NB-8010 Energy Dispersive X-Ray Fluorescence Spectrometer
Brand:NANBEI
Model:NB-8010 Energy Dispersive X-Ray Fluorescence Spectrometer
Application:Teaching research,environmental detection,optical material,metallic material,food safety,daily chemical products,agriculture,drug
NB-8010 Energy Dispersive X-Ray Fluorescence Spectrometer
Introduction of spectrometer:
* Restriction of hazardous substances contained in products with environmental regulations, such as the face in the field of electrical and electronic equipment targeted at the RoHS directive, to the automotive sector targeted ELV directive, to the field of children's toys and other objects EN71 instruction, not only in Europe but also in increasingly stringent worldwide.
* NANBEI’s NB-8010, analysis speed quickly, high accuracy and good reproducibility of the sample without damage, do not pollute the environment. These technical advantages can easily solve these limitations instructions.
Applications of spectrometer:
Quality and Technical Supervision (Environmental directives)
RoHS/Rohs (China)/ELF/EN71
Toy:
Paper, ceramics, paint, metal, etc.
Electrical and Electronic Materials:
Semiconductors, magnetic materials, soldering, electronic parts, etc.
Iron and steel, non-ferrous metals:
Alloys, precious metal, slag, ores, etc.
Chemical industry:
Mineral products, chemical fiber, catalysts, coatings, paints, cosmetics, etc.
Environment:
Soil, food, industrial waste, coal powder
Oil:
Oil, lubricating oil, heavy oil, polymer, etc.
Others:
Coating thickness measurement, coal, archeology, materials research and forensic etc.
Working Principle of spectrometer:
1. X-ray radiation from the primary X-ray tube, is irradiated through a collimator to the sample
2. Primary X-ray excitation characteristics of the elements contained in the sample X-rays through the secondary collimator into the detector
3. Processed through the detector, forming fluorescence spectroscopy data
4. Computer spectroscopy data analysis, qualitative and quantitative analysis is completed
Analysis Method of Harmful Element and Quality Management Process
Harmful element analysis method:
Hazardous Substances |
Example |
Screening Analysis |
Detailed analysis |
Hg |
X-ray spectroscopy |
AAS |
Pb |
Cd |
Cr6+ |
X-ray spectroscopy
(Analysis of total Cr) |
Ion chromatography |
PBBs / PBDEs |
X-ray spectroscopy
(Analysis of total Br) |
GC-MS |
Note: PBBs / PBDEs only for RoHS Instruction Analysis
Quality Management Process
Features of spectrometer:
l Triple-ray protection systems (software interlocks, hardware interlock labyrinth design), the complete elimination of radiation leaks under various working conditions
l Using the unique design of modular short optical disk, significantly improve the detection sensitivity, lower detection limit
l Elements from S to U of rapid analysis, measurement time is adjustable
l Up to 15 sets of composite filter, X-ray irradiation from 1mm to 7mm diameter optional
l Strong independent customized analysis report formatting features, analysis reports can be saved as PDF and EXCEL formats, the results are automatically saved, can be easily query historical data and statistics, the output data with just one click.
l Software can position the video observation of the sample, and the sample pictures, sample pictures displayed in the test report
l Spectra and material identification on the content of different elements
l By using the method of qualitative and quantitative analysis method, in order to ensure the accuracy of test data
l The calibration curve of open platform, can provide a scheme for the detection of harmful substances for customers
Application Examples
Measurement of harmful trace element in polyethylene samples, such as Cr, Br, Cd, Hg and Pb.
The difference of given values and the actual values of Cr, Br, Cd, Hg and Pb.
The difference of given values and the actual values of Cr, (Unit: ppm)
Sample |
Given Value |
Actual Value (NB-8010) |
Blank |
0 |
0 |
Sample 1 |
97.3 |
97.4 |
Sample 2 |
288 |
309.8 |
Sample 3 |
1122 |
1107.6 |
The difference of given values and the actual values of Br, (Unit: ppm)
Sample |
Given Value |
Actual Value (NB-8010) |
Blank |
0 |
0 |
Sample 1 |
90 |
89.7 |
Sample 2 |
280 |
281.3 |
Sample 3 |
1116 |
1114.1 |
The difference of given values and the actual values of Cd, (Unit: ppm)
Sample |
Given Value |
Actual Value (NB-8010) |
Blank |
0 |
0 |
Sample 1 |
8.7 |
9.8 |
Sample 2 |
26.7 |
23.8 |
Sample 3 |
107 |
107.5 |
The difference of given values and the actual values og Hg, (Unit: ppm)
Sample |
Given Value |
Actual Value (NB-8010) |
Blank |
0 |
0 |
Sample 1 |
91.5 |
87.5 |
Sample 2 |
271 |
283.5 |
Sample 3 |
1096 |
1089.5 |
The difference of given values and the actual values of Pb, (Unit: ppm)
Sample |
Given Value |
Actual Value (NB-8010) |
Blank |
0 |
0 |
Sample 1 |
93.1 |
91.4 |
Sample 2 |
276 |
283.9 |
Sample 3 |
1122 |
1120.3 |
The repeated measurement data of sample 3 Cr1122ppm, Br116ppm, Cd10ppm, Hg1096ppm, Pb1122ppm (Unit: ppm)
|
Cr |
Br |
Cd |
Hg |
Pb |
1 |
1128.7 |
1118.9 |
110.4 |
1079.5 |
1109.4 |
2 |
1126.2 |
1119.5 |
110.8 |
1072.4 |
1131.8 |
3 |
1111.5 |
1115.5 |
115.8 |
1068.9 |
1099.5 |
4 |
1122.1 |
1119.9 |
110.3 |
1086.0 |
1103.0 |
5 |
1115.6 |
1123.6 |
103.9 |
1080.7 |
1114.8 |
6 |
1136.6 |
1113.2 |
101.2 |
1068.8 |
1103.6 |
7 |
1129.5 |
1112.4 |
105.3 |
1079.0 |
1108.0 |
Average |
1124.3 |
1117.6 |
108.2 |
1076.5 |
1110.0 |
Standard deviation |
8.61 |
4.03 |
4.99 |
6.54 |
10.82 |
RSD |
0.77% |
0.36% |
4.62% |
0.61% |
0.98% |
Secondary filter for Pb element (Steel substrate samples), Sample: Steel (Pb 113ppm)
Technical Parameters
Model |
NB-8010 |
Analysis principle |
Energy dispersive X-ray fluorescence analysis |
Elements Range |
S (16) – U (92) any element |
Sample |
Plastic / metal / film / solid / liquid / powder, etc., any size and irregular shape |
X - ray tube |
Target |
Mo |
Tube voltage |
(5-50)kV |
Tube current |
(10-1000)uA |
Sample irradiation diameter |
F1mm-F7mm |
Filter |
15 sets of composite filter is automatically selected, and the automatic conversion |
Detector |
Imports from the United States Si-PIN detector |
The data processing circuit board |
Imports from the United States, with the use of Si-PIN detector sets |
Sample observation |
With 300,000-pixel CCD camera |
The sample chamber size |
490 (L)´430 (W)´150 (H) |
Analysis method |
Linear linear, quadratic Code lines, strength and concentration calibration correction |
Operating system software |
Windows XP, Windows7 |
Data management |
Excel data management, test reports, PDF / Excel format saved |
Working environment |
Temperature: £30°C. Humidity£70% |
Weight |
55kg |
Dimensions |
550´450´395 |
Power supply |
AC220V±10%,50/60Hz |
Determination conditions |
Atmospheric environment |