• Title/Summary/Keyword: ammonium bifluoride

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Analysis of germanium in rock and sediment by ICP/MS after ammonium bifluoride(NH4HF2) digestion (이플루오린화 암모늄 시료분해 및 ICP/MS에 의한 암석 및 퇴적물 중 게르마늄 분석)

  • Eum, Chul Hun;Choi, Won Myung
    • Analytical Science and Technology
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    • v.26 no.6
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    • pp.375-380
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    • 2013
  • Ammonium biflouride ($NH_4HF_2$) digestion was studied for germanium analysis in rock and sediment by inductively coupled plasma mass spectrometry (ICP/MS). QLO-1 and SDO-1 are used for reference materials from USGS. Sediment, basalt and ball clay for GeoPT were chosen as real samples. The loss of germanium in open vessel digestion was well known which can be caused by easy transformation to volatile compounds. But ammonium bifluoride digestion could suppress loss of germanium in open vessel digestion. Germanium recovery was not influenced by hydrogen peroxide with ammonium bifluoride digestion. Furthermore, the new method was simple and rapid in germanium analysis by ICP/MS. MDL(method detection limit) was 0.015 ${\mu}g/g$ and germanium recovery was 106~128%.

Production of uranium tetrafluoride from the effluent generated in the reconversion via ammonium uranyl carbonate

  • Neto, Joao Batista Silva;de Carvalho, Elita Fontenele Urano;Garcia, Rafael Henrique Lazzari;Saliba-Silva, Adonis Marcelo;Riella, Humberto Gracher;Durazzo, Michelangelo
    • Nuclear Engineering and Technology
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    • v.49 no.8
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    • pp.1711-1716
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    • 2017
  • Uranium tetrafluoride ($UF_4$) is the most used nuclear material for producing metallic uranium by reduction with Ca or Mg. Metallic uranium is a raw material for the manufacture of uranium silicide, $U_3Si_2$, which is the most suitable uranium compound for use as nuclear fuel for research reactors. By contrast, ammonium uranyl carbonate is a traditional uranium compound used for manufacturing uranium dioxide $UO_2$ fuel for nuclear power reactors or $U_3O_8-Al$ dispersion fuel for nuclear research reactors. This work describes a procedure for recovering uranium and ammonium fluoride ($NH_4F$) from a liquid residue generated during the production routine of ammonium uranyl carbonate, ending with $UF_4$ as a final product. The residue, consisting of a solution containing high concentrations of ammonium ($NH_4^+$), fluoride ($F^-$), and carbonate ($CO_3^{2-}$), has significant concentrations of uranium as $UO_2^{2+}$. From this residue, the proposed procedure consists of precipitating ammonium peroxide fluorouranate (APOFU) and $NH_4F$, while recovering the major part of uranium. Further, the remaining solution is concentrated by heating, and ammonium bifluoride ($NH_4HF_2$) is precipitated. As a final step, $NH_4HF_2$ is added to $UO_2$, inducing fluoridation and decomposition, resulting in $UF_4$ with adequate properties for metallic uranium manufacture.

A Study on Ni Electroless Plating Process for Solder Bump COG Technology (COG용 Solder Bump 제작을 위한 Ni 무전해 도금 공정에 관한 연구)

  • Han, Jeong-In
    • Korean Journal of Materials Research
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    • v.5 no.7
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    • pp.794-801
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    • 1995
  • To connect the driver IC and Al coated glass, a method has been developed to plate electrolessly Ni on Al/PR system. It Is necessary to pretreat Al to remove oxide film before plating. In order to find pretreatment process which does not damage photoresist or glass, alkaline and fluoride zincate process have been investigated. Because photoresist and aluminum thin film can easily dissolve in alkaline solution, it is considered that the fluoride zincate process was a suitable one. After immersion in the zincate solution containing 1.5 g/$\ell$ ammonium bifluoride and 100 g/$\ell$ zinc sulfate, electroless nickel plating could be performed. The additive in the zincate solution and thiourea in the plating solution increased smoothness of the plated surface. Acld dip could improve the uniformit of the surface.

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Determination of boron in steel by HNO3-NH4HF2 digestion and ICP-MS (질산-이플루오린화암모늄 분해 및 ICP-MS에 의한 철강 중 붕소 정량에 관한 연구)

  • Choi, Won Myung;Eum, Chul Hun;Park, Ilyong
    • Analytical Science and Technology
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    • v.27 no.6
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    • pp.352-356
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    • 2014
  • Various studies have been done to improve the properties of the steel by adding boron to the steel. Some studies have reported on the analysis of the boron in steel by AAS (atomic absorption spectrometry), ICP-OES(inductively coupled plasma-optical emission spectrometry), ICP-MS (inductively coupled plasma/mass spectrometry). The volatile loss of boron of steel in sample digestion and the separation procedure for avoiding matrix effect by high concentration of iron are difficulties for determination of boron in steel. The method to determine boron in steel by ICP-MS was developed without volatilization of boron in sample digestion step with $HNO_3-NH_4HF_2$ digestion method, and the additional separation process for avoiding matrix effect. Complete decomposition of steel with $HNO_3-NH_4HF_2$ digestion method, and boron determination by ICP-MS in the matrix of high concentration of iron were possible. Quantitative recoveries of boron in certified standard steel by new method in this study were 103 to 111%, and the relative standard deviation is less than 5%. The method detection limit was $1.17{\mu}g/g$.