KADAR Fe DAN Zn DALAM KRIM KENTAL MANIS KEMASAN KALENG EXPIRE DAN NON EXPIRE MENGGUNAKAN HIDROGEN PEROKSIDA (H2O2) UNTUK DESTRUKSI BASAH SECARA SPEKTROFOTOMETRI SERAPAN ATOM (SSA)

Putri Go, I. Sudiarta, P. Suarya
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Abstract

Sweetened condensed milk is generally packaged in a can which is made from iron and zinc. Iron and zinc can have corrosion with the increasing of contact time and changing condition so that they will contaminate the milk. The purpose of this research are to determine the best wet destruction method, find out the effect of adding 30% H2O2 at varied volume in the process of wet destruction, to find out Fe and Zn content in expire and non-expired sweetened condensed milk and to compare the results with the national quality standard. Sample was wet destructed by using variation of 70% HNO3: 30% H2O2 which is 3:0 (method A); 3:0.5 (method B) 3:1 (method C); 3:2 (method D) then the results were measured by using Atomic Absorption Spectrophotometer. Analysis of Fe used standard addition curve method whereas the analysis of Zn used calibration curve method. The results of the analysis showed that the best variation of HNO3:H2O2 in wet destruction method was 3:0.5 for Fe analysis and 3:2 for Zn analysis. The addition of 30% H2O2 at varied volume in wet destruction for Fe analysis gave significantly different results for non-expired sweetened condensed milk but were not significantly different for expired sweetened condensed milk. Whereas, the analysis of Zn gave significantly different results for both non-expired and expired sweetened condensed milk. The metal content in the expired and non-expired sweetened condensed milk which were wet destructed by using the best solvent compotition obtained  0,2759 and 0,7126 mg/kg for Fe and 4,1645 and 2,4367 mg/kg for Zn metal. The Fe and Zn content in the sweetened condensed milk are still below the maximum limit that set by SNI. Keywords: Fe, H2O2, Atomic Absorption Spectrophotometer, sweetened condensed milk, Zn
甜炼乳通常包装在一个由铁和锌制成的罐子里。铁和锌会随着接触时间的增加和条件的改变而发生腐蚀,从而污染牛奶。本研究的目的是确定最佳湿法破坏方法,研究在湿法破坏过程中加入30%不同体积的H2O2的效果,测定过期和未过期甜炼乳中Fe和Zn的含量,并与国家质量标准进行比较。采用70% HNO3: 30% H2O2 3:0的变化对样品进行湿破坏(方法A);3:0.5(方法B) 3:1(方法C);3:2(方法D),然后用原子吸收分光光度计测定结果。分析铁采用标准添加曲线法,分析锌采用校准曲线法。分析结果表明,湿法破坏法中HNO3:H2O2的最佳变化量为Fe分析的3:0.5和Zn分析的3:2。湿法破坏中加入30%不同体积的H2O2对未过期甜炼乳的铁分析结果有显著差异,而对过期甜炼乳的铁分析结果无显著差异。而在未过期和过期的甜炼乳中,锌的分析结果有显著差异。采用最佳溶剂组成对过期和未过期甜炼乳进行湿法破坏,其铁含量分别为0.2759和0.7126 mg/kg,金属锌含量分别为4.1645和2.4367 mg/kg。加糖炼乳中铁和锌的含量仍低于SNI规定的最高限量。关键词:铁,H2O2,原子吸收分光光度计,甜炼乳,锌
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