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张红艳, 王成, 秦国新, 肖英, 帕尔哈提, 田新玲. 正交试验法优选石墨炉测定大米中镉的实验条件[J]. 分析测试技术与仪器, 2010, 16(4): 270-272.
引用本文: 张红艳, 王成, 秦国新, 肖英, 帕尔哈提, 田新玲. 正交试验法优选石墨炉测定大米中镉的实验条件[J]. 分析测试技术与仪器, 2010, 16(4): 270-272.
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ZHANG Hong-yan, WANG Cheng, QIN Guo-xin, XIAO Ying, PAER Ha-ti, TIAN Xin-ling. Application of Orthogonal Experimental Design in Optimization of Determination Conditions of Cadmium in Rice by GFAAS[J]. Analysis and Testing Technology and Instruments, 2010, 16(4): 270-272.
Citation: ZHANG Hong-yan, WANG Cheng, QIN Guo-xin, XIAO Ying, PAER Ha-ti, TIAN Xin-ling. Application of Orthogonal Experimental Design in Optimization of Determination Conditions of Cadmium in Rice by GFAAS[J]. Analysis and Testing Technology and Instruments, 2010, 16(4): 270-272.
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正交试验法优选石墨炉测定大米中镉的实验条件

Application of Orthogonal Experimental Design in Optimization of Determination Conditions of Cadmium in Rice by GFAAS

    摘要
  • 摘要: 利用L16(45)正交试验设计,考察了石墨炉原子吸收法测定大米中镉的灰化温度、灰化时间、原子化温度、原子化时间.确定了最佳灰化温度为450 ℃、灰化时间为15 s、原子化温度为1 750 ℃、原子化时间为4s等仪器的最佳参数.

     

    Abstract: Using the L16(45) orthogonal experimental design, factors including ashing temperature , ashing time ,atomization temperature, atomization time were studied in the determination of cadmium in rice by graphite furnace atomic absorption spectrometry. The instrument parameters were determined : the optimized ashing temperature, ashing time, atomization temperature, and atomization time were 450 ℃, 15 s, 1 750 ℃ and 4 s, respectively.

     

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