• Title/Summary/Keyword: electronic scrap

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Bioleaching of valuable metals from electronic scrap using fungi(Aspergillus niger) as a microorganism (곰팡이균(Aspergillus niger)을 이용(利用)한 전자스크랩중 유가금속(有價金屬)의 미생물(微生物) 침출(浸出) 연구(硏究))

  • Ahn, Jae-Woo;Jeong, Jin-Ki;Lee, Jae-Chun;Kim, Dong-Gin
    • Resources Recycling
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    • v.14 no.5 s.67
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    • pp.24-31
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    • 2005
  • In order to recover valuable metals from fine-grained electronic waste, bioleaching of Cu, Zn, Al, Co, Ni, Fe, Sn and Pb were carried out using Aspergillus niger as a leaching microorganism in a shaking flask. Aspergillus niger was able to grow in the presence of electronic scrap. The formation of organic acids(citric and oxalic acid) from Aspergillus niger caused the mobilization of metals from waste electronic scrap. In a preliminary study, in order to obtain the data on the leaching of Cu, Zn, Al, Fe, Co and Ni from electronic scrap, chemical leaching using organic acid(Citric acid and Oxalic acid) was accomplished. At the electronic scrap concentration of 50 g/L, Aspergillus niger were able to leach more than 95% of the available Cu, Co. But Al, Zn, Pb and Sn were leached about 15-35%. Ni and Fe were detected in the leachate less than 10%.

A Novel Process for Extracting Valuable Metals from Waste Electric and Electronic Scrap Using Waste Copper Slag by a High temperature Melting Method (폐동(廢銅)슬래그를 활용(活用)한 폐전기전자(廢電氣電子) 스크랩으로부터 유가금속(有價金屬) 고온용융추출(高溫鎔融抽出) 공정(工程) 개발(開發))

  • Kim, Byung-Su;Lee, Jae-Chun;Lee, Kwang-Ho
    • Resources Recycling
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    • v.16 no.3 s.77
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    • pp.27-33
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    • 2007
  • It is very important in the view point of resource recycling to recover valuable metals such as copper and tin from waste electric and electronic scrap. The waste electric and electronic scrap contains significant amounts of copper, tin, and so on. In this study, a new process for extracting copper and tin contained in the waste electric and electronic scrap using waste copper slag which is generated from the melting furnace of copper smelter was presented. Advantage of the proposed process is to reuse waste copper slag instead of new fluxes as slag formatives. In each experiment, the waste electric and electronic scrap and waste copper slag were melted inputting suitable amount of CaO as an additional flux. Up to 95% of copper and 85% of tin in the raw material were extracted in a Cu-Fe-Sn alloy phase.

I-V characteristics of ground electrode fabricated using an aluminium scrap (알루미늄 스크랩을 이용하여 제작한 접지 전극의 전압-전류 특성)

  • 이우선;정용호;박진성
    • Electrical & Electronic Materials
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    • v.9 no.8
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    • pp.806-812
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    • 1996
  • I-V characteristics of ground electrode fabricated using an aluminium scrap are presented. We fabricated several shapes of aluminium scraps and aluminium electrodes. The results show that the current of aluminium electrode increased linearly by the voltage increase. AC breakdown voltage of copper plate electrode was higher than that of aluminium electrode. AC breakdown current of aluminium electrode was higher than that of copper plate electrode. As applied voltage increased, grounding resistance of aluminum electrode decreased linearly.

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Bioleaching of electronic scrap using Aspergillus niger (Aspergillusniger를 이용한 전자스크랩의 미생물 침출 연구)

  • Ahn, Jae-Woo;Jeong, Jin-Ki;Lee, Jae-Chun;Kim, Dong-Gin;Ahn, Jong-Gwan
    • Proceedings of the Korean Institute of Resources Recycling Conference
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    • 2005.05a
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    • pp.214-223
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    • 2005
  • In order to recover valuable metals from fine-grained electronic waste, bioleaching of Cu, Zn, Al, Co, Ni, Sn and Pb were carried out using Aspergillus niger as a leaching microorganism in a shaking flask. Aspergillus niger was able to grow in tile presence of electronic scrap. The formation of organic acids(citric and oxalic acid) from Aspergillus niger caused the mobilization of metals from waste electronic scrap. In a preliminary study, in order to obtain the data on the leaching of Cu, Zn, Al, Co and Ni, the metal leaching behaviours were accomplished using Organic acid(Citric acid and Oxalic acid) instead of Aspergillus niger. At the electronic scrap concentration of 50g/L, Aspergillus niger were able to leach more than 95% of the available Cu, Co. But Al, Zn, Pband Sn were able to leach about 15-35%. Ni and Fe were detected in the leachate less than 10%.

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Pretreatment Process for the Reuse of Solder Scrap (솔더 스크랩의 재생을 위한 전처리 공정)

  • Jung, Woo-Gwang;Kim, Byung-Soo;Lee, Jae-Chun
    • Korean Journal of Materials Research
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    • v.21 no.12
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    • pp.673-678
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    • 2011
  • With an increased production of Printed Circuit Boards (PCBs) in electronic equipment, the consumption of solder alloys is growing globally. Recently, increasing importance of recycling solder scrap has been recognized. Generally, solder scrap contains many impurities such as plastics and other metals. Hazardous components must be eliminated for recycling solder scrap. The present work studied pretreatment for reuse of solder scrap alloys. An experiment was conducted to enhance the cleanliness of solder scrap melt and eliminate impurities, especially lead. Physical separation with sieving and magnetic force was made along with pyrometallurgical methods. A small decrease in lead concentration was found by high temperature treatment of solder scrap melt. The impurities were removed by filtration of the solder scrap melt, which resulted in improvement of the melt cleanliness. A very low concentration of lead was achieved by a zone melting treatment with repeated passage. This study reports on a pretreatment process for the reuse of solder scrap that is lead free.

Recovery of Gold from Electronic Scrap by Hydrometallurgical Process

  • Lee, Churl-Kyoung;Rhee, Kang-In;Sohn, Hun-Joon
    • Resources Recycling
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    • v.6 no.3
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    • pp.36-40
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    • 1997
  • A series of processes has been developed to recover the gold from electronic scrap containing about 200~600 ppm Au. First, mechanical beneficiation including shredding, crushing and screening was employed. Results showed that 99 percent of gold component leaves in the fraction of under 1mm of crushed scrap and its concentration was enriched to about 800 ppm without incineration. The crushed scrap was leached in 50% aqua regia solution and gold was completely dissolved at $60^{\circ}C$ withing 2 hours. Other valuable metals such as silver, copper, nickel and iron were also dissolved. The resulting solution was boiled to remove nitrous compounds in the leachate. Finally, a newly designed electrolyzer was tested to recover the gold metal. More than 99% of gold and silver were recovered within an hour by electrowinning process.

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Viscosity Change of Al2O3-SiO2-CaO Slag System with Used Electronic Scrap (산화처리된 PCB 스크랩을 첨가한 Al2O3-SiO2-CaO 3성분계 슬래그의 점도)

  • Kwon, Eui-Hyuk;Han, Sin-Suk;Ji, Jae-Hong;Han, Jeong-Whan;You, Byung-Don;Kim, Byung-Soo;Lee, Jae-Chun
    • Korean Journal of Materials Research
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    • v.13 no.4
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    • pp.239-245
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    • 2003
  • In order to explore the possibility to extract precious metals from PCB(Printed Circuit Board) scrap by gravity separation, a high temperature melting process was adopted, from the recycling view point, to investigate the influence of viscosity on A1$_2$$O_3$-CaO$-SiO_2$ slag system composed of PCB scrap. For optimizing the pre-treatment process of PCB scrap, an experimental condition for the complete calcination and oxidation of organic materials in PCB scrap was established and a quantitative analysis of oxidized PCB scrap was also carrie out. It was found that 6 hours were enough for the complete oxidation of PCB scrap at 1273 K in an atmosphere condition. A slag, l5wt%$A1_2$$O_3$-45wt%CaO-40wt%SiO$_2$, was chosen as a basic slag composition which is determined based on the quantitative analysis of PCB scrap. Viscosities were measured in slag systems both made from pure fluxes and from PCB scrap with additional fluxes. Slag viscosities composed of pure fluxes were measured to be 5.29 poise and 30.52 poise at temperatures of 1773 and 1573 K, whereas that of PCB scrap with additional fluxes were 3.37 poise and 69.89 poise, respectively.

Manufacturing Technology for Tape Casting and Soft Magnetic Powder Using by Recycling Scrap of Fe-Si Electrical Sheet (Fe-Si 전기강판 폐스크랩을 이용한 연자성 분말 및 테이프 제조기술)

  • Hong, Won Sik;Kim, Sang Hyun;Park, Ji-Yeon;Oh, Chulmin;Lee, Woo Sung;Kim, Seung Gyeom;Han, Sang Jo;Shim, Geum Taek;Kim, Hwi-Jun
    • Journal of the Microelectronics and Packaging Society
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    • v.23 no.2
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    • pp.11-18
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    • 2016
  • This study focused on examining the possibility for recycling of Fe-Si electric sheet. We manufactured Fe-6.5Si mother alloy using by Fe-Si electric sheet scrap for transformer core materials. And then, soft magnetic alloy powder which diameter and shape were $45{\sim}150{\mu}m$ and sphere type was prepared by gas atomization process. As we compared to commercial Fe-6.5Si powder, its diameter distribution and microstructure of recycled powder was a similar. To investigate the possibility of reusing the soft magnetic composite sheet for electronics, recycled powder was treated to have a high aspect ratio (AR), and we finally obtained the 65~66 AR and $2.3{\mu}m$ thickness powder. To release the residual stress of powder, heat treatment was conducted under $300{\sim}400^{\circ}C$, $N_2$ gas. And then, soft magnetic sheet was made by tape casting process using by those powders. After the density and permeability of tape was measured, and we confirmed that the recycled Fe-Si electric sheet scrap was possible to reuse the soft magnetic materials of electronics.

Soft Magnetic Property of Ternary Fe-9.8Si-6.0Al Alloy Using by Recycling Fe-Si Electrical Steel Sheet Scrap (Fe-Si 전기강판 폐스크랩을 이용한 3원계 Fe-9.8Si-6.0Al 합금의 연자성 특성)

  • Hong, Won Sik;Yang, Hyoung Woo;Park, Ji-Yeon;Oh, Chulmin;Lee, Woo Sung;Kim, Seung Gyeom;Han, Sang Jo;Shim, Geum Taek;Kim, Hwi-Jun
    • Journal of the Microelectronics and Packaging Society
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    • v.24 no.1
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    • pp.1-8
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    • 2017
  • Fe-9.8Si-6.0Al mother alloy was manufactured using by Fe-3.5Si recycled scrap and Si powder. And then, soft magnetic alloy powder of $D_{50}$ size and sphere type were prepared by gas atomization process. To obtain the soft magnetic powder of a high aspect ratio, in the first, we conducted the ball milling process for 8 hours. And heat treatment was performed under $650^{\circ}C$, 2 hours and $N_2$ atmosphere condition for reducing the residual stress of the powder. Based on these process, we made around $50{\mu}m$ diameter Fe-9.8Si-6.0Al powder, which morphology and shape was a similar to the commercial Fe-Si-Al powder. Finally, the soft magnetic sheets were prepared by tape casting process using by those powders. The permeability of the tape casting sheet was measured, and we confirmed the possibility of reusing to the soft magnetic materials of Fe-Si electric sheet scrap.

Biological Leaching of Cu, Al, Zn, Ni, Co, Sn and Pb from Waste Electronic Scrap using Thiobacillus Ferrooxidans (廢電子스크랩에서 Thiobacillus ferrooxidans를 이용한 Cu, Al, Zn, Ni, Co, Sn 및 Pb의 浸出)

  • Ahn, Jae-Woo;Kim, Myeong-Woon;Jeong, Jin-Ki;Lee, Jae-Chun;Kim, Dong-Gin;Ahn, Jong-Gwan
    • Resources Recycling
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    • v.14 no.1
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    • pp.17-25
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    • 2005
  • In order to recover valuable metals from the waste electronic scrap, bioleaching of Cu, Zn, Al, Co, Ni, Sn and Pb was carried out using Thiobacillus ferrooxidans as a leaching microorganism in a shaking flask. In a preliminary study, to obtain the data on the leaching of Cu, Zn, Al, Co and Ni, the metal leaching was accomplished using metal powers instead of electronic scrap. The leaching percentaga of Cu, Zn, Co, Al and Ni powers was reduced with the increase of metal power concentration in solution. Below the metal concentration of 0.5 g/L, more than 85% of Cu, Co and Zn powers was leached out. At the electronic scrap concentration of 100 g/L, Thiobacillus ferrooxidans were able to leach more than 90% of the available Cu and Co while Al, Zn and Ni were able to leach less than 40%. Pb and Sn were not detected in the leachate. Pb was precipitated as PbSO$_4$, whereas Sn precipitated probably as SnO.