研究了混合基体改进剂,灰化、原子化温度以及共存元素的干扰。
The mixed matrix modifier and the aching or atomization temperature of silicon are investigated.
通过一系列实验,选择了石墨炉法测定铅的最佳基体改进剂,并确定了使用该基体改进剂的最佳灰化温度和原子化温度。
The best matrix developed agent to determine lead is selected after a series of experiments, and the best ashing temperature and atomic temperature are decided.
该方法最突出的优点是烟草样品不需灰化处理,烟草样品粉末与悬浮剂作用直接进样测试,节约了前处理时间和试剂。
The main advantage of this method is that the tobacco powder can be directly injected as suspended sample, and has no need for cineration in advance.
探讨了样品灰化方法及灰化原子化温度、基体改进剂对测定结果的影响。
Detailed discussion was conducted about the impact of factors such as ashing and automation temperature, ashing method of samples, and matrix modifier on the experimental results.
探讨了样品灰化方法及灰化原子化温度、基体改进剂对测定结果的影响。
Detailed discussion was conducted about the impact of factors such as ashing and automation temperature, ashing method of samples, and matrix modifier on the experimental results.
应用推荐