Acetic acid mediated leaching of metals from lead-free solders

Background The replacement of lead (Pb)-bearing solders by several Pb-free solders is a subject of intense research in these days due to the toxic effects of Pb on the environment. However, the Pb-free solders contain metals such as silver (Ag), copper (Cu), and zinc (Zn). The increasing use of thes...

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Published inBioresources and bioprocessing Vol. 4; no. 1; pp. 1 - 10
Main Authors Jadhav, U., Su, C., Chakankar, M., Hocheng, H.
Format Journal Article
LanguageEnglish
Published Berlin/Heidelberg Springer Berlin Heidelberg 03.10.2017
Springer Nature B.V
SpringerOpen
Subjects
Acetic acid
Acids
Biochemical Engineering
Chemistry
Chemistry and Materials Science
Copper
Ecological risk assessment
Environmental Engineering/Biotechnology
Environmental protection
Hazardous materials
Heavy metals
Industrial and Production Engineering
Industrial waste
Leaching
Lead
Lead free
Materials recovery
Metal recovery
Metals
Process parameters
Resource recovery
Shaking
Silver
Soldering
Solders
Tin
Zinc
Industrial waste
Solders
Metal recovery
Acetic acid
Online AccessGet full text
ISSN2197-4365
2197-4365
DOI10.1186/s40643-017-0173-5

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Abstract Background The replacement of lead (Pb)-bearing solders by several Pb-free solders is a subject of intense research in these days due to the toxic effects of Pb on the environment. However, the Pb-free solders contain metals such as silver (Ag), copper (Cu), and zinc (Zn). The increasing use of these Pb-free solders again increases the risk of release of Ag, Cu, and Zn metals into the environment. The Pb-free solders can, therefore, be used as a secondary source for the metals which will not only help in environmental protection but also for the resource recovery. Results This study reports a process to leach metals from hazardous soldering materials by acetic acid. Acetic acid was found more effective for metal recovery from the tin–copper (Sn–Cu) solder than tin–copper–silver (Sn–Cu–Ag) solder. Various process parameters were optimized for recovery of metals from Sn–Cu solder. It required 30 h for 100% recovery of Cu and Sn, respectively. The metal recovery increased gradually with an increase in acid concentration approaching complete recovery at an acid concentration of 80%. Effect of shaking speed and temperature on the recovery of metals from Sn–Cu solder was studied. The metal recovery decreased with an increase in solder weight. Conclusion The present study reveals an effective process to recycle the Pb-free solders. The low concentration of acetic acid was also found significant for metal leaching from solder. The research provides basic knowledge for recovery of metals from Pb-free solders.
AbstractList The replacement of lead (Pb)-bearing solders by several Pb-free solders is a subject of intense research in these days due to the toxic effects of Pb on the environment. However, the Pb-free solders contain metals such as silver (Ag), copper (Cu), and zinc (Zn). The increasing use of these Pb-free solders again increases the risk of release of Ag, Cu, and Zn metals into the environment. The Pb-free solders can, therefore, be used as a secondary source for the metals which will not only help in environmental protection but also for the resource recovery. This study reports a process to leach metals from hazardous soldering materials by acetic acid. Acetic acid was found more effective for metal recovery from the tin–copper (Sn–Cu) solder than tin–copper–silver (Sn–Cu–Ag) solder. Various process parameters were optimized for recovery of metals from Sn–Cu solder. It required 30 h for 100% recovery of Cu and Sn, respectively. The metal recovery increased gradually with an increase in acid concentration approaching complete recovery at an acid concentration of 80%. Effect of shaking speed and temperature on the recovery of metals from Sn–Cu solder was studied. The metal recovery decreased with an increase in solder weight. The present study reveals an effective process to recycle the Pb-free solders. The low concentration of acetic acid was also found significant for metal leaching from solder. The research provides basic knowledge for recovery of metals from Pb-free solders.[Figure not available: see fulltext.]
Background The replacement of lead (Pb)-bearing solders by several Pb-free solders is a subject of intense research in these days due to the toxic effects of Pb on the environment. However, the Pb-free solders contain metals such as silver (Ag), copper (Cu), and zinc (Zn). The increasing use of these Pb-free solders again increases the risk of release of Ag, Cu, and Zn metals into the environment. The Pb-free solders can, therefore, be used as a secondary source for the metals which will not only help in environmental protection but also for the resource recovery. Results This study reports a process to leach metals from hazardous soldering materials by acetic acid. Acetic acid was found more effective for metal recovery from the tin–copper (Sn–Cu) solder than tin–copper–silver (Sn–Cu–Ag) solder. Various process parameters were optimized for recovery of metals from Sn–Cu solder. It required 30 h for 100% recovery of Cu and Sn, respectively. The metal recovery increased gradually with an increase in acid concentration approaching complete recovery at an acid concentration of 80%. Effect of shaking speed and temperature on the recovery of metals from Sn–Cu solder was studied. The metal recovery decreased with an increase in solder weight. Conclusion The present study reveals an effective process to recycle the Pb-free solders. The low concentration of acetic acid was also found significant for metal leaching from solder. The research provides basic knowledge for recovery of metals from Pb-free solders.
Abstract Background The replacement of lead (Pb)-bearing solders by several Pb-free solders is a subject of intense research in these days due to the toxic effects of Pb on the environment. However, the Pb-free solders contain metals such as silver (Ag), copper (Cu), and zinc (Zn). The increasing use of these Pb-free solders again increases the risk of release of Ag, Cu, and Zn metals into the environment. The Pb-free solders can, therefore, be used as a secondary source for the metals which will not only help in environmental protection but also for the resource recovery. Results This study reports a process to leach metals from hazardous soldering materials by acetic acid. Acetic acid was found more effective for metal recovery from the tin–copper (Sn–Cu) solder than tin–copper–silver (Sn–Cu–Ag) solder. Various process parameters were optimized for recovery of metals from Sn–Cu solder. It required 30 h for 100% recovery of Cu and Sn, respectively. The metal recovery increased gradually with an increase in acid concentration approaching complete recovery at an acid concentration of 80%. Effect of shaking speed and temperature on the recovery of metals from Sn–Cu solder was studied. The metal recovery decreased with an increase in solder weight. Conclusion The present study reveals an effective process to recycle the Pb-free solders. The low concentration of acetic acid was also found significant for metal leaching from solder. The research provides basic knowledge for recovery of metals from Pb-free solders.
ArticleNumber 42
Author Hocheng, H.
Jadhav, U.
Su, C.
Chakankar, M.
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  givenname: U.
  surname: Jadhav
  fullname: Jadhav, U.
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  givenname: C.
  surname: Su
  fullname: Su, C.
  organization: Department of Power Mechanical Engineering, National Tsing Hua University
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  surname: Chakankar
  fullname: Chakankar, M.
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  givenname: H.
  surname: Hocheng
  fullname: Hocheng, H.
  email: hocheng@pme.nthu.edu.tw, hochengh@gmail.com
  organization: Department of Power Mechanical Engineering, National Tsing Hua University
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Keywords Industrial waste
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Snippet Background The replacement of lead (Pb)-bearing solders by several Pb-free solders is a subject of intense research in these days due to the toxic effects of...
The replacement of lead (Pb)-bearing solders by several Pb-free solders is a subject of intense research in these days due to the toxic effects of Pb on the...
Abstract Background The replacement of lead (Pb)-bearing solders by several Pb-free solders is a subject of intense research in these days due to the toxic...
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SubjectTerms Acetic acid
Acids
Biochemical Engineering
Chemistry
Chemistry and Materials Science
Copper
Ecological risk assessment
Environmental Engineering/Biotechnology
Environmental protection
Hazardous materials
Heavy metals
Industrial and Production Engineering
Industrial waste
Leaching
Lead
Lead free
Materials recovery
Metal recovery
Metals
Process parameters
Resource recovery
Shaking
Silver
Soldering
Solders
Tin
Zinc
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Title Acetic acid mediated leaching of metals from lead-free solders
URI https://link.springer.com/article/10.1186/s40643-017-0173-5
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https://doaj.org/article/6e286d3f889a43fcb1083edc6ec2787f
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