Summary:
As a precision inorganic analytical instrument, TY-9900 ICP AES Analysis is widely used in rare-earth analysis, precious metal analysis, non-ferrous metals, alloy materials, electronic products, medicine and health, metallurgy, geology, petroleum, chemical industry, commodity inspection, environmental protection and other departments and NdFeB, silicon, ferrosilicon, tungsten, molybdenum, etc., from ultra-trace to constant qualitative or quantitative analysis. TY-9900 ICP AES Analysis is an ideal analytical instrument for many industries due to its fast speed, wide measurement and accurate and reliable analysis results.
Applications:
1. Steel and its alloys include carbon steel, cast iron, alloy steel, high purity steel, ferroalloys, etc.
2. Non-ferrous metals and their alloys include non-ferrous metals and their alloys, rare metals and their alloys, precious metals, rare earth elements and their compounds.
3. Water quality samples such as drinking water, surface water, waste water, mineralized water, electroplating waste water.
4. Environmental samples include soil atmospheric dust, fly ash.
5. Mineral samples such as geological samples, ores and minerals.
6. Inorganic non-metallic materials.
7. Chemical products include chemical reagents, inorganic materials, cosmetics, oil (gasoline, diesel, lubricating oil, C5 and other synthetic gasoline raw materials, oleic acid) petroleum catalysts, urea solutions.
8. Food and drink.
9. Animal, plant and biochemical samples such as plants, Chinese medicine and animal tissues, biochemical samples.
10. Nuclear industry products such as fuel, nuclear.
Features:
1.High-stability RF output, with stable light source and low detection limit that can reach the level of PPb (one billionth) at minimum.
2. The working curve has wide linear range that reach 5-6 orders of magnitudes.
3. Multiple elements are analyzed at the same time with fast analytical speed and wide range of applications. It can almost analyze all metallic and part of non-metallic elements in periodic table of elements.
4. Excellent optical system, advanced control system makes sure of the signal-background ratio accurate.
5. Imported key components: to ensure the accuracy and sensitively of the instrument.
6. Minimal matrix effect 99% of the sample without matrix separation.
7. Wide measuring range: ultra volume to the constant analysis.
8. Excellent precision: relative standard deviation RSD≤1.5%
9. Stability: the relative standard deviation RSD≤2.0%
10.Rapid analysis: sequential scan elements per minute, the fastest in more than 15.
11.Analysis of many elements: 70 metal elements can be analyzed and also some non-metallic elements.
12.Low detection limit: ug/L level
13.Do qualitative and quantitative analysis:
14.English operating software to make it easier to use easily, the data processing system provides a variety of functions, the output data can be print.
15.TY-9900 ICP Spectrometer uses analysis software with convenient operations and powerful functions. It can also realize functions including measurement, data processing, correction and data output.
Parameter:
RF Generator (RF) Automatic ignition, automatic control, etc.
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Circuit type
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Self-inductance feedback oscillation circuit, the output of coaxial cable, matching tuning, feedback signals from power, closed-loop control.
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Frequency
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40.68 MHz ± 0.05%
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Frequency stability
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≤ 0.1%
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Output power
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800-1500 W
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Output power stability
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≤ 0.1%
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Leakage of electromagnetic field strength of radio
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20 cm from the device
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Electric field strength E
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<2 V / m
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Sampling Devices
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Output of the coil diameter of 25mm, 3-turn.
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Torch tube
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three concentric type, diameter 20 mm quartz tube torch.
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Coaxial-type sprayer 6 mm diameter.
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Double-room fog diameter 34 mm.
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Argon carrier gas flow meter specifications and pressure gauges Specifications:
1. Plasma gas flow meter (100-1000) L / h (1.6-16L/min).
2. Auxiliary gas flow meter (10-100) L / h (0.16-1.66L/min).
3. Carrier gas flow meter (10-100) L / h (0.16-1.66L/min).
4. Carrier gas regulator valve (0-0.4Mpa) L / h.
5. Cooling water temperature :21-26 ℃ flow> 5 L / min pressure> 0.1 Mpa cooling water: resistivity > 1 Ω.
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ICP Spectrometer
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Optical pathway
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Czerny-Turner
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Focal length
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1000mm.
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Dispersion of the penultimate line
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0.26nm
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1/(Line Dispersion rate)
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0.26nm
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Resolving power
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≤ 0.006 nm
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Scan wavelength range
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125-800 nm
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Stepper motor drive the smallest step
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0.0005nm.
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Radio and the incident slit
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20 μ m
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Mirror specifications
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(80 × 110 × 16) mm
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Temperature keeping
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38 ℃ ± 1 ℃
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Element Limit of Detection (Unit: ppb & ug/L)
Element
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Wavelength(nm)
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LOD (ppb & ug/L)
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Element
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Wavelength(nm)
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LOD (ppb & ug/L)
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Ag
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328.068
|
0.3
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Nd
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401.225
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1.5
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Al
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396.152
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2
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Ni
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221.647
|
1
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As
|
193.696
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4
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Na
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588.995
|
29
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Au
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242.795
|
1
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P
|
213.618
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6
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B
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249.773
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1
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Pb
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220.353
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5
|
Ba
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445.403
|
0.1
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Pd
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340.458
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2
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Be
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313.042
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0.2
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Pr
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390.844
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2
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Bi
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223.061
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5
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Re
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227.525
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3
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Ca
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396.847
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0.2
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Rb
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780.023
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150
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Cd
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214.438
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0.3
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Sb
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206.833
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6
|
Ce
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413.765
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1.5
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Sc
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361.384
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0.5
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Co
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228.616
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1
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Se
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196.026
|
8
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Cr
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267.716
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1
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Si
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251.611
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5
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Cu
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324.754
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1
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Sm
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359.260
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1
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Dy
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353.170
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0.3
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Sn
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235.484
|
10
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Er
|
337.271
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0.3
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Sr
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407.771
|
0.15
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Eu
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381.967
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0.2
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Ta
|
226.230
|
6
|
Fe
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238.204
|
1
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Tb
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350.917
|
1
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Ga
|
294.364
|
3
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Ti
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334.941
|
0.2
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Gd
|
342.247
|
0.5
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Tl
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261.861
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5
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Hf
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277.336
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1
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Tm
|
313.126
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0.3
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Ho
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345.600
|
0.5
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V
|
309.418
|
0.5
|
La
|
333.749
|
0.5
|
W
|
207.911
|
4
|
Lu
|
261.542
|
0.2
|
Y
|
371.030
|
0.2
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Mg
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279.553
|
0.2
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Yb
|
328.937
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0.2
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Mn
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257.610
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0.2
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Zn
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213.856
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0.5
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Mo
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202.030
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1
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Zr
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343.823
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0.4
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Nb
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309.611
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1
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K
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766.490
|
60
|
|
|
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Cs
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455.531
|
50000
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