Faccenda V, Bemporad E, Riccucci C, Thermochim. Acta, 321, 173 (1998)
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[1] Pattnaik S, Karunakar DB, Jha PK, J. Mater. Process. Technol., 212, 2332 (2012)

[2] Phetrattanarangsi T, Puncreobutr C, Khamkongkaeo A, Thongchai C, Sakkomolsri B, Kuimalee S, Kidkhunthod P, Chanlek N, Lohwongwatanaa B, Thermochim. Acta, 657, 144 (2017)

[3] Lorea JV, O`Rourke TF, US patent 2,612,898 (1952).

[4] Grimwade M, Gold Technol., 26, 16 (1999)

[5] Wadsworth ME, Zhu X, Thompson JS, Pereira CJ, Hydrometallurgy, 57, 1 (2012)

[6] Konyratbekov SS, Baikonurova A, Akcil A, Miner. Proc. Ext. Met. Rev., 36, 198 (2015)

[7] Alviti S, In processing 23rd Santa Fe Symposium Jewelry Manufacturing Technology, p.25 (New Mexico, USA, 2003).

[8] Galanin SI, Kalinnikov IV, Surf. Eng. Appl. Electrochem., 44, 359 (2008)

[9] Senanayake G, Miner. Eng., 17(6), 785 (2004)

[10] Wang XH, In processing 3rd international symposium Electrochemistry in Mineral and Metal Processing, p.425 (1992).

[11] Jeffrey MI, Breuer PL, Choo WL, Metall. Mater. Trans. B-Proc. Metall. Mater. Proc. Sci., 32B, 979 (2001)

[12] Baghalha M, Int. J. Miner. Process., 82(4), 178 (2007)

[13] Baglin EG, Gomes JM, Carnahan TG, Snider JM, United States Department of the Interior, Bureau of Mines Report of Investigation 8970 (1985).

[14] Alzate A, Lopez ME, Serna C, Waste Manage., 57, 113 (2016)

[15] Thesauro FDR, Brusic V, Thompson CC, Bayer BP, US Patent 7,161,247 (2007).

[16] Cretu C, Lingen EVD, Gold Bull., 32, 15 (1999)

[17] Diaz MA, Kelsall GH, Welham NJ, J. Electroanal. Chem., 361(1-2), 25 (1993)

[18] Vinals J, Nunez C, Herreros O, Hydrometallurgy, 38, 125 (1995)

[19] Ingo GM, Chiozzini G, Faccenda V, Bemporad E, Riccucci C, Thermochim. Acta, 321, 173 (1998)

[20] Bello A, Arhin DD, Makgopa K, Fabiane M, Manyala N, Am. J. Mater. Sci., 4, 64 (2014)

[21] Marsde JO, House CL, The chemistry of gold extraction, 2nd ed., p.118 (2006).